[
    {
        "Edquip ID": "PL-487804",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL FACTORY-BUILDER",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Factory Design and Automation",
        "Description": "The DL FACTORY BUILDER is a software that has been developed to teach factory design, industrial automation, and PLC programming in a unique and effective way.\n\nWith this software, students can improve their individual experience on studying industrial automation in practice.\n\nStudents will be able to develop several projects dealing with the following topics:\n\n-  Design and implementation of production lines including equipment, sensors, actuators, conveyor systems and so on;\n-  Develop PLC projects for production line equipment;\n-  Develop PLC projects for material flow management;\n-  Study automation basics, PLC, sensors and actuators;\n-  Study automation strategies such as state machines, interlocks, control strategies and advanced control;\n-  Study robotics;\n-  Study basic and advanced PLC programming.\n\nThis software works integrated to a SoftPLC (not included) which can be the Siemens PLCSIM or Codesys Control, as well as it can be connected to a real Siemens S7-1200\/1500 or other PLC with Modbus\/TCP interface.",
        "Specs": "EQUIPMENT\n\n-  SEVERAL CONVEYORS\n-  PALLETIZER\n-  ELEVATOR\n-  TRANSELEVATOR\n-  WEIGHT CONVEYOR\n-  INK COLORING SYSTEM\n-  PICK-AND-PLACE\n-  ROBOT\n\nSENSORS\n\n-  OPTICAL\n-  INDUCTIVE\n-  CAPACITIVE\n-  SCALE\n-  DISTANCE\n-  LEVEL\n-  TEMPERATURE\n-  PRESSURE\n-  FLOW\n-  ROTARY ENCODERS\n\nACTUATORS\n\n-  PNEUMATIC PISTON\n-  MOTORS\n-  PUMPS\n-  VALVES\n\n-  IT\u2019S A 3D SIMULATOR\n-  YOU CAN BUILD YOUR FACTORY\n-  YOU CAN CONTROL IT WITH A PLC OR SOFTPLC\n-  YOU CAN SAVE YOUR FACTORY AND SHARE IT WITH STUDENTS, PROFESSORS ETC\n-  YOU CAN SIMULATE FAULTS ON SENSORS AND ACTUATORS\n\nWith the industrial 3D environments and the built-in projects it\u00b4s possible to develop solutions that evolve basic ladder logic, analogue handling, math operations, comparisons, state machines, SFC, function blocks and a lot more.\n\n-  BASIC LADDER LOGIC\n-  ANALOGUE HANDLING\n-  SCALING\n-  FUNCTION BLOCKS\n-  SEQUENTIAL FUNCTION CHART",
        "Url": "edquip.co\/en\/de-lorenzo\/factory-design-and-automation",
        "Page title": "Factory Design and Automation: De Lorenzo - EDQUIP",
        "Page description": "Factory Design and Automation digital training. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": [
            "Email"
        ],
        "Software requirements": [
            "Desktop - windows"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/FACTORY DESIGN AND AUTOMATION\/FACTORY_DESIGN_AND_AUTOMATION_DL FACTORY-BUILDER.png",
        "Video link": null,
        "Main category": "Manufacturing Training Systems"
    },
    {
        "Edquip ID": "PL-242991",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL OPENLAB-SSEM",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Smart Simulator for Electric Machines Training",
        "Description": "The DL OPENLAB SMARTSIM is a software that has been developed to teach main topics related to electric machines in a unique and effective way.\n\nWith this software, students can improve their individual experience studying electric machines in practice. Students will be able to carry out several experiments dealing with the following topics:\n\n- Mechanical assembly,\n- Wiring, tests and measurements.\n\nThis software will be able to reproduce the features and behaviours of DE LORENZO Electric Machines Laboratory \u2013 DL OPENLAB.\n\nWith this type of software developed by DE LORENZO, students can learn in their own rhythm and teachers have more time to support the class, manage and improve the process because - unlike any other simple simulator - it grants the following benefits:",
        "Specs": "-  EFFECTIVE GUIDE FOR STUDENT\n\nPossibility to access learning topics, with theory, instructions and experiment proposals. The software includes a virtual version of the DL OPENLAB system; Student logs in, so his progress can be tracked, choose one of the learning topics, accesses theory, experiments proposals and instructions.\n\n-  AUTOMATIC VALIDATION OF STUDENTS\u2019 TASKS\n\nThe software automatically verifies if the student completed successfully each task in order to allow him\/her to go ahead with the next one; Student works on the assembly of the electrical machine, then makes the electrical connections and with all that correctly done, runs the experiment.\n\nIT CONNECTS PROFESSOR, STUDENT AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives students activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa. That means that the professors can monitor the students and based on the report that De Lorenzo\u00b4s cloud provides, the professors can give the support that a specific student might be needing.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARATELY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\nPROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN EXPERIMENTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEMSELV\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEY MOVE ON, LIKE IN GAME\n-  PROFESSORS CAN MONITOR STUDENTS AND VERIFY WHICH POINT THEY NEED HELP(Option available with the Dashboard\n\nHOW DOES IT HELP THE PROFESSOR?\n\nWith this software, the teacher spends less time explaining topics, verifying students\u2019 activities and helping students to identify mistakes that do not allow the successful completion of the experiment.\n\nThat means that the professor has more time to manage the class, make improvements and help students who need more attention. The two following points grant such benefits:\n\n-  The software automatically verifies the experiments carried out by the students and it gives relevant feedbacks:\n\nLike in a game that has different phases with challenges and missions, the DL OPENLAB-SSEM software includes practical experiments that need to be successfully completed to let the student access the next one. The teacher does not need to verify continuously if the student carried out the experiment. Moreover, many questions students would make about \u201cwhat could be wrong\u201d are automatically \u201canswered\u201d by the software when the student does not perform the experiment successfully. The image below summarizes this process.\n\n-  The software tracks the students\u2019 progress and it allow exporting reports:\n\nAt any time, the professor may verify how many and, specifically, which experiments the student has completed. That report can be used to track students\u2019 activities and it can be considered as an evaluation tool. This report can be generated and displayed directly in the system or it can be exported to a spreadsheet (see image below).\n\nDIDACTIC EXPERIENCE AND APPLICATION\n\nThe software guarantees a complete experience in the field of electrical machines. Students can approach this topic starting from the basic concepts, such as the analysis of magnetic fields and fluxes, up to advanced experiments based on characterization of machines and efficiency analysis.\n\nThrough this system, it is possible to assemble a relevant number of electric machines to carry out the following didactic experiences:\n\n-  Study of the magnetic field;\n-  Principles of the electromagnetic induction;\n-  Separately shunt, series and compound excited DC motors;\n-  Separately shunt, series and compound excited DC generators;\n-  Induction motors: three-phase slip ring and squirrel cage, single-phase repulsion and with capacitor;\n-  Dahlander connection;\n-  Synchronous three-phase motor, induction regulator and phase shifter, alternator, universal motor.\n\nSET OF ASSEMBLED MACHINES\n\nThe system is based on a set of components that allow the assembly of the rotating machines. The set consists of the following components:\n\n-  Base plate\n-  Supports with bearing\n-  Coupling joints\n-  Flexible coupling\n-  Electronic speed transducer\n-  Assembling screws\n-  Wrenches\n-  DC stator\n-  AC stator\n-  Rotor with commutator\n-  Brush holder with 2 brushes\n-  Squirrel cage rotor\n-  Slip-Ring rotor\n-  Brush holder with 6 brushes\n\nThe system also includes adjustable DC and AC power supplies, instruments, loads, starting devices, etc., in order to perform all the experiments of the electric machines.\n\nLEARNING TOPICS\n\nThis software covers 6 topics and proposes 43 experiments for the students. The experiments are listed below, grouped by learning topics.\n\nDESCRIPTION OF PERFORMABLE EXPERIMENTS\n\nA short description of some of the performable experiments:\n\nThree-phase squirrel cage motor, 2 poles, 24 V\u0394\n\nThis experiment studies the behavior of the three-phase squirrel cage motor in load condition with the stator windings connected in delta\n\nThree-phase squirrel cage motor, 2 poles, 42 VY\n\nThe main objective of this experiment is to study the characteristic curve of a three-phase squirrel cage motor with the stator winding connected in star by performing a direct test using an electromagnetic brake.\n\nThree-phase squirrel cage motor, 2 poles, 24 V\u0394\u0394\n\nApplying the same concepts studied up to this point, the student can plot the load characteristics of the three-phase squirrel cage motor connected in double delta.\n\nThree-phase squirrel cage motor, 2 poles, 42 VYY\n\nFollowing the same procedure with the stator winding connected in double star, the student will trace the curves for the absorbed current I, the power factor cosj, the speed n and the efficiency h as a function of the output power P.\n\nThree-phase squirrel cage motor, 4 poles, 24 V\u0394\n\nIn addition to recording the operation characteristics of the motor, the student will learn how to start the motor using a star-delta starter.\n\nThree-phase squirrel cage motor, 4 poles, 42 VY\n\nIn this experiment, the student will learn the load operation of a three-phase motor with 4 poles.\n\nThree-phase squirrel cage motor, 4\/2 poles, 42V D\/YY\n\nIn previous experiments, it has been demonstrated that by changing the number of poles it is possible to vary the speed of a squirrel cage motor. The student will learn about two-speed Dahlander motor configuration and its operation.\n\nSplit phase motor\n\nThe split phase motor, also known as a resistance start motor, has a single cage rotor and its stator has two windings known as main winding and starting winding. The main objective of this experiment is to study the characteristics of the motor with the main winding only, and to draw the curves of current I, efficiency \u03b7, torque C, output power P and power factor.\n\nCapacitor start and run motor\n\nThe objective is to study the characteristics of the motor with permanently connected capacitor. The student will learn how to properly select and connect a capacitor to the auxiliary windings so that the current through the main winding lags behind the current of the auxiliary windings by an angle of 90\u00b0.\n\nThree-phase motor with wound rotor, 2 poles, 42 VYY\n\nThe student will record the load characteristics of the motor with a wound rotor and the stator connected in double star. With the knowledge acquired up to this point, it will be easy to draw the diagram of the mechanical characteristic M = f(n) and to observe the behavior of an induction motor with a different type of rotor.\n\nPhase shifter\n\nThe objective is to study how the phase between the stator and rotor voltages varies as a function of the rotating angle and to identify the null phase shift condition using Lissajous\u2019 ellipse by setting the oscilloscope to XY mode.\n\nInduction regulator\n\nThe objective is to study the operation of a three-phase voltage regulator. By using a locking and rotating module with a graduated disc, the rotor can be turned by means of the hand-wheel until the load current results null with minimum indication of the voltmeter. The student will measure the absorbed current at constant load and draw the current and voltage curves as a function of the angular phase shift.\n\nThree-phase synchronous induction motor, 2 poles, 42V D\n\nThis experiment studies how to start and synchronize the induction motor using the starting rheostat and studies the load characteristics of the motor at synchronous speed.\n\nThree-phase synchronous induction motor, 2 poles, 24V DD\n\nFollowing the same procedure as in previous experiment, the diagram of the absorbed current I, the power factor cosj and the efficiency h as a function of the output torque C will be traced with the stator wired in delta-delta configuration.\n\nDC motor with separate excitation\n\nNow, it is time to work with DC motors. The first application refers to a separately excited DC motor, where the field winding is powered by an external independent source. The DC motor operation characteristics will be studied as a function of the excitation voltage.\n\nDC motor with shunt excitation\n\nBy performing this experiment, the student will learn how to connect the armature and field windings in parallel and compare the behavior with the previous experiment.\n\nDC motor with series excitation\n\nUnlike in the DC shunt motor, the DC series motor has very poor speed regulation. The main objective of the experiment is to draw the characteristics of the output power P, the speed n, and the efficiency h as a function of the absorbed current I.\n\nDC motor with compound excitation, long shunt\n\nBy combining the operational characteristic of both the shunt and series excited DC motor, we obtain the DC compound excitation motor. The operation of the motor is studied with cumulative and differential e\n\nDC motor with compound excitation, short shunt\n\nThis experiment shows why the compound motor responds better to heavy load changes than a shunt motor.\n\nSingle-phase series motor\n\nThe single phase series motor, also known as a universal motor, is a rotating machine similar to a DC motor, but designed to operate either from DC or single-phase AC.\n\nRepulsion motor\n\nThe repulsion motor combines a stator of a single-phase motor with a rotor similar to that of a DC motor. The main benefit of the repulsion motor is that the armature is separated from the line. The main objective of this experiment is to record its operation characteristics.\n\nMeasure the windings resistance of the alternator\n\nThis experiment calculates the voltage drops across the rotor winding resistance of an induction motor using the Ohm\u2019s law. The winding resistance value of the alternator is useful to calculate the conventional efficiency.\n\nNo-load test of the alternator\n\nThe main objective of this experiment is to determine the mechanical and iron losses of the alternator and to record its magnetization characteristic using a DC motor as prime mover.\n\nShort-circuit characteristic of the alternator\n\nThe short-circuit test of the synchronous generator provides information about its current capabilities. It is performed by driving the generator at its rated speed while the terminals of the armature winding are shorted. This characteristic diagram is essential for the application of the indirect testing method of the alternator.\n\nLoad test of the alternator\n\nThis test compares the behavior of a synchronous generator connected to a variable external load with its no-load operation.\n\nParallel connection of the alternator with the mains\n\nThis experiment studies an operation which is frequently performed in a power station. The synchronization of a generator consists of electrically coupling the generator output to another source of electric energy and operating the generator such that its output adds to the other source.\n\n\u201cV\u201d curve of the synchronous motor\n\nThe V-curve of a synchronous machine shows its performance in terms of variation of the armature current with the field current when the load and the input voltage of the machine are maintained constant. The student will trace different V curves for particular resistant torque applied to the motor axis.\n\nMeasure the windings resistance of the DC generator\n\nThis experiment demonstrates how measuring the internal resistance of a DC machine can be used to establish the integrity of the machine windings and internal connections.\n\nTest of the no-load motor (Swinburne)\n\nIn order to design rotating DC machines with higher efficiency, it is important to study the losses occurring in them. Swinburne\u2019s method consists of operating a dynamo as a DC motor with no load to determine its mechanical and iron losses. This is done by increasing the armature voltage U while measuring the armature current Ia and the excitation current le.\n\nMagnetization characteristic of a DC Generator\n\nThis experiment studies the magnetization characteristic of a separately excited DC generator using a three-phase synchronous motor as prime mover.\n\nSeparate excitation dynamo\n\nThe main objective of this experiment is to record the external and regulation characteristics of a separate excitation generator to determine its conventional efficiency. This is done by measuring the output voltage U as a function of the load current, with constant excitation current Ie.\n\nShunt excitation dynamo\n\nThe previous experiment is replicated with a different configuration of the DC generator. Using the results from the previous experiments, the student will plot the external and regulation characteristic of the generator connected in shunt.\n\nSeries excitation dynamo\n\nDetermining the external characteristic of a DC generator connected in series is to observe how the voltage slightly drops as the load increases. The student will use these results to calculate the conventional efficiency of the dynamo.\n\nCompound excitation dynamo\n\nThis experiment follows the same procedure as the previous ones with the generator in compound excitation connection. After performing this last experiment, the student will be able to make comparative analyses between all the different DC generator configurations.",
        "Url": "edquip.co\/en\/de-lorenzo\/smart-simulator-for-electric-machines-training",
        "Page title": "Smart Simulator for Electric Machines Training",
        "Page description": "Smart Simulator for Electric Machines Training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": [
            "Email"
        ],
        "Software requirements": [
            "Desktop - windows"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/SMART SIMULATOR FOR ELECTRIC MACHINES TRAINING\/SMART SIMULATOR FOR ELECTRIC MACHINES TRAINING_DL OPENLAB_SSEM.png",
        "Video link": null,
        "Main category": "CNC Training Machines"
    },
    {
        "Edquip ID": "PL-338869",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SMART-DCS",
        "Content languages": "en, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Dynamic Control Systems Course",
        "Description": "The DL SMART-DCS is a software that has been developed to teach dynamic control with PLC in a unique and effective way. With this software, students can improve their individual experience on studying control systems in practice.\n\nProfessors can explore this trainer to provide experiments to students with the following topics:\n\n- Control systems: Introduction, examples, block digrams, open and close loop systems;\n- Control principles: Mathematical modeling of dynamic systems, linearity, transfer function, block diagrams, frequency response, stability, computational simulation;\n- Control approaches: Classic, optimal, fuzzy, other approaches;\n- ON-OFF and PID Control (P, PI, D, PID): Designing and tuning by analytic and experimental methods, and study of the P, D and I control actions;\n- Analysis of systems of first, second and third order in transitory and steady state\n\nThis software works integrated to a softPLC (not included) which can be: The Siemens PLCSIM or Codesys Control.",
        "Specs": "-  STUDYING AND EXPERIMENTING THE SYSTEMS\n\nGoal: Familiarize the student with basic control concepts and introduce him\/her to plants. Control contents: Studying the plant, control concepts, first steps, communication.\n\n-  OPEN-LOOP CONTROL\n\nGoal: Implement and discuss a system controlled by the user. Control contents: Open loop control.\n\n-  TRANSIENT AND STEADY-STATE RESPONSE\n\nGoal: Study the 2 parts of a response and their importance. Control contents: System response.\n\n-  ON-OFF CONTROL\n\nGoal: Implement an on-off controller and evaluate its performance. Control contents: On-off controller.\n\n-  PROPORTIONAL CONTROL\n\nGoal: Implement a proporcional controller and discuss its advantages and limitations. Control contents: Proportional controller.\n\n-  CODESYS PID BLOCK\n\nGoal: Present the Siemens PID controller to be used as a tool from this point on. Control contents: PID controller.\n\n-  PI CONTROLLER\n\nGoal: Implement a PI controller, present how to tune it, and study the impact of the integral action. Control contents: PI controller.\n\n-  PD CONTROLLER\n\nGoal: Implement a PD controller and study the derivative contribution. Control contents: PD controller.\n\n-  ZIEGLER-NICHOLS METHOD (OPEN LOOP)\n\nGoal: Present and apply the Ziegler-Nichols method to a control system. Control contents: Ziegler-Nichols (open loop).\n\n-  ZIEGLER-NICHOLS METHOD (CLOSED LOOP)\n\nGoal: Present and apply the Ziegler-Nichols method to a control system. Control contents: Ziegler-Nichols (closed loop).\n\n-  OTHER PARAMETRIZATION METHODS\n\nGoal: Study and implement other parametrization methods. Control contents: Other parametrization methods\n\nWith the industrial 3D environments and also the built-in projects it\u00b4s possible to develop solutions that evolve basic control approaches, like open loop control, controllers tuning (ON-OFF, P, PI, PD, PID) and some tuning methods, like Ziegler-Nichols closed loop method.\n\n-  CONTROL CONCEPTS\n-  SCALING\n-  FUNCTION BLOCKS\n-  TRACE\n-  CONTROLLER\n\nIT CONNECTS PROFESSOR, STUDENT AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives students activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa. The platform includes a query and answer system that enables professors to support the students counting on a team of monitors. That means better support with less effort of the professors. The students can see questions asked by other colleagues too so that way if more than one student have the same doubt the professors answer will attend them all.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARETLY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nPROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nEFFORT\/TASK DEDICATED TIME\n\nIf the professor selects a student, he\/she may verify how much time the student took to develop and deliver each task of the course.\n\nPROGRESS VS TIME TAKEN\n\nIt is also possible to verify the distribution of the dedicated time with relation to the number of tasks done by each student at any period of time. That helps to identify who is doing well, who may need help, who is doing nothing and who is trying to cheat.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN PROJECTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEMSELVES\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEY MOVE ON, LIKE IN GAME\n-  PROFESSORS CAN MONITOR STUDENTS,AND VERIFY WHICH POINT THEY NEED HELP(Option available with Dashboard)\n\nBUILT-IN PROJECTS, TASKS, INSTRUCTIONS, CONTENTS, AND AUTOMATIC VALIDATION\n\n-  Each project has well defined goals and requirements.\n-  They are structured in tasks, and each task has specific requirements and provides instructions,contents and guidance to the students.\n-  When a student tests the developed solution and verifies that it meets the requirements, thestudent can deliver the task.\n-  When a student delivers a task, the SMARTSIM itself tests the student\u00b4s solution in real time and allows him\/her to go to the next step.",
        "Url": "edquip.co\/en\/de-lorenzo\/dynamic-control-systems-course",
        "Page title": "Dynamic Control Systems Course: De Lorenzo - EDQUIP",
        "Page description": "Dynamic Control Systems Course is an edtech \/ voctech product. Request quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "60 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": false,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": [
            "Email"
        ],
        "Software requirements": [
            "Desktop - windows"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/DYNAMIC CONTROL SYSTEMS COURSE\/DYNAMIC_CONTROL_SYSTEMS_COURSE_DL SMART-DCS.png",
        "Video link": "",
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-508224",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SMART-INDUSTRIAL",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Industrial Electrical Installations Virtual Course",
        "Description": "The DL SMART-INDUSTRIAL is a software that has been developed to teach multiple applications such as PLC, variable frequency drive, motor drives control and sensors in a unique and effective way.\n\nWith this software, students can improve their individual experience on studying electrical applications in practice.\n\nStudents will be able to develop several projects dealing with the following topics:\n\n- Basic and advanced Industrial Installations;\n- Basic and advanced motors starting;\n- Motor starting with sensors;\n- Motor starting and control with Codesys, TIA Portal and VFD;\n\nThis software will be able to reproduce the features and behaviours of the DE LORENZO Electrical industrial installations didactic systems.\n\nWith this type of software developed by DE LORENZO, students can learn at their own pace and teachers have more time to support the class, manage and improve the process because \u2013 unlike other simple simulators \u2013 it grants the following benefits:",
        "Specs": "-  EFFECTIVE GUIDE FOR STUDENT\n\nPossibility to access learning topics, with theory, instructions, and experiment proposals. The software includes a virtual version of the DE LORENZO Electrical industrial installations didactic systems; Student logs in, so his progress can be tracked, chooses one of the learning topics, accesses theory, experiments proposals and instructions.\n\n-  AUTOMATIC VALIDATION OF STUDENTS\u2019 TASKS\n\nThe software automatically verifies if the student has completed successfully each task in order to allow him\/her to go ahead with the next one. Student works on the assembly of the electrical machine, then makes the electrical connections and with all that correctly done, runs the experiment and answers questions about it\n\nIT CONNECTS PROFESSOR, STUDENT, AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives the students\u2019 activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa. That means that the professors can monitor the students and based on the report that De Lorenzo\u00b4s cloud provides, the professors can give the support that a specific student might be needing.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARATELY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nPROFESSORS CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN EXPERIMENTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEMSELVES\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEM MOVE ON, LIKE IN A GAME\n-  PROFESSORS CAN MONITOR STUDENTS AND VERIFY WHICH POINT THEY NEED HELP(Option available with the Dashboard)\n\nHOW DOES IT HELP THE PROFESSOR?\n\nWith this software, the teacher spends less time explaining topics, verifying students\u2019 activities and helping students to identify mistakes that do not allow the successful completion of the experiment.\n\nThat means that the professor has more time to manage the class, help students who need more attention and make improvements. The two following points grant such benefits:\n\n-  The software automatically verifies the experiments carried out by the students and it gives relevant feedback:\n\nLike in a game that has different phases with challenges and missions, the DL ELECTRICAL INSTALLATION software includes practical experiments that need to be successfully completed to let the student access the next one.\n\nThe teacher does not need to verify continuously if the student carried out the experiment. Moreover, many questions students would make about \u201cWhat could be wrong?\u201d are automatically \u201canswered\u201d by the software when the student does not perform the experiment successfully. The image below summarizes this process.\n\n-  The software tracks the students\u2019 progress, and it allows exporting reports:\n\nAt any time, the professor may verify how many and, specifically, which experiments the student has completed. That report can be used to track students\u2019 activities and it can be considered as an evaluation tool.\n\nThis report can be generated and displayed directly in the system or it can be exported to a spreadsheet (see image below).\n\nDIDACTIC EXPERIENCE AND APPLICATION\n\nThe software guarantees a complete experience in the field of several electrical installations. Students can approach this topic starting from the basic concepts, such as basic industrial installations, up to advanced experiments such as motor starting and control using PLC.\n\nThrough this system, it is possible to assemble a relevant number of electrical applications to carry out the following didactic experiences:\n\n-  Basic industrial installations\n-  Advanced industrial installations\n-  Basic motors starting\n-  Advanced motors starting\n-  Motor starting with sensors\n-  Motor starting and control with codesys\n-  Motor starting and control with TIA PORTAL\n-  Motor starting and control with inverter (VFD)\n\nSET OF COMPONENTS\n\nThe system is based on a set of components that allow the assembly of installations. The set consists of the following components:\n\n-  Power supplies\n-  Transformers\n-  Sensors\n-  Switches\n-  Toggle buttons\n-  Push buttons\n-  Relays\n-  Contactors\n-  Starters\n-  Motors\n-  VFD\n\nThe system PLCs also includes lamps, level control, pulse counters, etc., in order to perform all the experiments.\n\nLEARNING TOPICS\n\nThis software covers 8 topics and proposes 44 experiments for the students. The experiments are listed below, grouped by learning topics.\n\nBASIC INDUSTRIAL INSTALLATIONS\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Single - pole control auxiliaries\n-  Contactor\n-  Logical operators (and)\n-  Logical operators (or)\n-  Logic operators (not)\n-  Contactor self - supply\n-  Interlock between contactors\n-  Sequentially controlled contactors\n-  Exclusive - or operator\n-  Static excitation delayed timer\n-  Static de-excitation delayed timer\n-  Static eletronic timer\n\nSmart simulator environment with 12 experiments regarding basic usage of contactors and timer relays, by applying both in several different combinations, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in industrial electrical installations. Each one is divided into three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer an assessment form related to the experiment in order to unblock the next one.\n\nADVANCED INDUSTRIAL INSTALLATIONS\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Thermal relay\n-  Manual star\/delta starting\n-  Manual reverser\n-  Timed sequence control\n-  Pulse generator\n-  Automatic star\/delta starter\n-  Star\/delta starter with reverser\n-  Counter - current braking\n\nSmart simulator environment with 8 experiments regarding different ways to start an asynchronous induction motor, both manually and automatically with the help of a time relay, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in industrial electrical installations. Each one is divided into three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer an assessment form related to the experiment in order to unblock the next one.\n\nBASIC MOTOR STARTING\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Manual starter with rotor resistances\n-  Automatic starter with rotor resistances\n-  Speed variator for Dahlander motor\n-  Speed variator and reverser for Dahlander motor\n-  Three-phase induction motor\u2019s rotation direction automatic inverter\n\nSmart simulator environment with 5 experiments regarding the basics of motor starting, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in industrial electrical installations. Each one is divided into three steps: Assembly of the modules that will be used, wiring connections, and simulation. After the simulation, the student will have to answer an assessment form related to the experiment in order to unblock the next one.\n\nADVANCED MOTOR STARTING\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Motor starting with switch\n-  Y\/\u0394 Starting with switch\n-  Starting and reversal with switch\n-  Y\/\u0394 Starting with 2 rotation directions, with switch\n-  Speed variator for Dahlander motor with switch\n-  Speed variator for Dahlander motor, 2 rotation directions, with switch\n\nSmart simulator environment with 6 experiments where the student will move forward in the previous topic and learn more advanced subjects about motor starting, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in industrial electrical installations. Each one is divided into three steps: Assembly of the modules that will be used, wiring connections, and simulation. After the simulation, the student will have to answer an assessment form related to the experiment in order to unblock the next one.\n\nMOTOR STARTING WITH SENSORS\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Motor starting and control with limit switch (position sensor)\n-  Motor starting and control with inductive sensor\n-  Motor starting and control with capacitive sensor\n-  Motor starting and control with photoelectric barrage sensor\n-  Motor starting and control with photoelectric reflecting sensor\n-  Motor starting and control with magnetic level sensor\n-  Motor starting and control with level variations\n-  Motor starting and control with pulse programmer\n\nSmart simulator environment with 8 experiments regarding how to start motors with the help of sensors, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in industrial electrical installations. Each one is divided into three steps: Assembly of the modules that will be used, wiring connections, and simulation. After the simulation, the student will have to answer an assessment form related to the experiment in order to unblock the next one.\n\nMOTOR STARTING AND CONTROL WITH PLCS (CODESYS)\n\nWith this kit, it is possible to perform the following experiment:\n\n-  Introduction to PLC programming\n-  PLC automation basics\n-  Automatic motor starting using PLC\n-  Remote controlled starting of a three-phase asynchronous motor with double controls\n-  Remote controlled reversal of a three-phase asynchronous motor\n-  Star-delta remote controlled starting of a three-phase asynchronous motor\n-  Star-delta remote controlled starting with remote controlled reversal\n-  Remote controlled bias switch for a two speed motor (Dahlander connection)\n-  Remote controlled reversing switch and remote controlled bias switch for two speed motor\n\nSmart simulator environment with 9 experiments regarding how to start and control motors using a Programmable Logic Controller Software (Codesys), each one including brief theoretical mentions and practical diagrams of the main circuits that are used in industrial electrical installations. Each one is divided into three steps: Assembly of the modules that will be used, wiring connections, and simulation. After the simulation, the student will have to answer an assessment form related to the experiment in order to unblock the next one.\n\nMOTOR STARTING AND CONTROL WITH PLCS (TIA PORTAL)\n\nWith this kit, it is possible to perform the following experiment:\n\n-  Introduction to PLC programming\n-  PLC automation basics\n-  Automatic motor starting using PLC\n-  Remote controlled starting of a three-phase asynchronous motor with double controls\n-  Remote controlled reversal of a three-phase asynchronous motor\n-  Star-delta remote controlled starting of a three-phase asynchronous motor\n-  Star-delta remote controlled starting with remote controlled reversal\n-  Remote controlled bias switch for a two speed motor (Dahlander connection)\n-  Remote controlled reversing switch and remote controlled bias switch for two speed motor\n\nSmart simulator environment with 9 experiments regarding how to start and control motors using a Programmable Logic Controller Software (TIA Portal), each one including brief theoretical mentions and practical diagrams of the main circuits that are used in industrial electrical installations. Each one is divided into three steps: Assembly of the modules that will be used, wiring connections, and simulation. After the simulation, the student will have to answer an assessment form related to the experiment in order to unblock the next one.\n\nMOTOR STARTING AND CONTROL WITH VFD\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Simple start\/stop\n-  Setting acceleration\/deceleration time\n-  Simple jog mode experiment\n-  Jog mode in steady-state operation\n-  Closed loop speed regulation (PID control)\n\nSmart simulator environment with 5 experiments regading how to start and control motors using a Variable Speed Drive (VFD), each one including brief theoretical mentions and practical diagrams of the main circuits that are used in industrial electrical installations. Each one is divided into three steps: Assembly of the modules that will be used, wiring connections, and simulation. After the simulation, the student will have to answer an assessment form related to the experiment in order to unblock the next one.",
        "Url": "edquip.co\/en\/de-lorenzo\/industrial-electrical-installations-virtual-course",
        "Page title": "Industrial Electrical Installations Virtual Course: De Lorenzo - EDQUIP",
        "Page description": "Industrial Electrical Installations Virtual Course. Request your quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": null,
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            "Engineering Undergraduate"
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        "Warranty": "60 months",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/INDUSTRIAL ELECTRICAL INSTALLATIONS VIRTUAL COURSE\/1727770329_DL SMART-INDUSTRIAL.png",
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        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-943001",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SMART-MA",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Machine Automation Course",
        "Description": "The DL SMART\u2013MA is a software that has been developed to teach industrial automation and PLC programming in a unique and effective way. With this software, students can improve their individual experience on studying industrial automation in practice.\n\nStudents will be able to carry out several experiments dealing with the following topics:\n\n- Main concepts related to logic control;\n- State machine (SFC) approach;\n- Electric diagram interpretation;\n- Electric commands for motor engines and pneumatic systems and their interfaces to PLCs;\n- Programmable logic controllers: hardware and software structure, technical characteristics and specifications, programming languages, main ladder instructions, data handling, maths, numeric formats, comparisons, timers and analog interfaces.\n\nThis software works integrated to a softPLC (not included) which can be: The Siemens PLCSIM or Codesys Control.",
        "Specs": "-  AUTOMATING THE GATE OF THE FACTORY\n\nProject: The student is required to automate the door gate of the factory\u2019s facilities. The reason is that the factory has plans to implement remote control for all its accesses.\n\nAutomation contents: Automation and PLC basics, input and output, sensors and actuators, ladder language, basic ladder Boolean instructions: NO\/NC contacts and simple coil, direct engine start and interlocks, edge detection instructions, implement commands from impulse\/pushes.\n\nElectricity contents: Basic electric automation panel, electric motor protection and comman\n\n-  GYPSUM DOSING AND MIXING LINE\n\nProject: The student receives a line from another factory but the PLC program is lost. Therefore, it is necessary to study the electric diagram and the description of how the machine works in order to develop a new system.\n\nNew automation contents: Memory and image memory, PLC scan cycle, interlocks, retentive command instructions, sequencing techniques using interlocks and memories, timers, counters, analog input signal reading and scaling, guidance on the use of memories and retentive commands, state machines, SFC, implementation of SFC in ladder logic.\n\nNew electricity contents: Complete automation and motor command electric panel, interpretation of the whole electric diagram, mapping the IO from the electric diagram.\n\n-  AUTOMATING THE FACTORY ELEVATOR\n\nProject: The factory has vertical operation and needs to increase the number of elevators but instead of buying a new one, the factory decided to build it.The student is required to develop the elevator\u2019s PLC software.\n\nNew automation contents: When not to use state machines, linear movement with origin and destiny memory approach.\n\nNew electric contents: Safety relays and circuit, interface between PLC and frequency inverters.\n\n-  AUTOMATING THE BATCHING SYSTEM\n\nProject: The student is required to develop a solution to automate color formulation in its ink factory. The student must use all the knowledge and skills developed to get this job done.\n\nAutomation contents: Organization and function blocks, modularizing the project in small blocks, calling various instances of the same function block.\n\nWith the industrial 3D environments and also the built-in projects it\u00b4s possible to develop solutions that evolve basic ladder logic, analog handling, math operations, comparisons, state machines, SFC, function blocks and a lot more.\n\n-  BASIC LADDER LOGIC\n-  SCALING\n-  FUNCTION BLOCKS\n-  ANALOG HANDLING\n-  SEQUENTIAL FUNCTION CHART\n\nELETRIC PANEL\n\nYou may see that it is very similar to a real electric automation and motor command panel. It has the energy supply and protection, circuit breakers, contactors, safety relay, 24Vdc power supply, PLC, interface relays, connectors, contactors, frequency inverters and so on.\n\nELETRIC DIAGRAM SAMPLES\n\nAs well as the electric panel, the electric diagrams are also presented to the students in industrial standard. The following images are samples of the electric diagram pages.\n\nTROUBLESHOOTING\n\nSolving problems on machinery quickly and effectively to reduce downtime is one of the most valued skills in industries. Our solution includes a resource to let the student activate a defect without knowing which defect it is. When the student does that, some component will be damaged and the machine will behave in some strange way. The student\u2019s task is to find out the root cause of the problem and replace the damaged component by using the replacement console. In order to find out what the problem is, the student may use the virtual multimeter (left picture) to make measurements in the electric panel as well as force signal (right picture) to relay\u2019s coils in order to verify if actuators are working properly\n\nIT CONNECTS PROFESSOR, STUDENT AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives students activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa. The platform includes a query and answer system that enables professors to support the students counting on a team of monitors. That means better support with less effort of the professors. The students can see questions asked by other colleagues too so that way if more than one student have the same doubt the professors answer will attend them all.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARETLY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nPROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nEFFORT\/TASK DEDICATED TIME\n\nIf the professor selects a student, he\/she may verify how much time the student took to develop and deliver each task of the course.\n\nPROGRESS VS TIME TAKEN\n\nIt is also possible to verify the distribution of the dedicated time with relation to the number of tasks done by each student at any period of time. That helps to identify who is doing well, who may need help, who is doing nothing and who is trying to cheat.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN PROJECTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEMSELVE\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEY MOVE ON, LIKE IN GAME\n-  PROFESSORS CAN MONITOR STUDENTS,AND VERIFY WHICH POINT THEY NEED HELP(Option available with Dashboard)\n\nBUILT-IN PROJECTS, TASKS, INSTRUCTIONS, CONTENTS, AND AUTOMATIC VALIDATION\n\n-  Each project has well defined goals and requirements.\n-  They are structured in tasks, and each task has specific requirements and provides instructions,contents and guidance to the students.\n-  When a student tests the developed solution and verifies that it meets the requirements, thestudent can deliver the task.\n-  When a student delivers a task, the SMARTSIM itself tests the student\u00b4s solution in real time and allows him\/her to go to the next step.",
        "Url": "edquip.co\/en\/de-lorenzo\/machine-automation-course",
        "Page title": "Machine Automation Course: De Lorenzo - EDQUIP",
        "Page description": "Fully virtual Machine Automation Course. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "60 months",
        "Voltage availability": null,
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        "Teacher materials": false,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/MACHINE AUTOMATION COURSE\/MACHINE AUTOMATION COURSE_DL SMART-MA.png",
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        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-142565",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SMART-ROB",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Robotics Course",
        "Description": "The DL SMART-ROB is a software that has been developed to teach robotics with PLC in a unique and effective way. With this software, students can improve their individual experience on studying industrial robotics in practice.\n\nProfessors can explore this trainer to provide experiments to students with the following topics:\n\n- Scara 2D robot: model, applications, classifications;\n- Palletizing robot: model, applications, classifications;\n- Direct kinematics: what it is and how to implement;\n- Inverse kinematics: what it is and how to implement;\n- Denavit-Hartenberg notation: what it is, how to apply and how to implement.\n\nThis software works integrated to Codesys Control (not included).",
        "Specs": "-  DIRECT KINEMATICS\n\nGoal: Implement a solution to control the robotsmovement by defining the angles of the joints. Robotics concepts: kinematics.\n\n-  INVERSE KINEMATICS\n\nGoal: Implement a solution to control the movement of a robot by defining the position of its endpoint. Robotics concepts: kinematics.\n\nDENAVIT-HARTENBERT NOTATION\n\nGoal: Use Denavit-Hartenberg notation in practice. Concepts of robotics: Denavit-Hartenberg method.\n\nPATH PLANNING AND EXECUTION\n\nGoal: Implement trajectory planning, storage and execution. Robotics concepts: direct and inverse kinematics and trajectory\n\nWith 3D industrial environments as well as integrated projects, you can develop solutions involving direct and inverse kinematics, trajectory planning and execution, Denavit-Hartenberg notation, and a lot more.\n\n-  HUMAN-MACHINE INTERFACE\n-  ROBOTICS INTRODUCTION\n-  FUNCTION BLOCKS\n-  CONTINUOUS FUNCTION CHART\n-  ROBOT CONTROLLER\n\nIT CONNECTS PROFESSOR, STUDENT AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives students activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa. The platform includes a query and answer system that enables professors to support the students counting on a team of monitors. That means better support with less effort of the professors. The students can see questions asked by other colleagues too so that way if more than one student have the same doubt the professors answer will attend them all.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARETLY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nPROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nEFFORT\/TASK DEDICATED TIME\n\nIf the professor selects a student, he\/she may verify how much time the student took to develop and deliver each task of the course.\n\nPROGRESS VS TIME TAKEN\n\nIt is also possible to verify the distribution of the dedicated time with relation to the number of tasks done by each student at any period of time. That helps to identify who is doing well, who may need help, who is doing nothing and who is trying to cheat.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN PROJECTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEM\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEY MOVE ON, LIKE IN GAME\n-  PROFESSORS CAN MONITOR STUDENTS, AND VERIFY WHICH POINT THEY NEED HELPOption available with Dashboard\n\nBUILT-IN PROJECTS, TASKS, INSTRUCTIONS, CONTENTS, AND AUTOMATIC VALIDATION\n\n-  Each project has well defined goals and requirements.\n-  They are structured in tasks, and each task has specific requirements and provides instructions, contents and guidance to the students.\n-  When a student tests the developed solution and verifies that it meets the requirements, the student can deliver the task.\n-  When a student delivers a task, the SMARTSIM itself tests the student\u00b4s solution in real time and allows he\/she to go to the next step.",
        "Url": "edquip.co\/en\/de-lorenzo\/robotics-course",
        "Page title": "Robotics Course for skills development: De Lorenzo - EDQUIP",
        "Page description": "Fully Virtual Robotics Course. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "60 months",
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        "Support types": [
            "Email"
        ],
        "Software requirements": [
            "Desktop - windows"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/ROBOTICS COURSE\/ROBOTICS COURSE_DL SMART-ROB.png",
        "Video link": "",
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-493754",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL VPC-LAB4.0",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Smart Simulator for Process Control Training",
        "Description": "The DL VPC-LAB 4.0 is a software that has been developed to teach process control techniques in a unique and effective way. With this software, students can improve their individual experience on studying process control in practice.\n\nStudents will be able to carry out several experiments dealing with the following topics:\n\n- control systems, open and closed loop system,\n- sensors, transducers and actuators,\n- input and power signal conditioning,\n- level, flow, pressure, temperature,\n- Error, offset, calibration, response time, ON-OFF control, hysteresis, PID controller, Proportional control (P), Proportional-Integral control (PI), Proportional-Integral-Derivative control (PID).\n\nThis software will be able to reproduce the features and behaviours of the DE LORENZO Process Control Trainer \u2013 DL 2314. This system can work with or without a PLC. Students can easily implement the controllers using the virtual control modules or connecting the plant to a real PLC or to a SoftPLC, such as Siemens S7-1200\/1500, PLCSIM and Codesys. With this type of software developed by DE LORENZO, students can learn in their own rhythm and teachers have more time to support the class, manage and improve the process because - unlike any other simple simulator - it grants the following benefits:",
        "Specs": "-  EFFECTIVE GUIDE FOR STUDENT\n\nPossibility to access learning topics, with theory, instructions and experiment proposals. The software includes a virtual version of the DL 2314 Student logs in, so his progress can be tracked, choose one of the learning topics, accesses theory, experiments proposals and instructions.\n\n-  AUTOMATIC VALIDATION OF STUDENTS\u2019 TASKS\n\nThe software automatically verifies if the student completed successfully each task in order to allow him\/her to go ahead with the next one; Student works on the assembly of the signal and control modules, then makes the electrical connections and with all that correctly done, runs the experiment.\n\nIT CONNECTS PROFESSOR, STUDENT AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives students activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa. That means that the professors can monitor the students and based on the report that De Lorenzo\u00b4s cloud provides, the professors can give the support that a specific student might be needing.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARATELY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nPROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN PROJECTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEMSELVES\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEY MOVE ON, LIKE IN GAME\n-  PROFESSORS CAN MONITOR STUDENTS AND VERIFY WHICH POINT THEY NEED HELP(Option available with the Dashboard)\n\nThis software reproduces a process plant and signal, power, control and PLC modules.\n\n-  PROCESS PLANT\n-  SIGNAL, POWER AND CONTROL AND PLC MODULES\n-  PROCESS PLANT DESCRIPTION\n\nThe process control laboratory is composed of two main sections: the process tank and the sump tank.\n\nThe PROCESS PLANT is designed to teach the process control principles. The SUMP TANK includes pipelines to process water supply and to drain water out from the process plant. The PROCESS TANK (pressurized vessel) includes the following components:\n\n-  A level sensor and a metric scale suitable for measuringthe water level (cm or mm).\n-  A float switch suitable for detecting the level of waterwithin the pressurized tank.\n-  A heating element.\n-  A temperature sensor (PT100) and a thermometer suitablefor measuring the temperature inside the process tank (\u00b0C or \u00b0F).\n-  A pressure sensor and a pressure gauge suitable for measuring the pressure (bar or psi).\n-  Four types of valves (three manually operated and a controlled one).\n\nThe SUMP TANK (water tank) and the pipelines include the following components:\n\n-  A delivery valve (the main water supply valve).\n-  A flow meter turbine (volumetric measuring turbine).\n-  A motor pump with thermal protection.\n-  A visual flowmeter (indicator for flow rate).\n-  A manually operated valve to reduce the water flow.\n-  A motor valve suitable for controlling the water flow.\n\nINSTRUMENTATION AND CONTROL SECTION\n\nThe CONTROL MODULES include interface signal conditioners for sensors, power drivers for actuators and basic control logic that behaves as eithera regulating device or a state-oriented device:\n\nINPUT\n\n-  Level transducer\n-  Flow transducer\n-  Temperature transducer\n-  Pressure transducer\n\nCONTROLLERS\n\n-  ON-OFF\n-  ON-OFF with hysteresis\n-  PID (P; P-I; P-D; P-I-D)\n\nOUTPUT\n\n-  Linear driver for PUMP\n-  Driver for MOTOR VALVE\n-  PWM driver for HEATER\n-  ON-OFF driver for SOL VALVE\n\nCHARACTERISTICS OF THE SIGNAL, POWER AND CONTROL MODULES\n\nThe process plant has an associated panel that shows the entire process diagram using standard symbols. This is very useful for students to understand the basic concepts of process control. The software is supplied with a detailed on line educational guide. Following the experiments, students will be guided step by step to learn the following activities:\n\n-  Calibration of a sensor,\n-  Obtaining the characteristic of a static process and timeconstant,\n-  Control of a process by ON-OFF, Proportional, Proportional-Integral and Proportional-Integral-Derivative.\n\nThrough this software, teachers will be able to easily guide students in studying the principles of process control. The main objective of a basic course in process control is to make students able to solve practical and real control problems. The didactic advantage of this trainer is the possibility to investigate the behavior of each process (level, flow, temperature or pressure) or any possible relevant combination. The software guarantees a complete experience in the field of process control. Students can approach this topic starting from the basic concepts of control systems up to designing and tuning controllers for the main four control variables in industries (level, temperature, pressure and flow). Each experiment is presented to students with its goals and the theoretical concepts necessary to understand the next steps to be taken. After that, students run the experiment in three steps, as shown in the image below. DL VPC-LAB4.0 represents closely the main features of a process plant, so that it will be like having a real process control laboratory for each student.\n\n-  STEP 1: ASSEMBLY\n\nThe student chooses the signal, control and power modules.\n\n-  STEP 2: WIRING\n\nThe student works on the electrical connections.\n\n-  STEP 3: TUNING, TESTING AND MEASUREMENTS\n\nThe student works on signal adjustments, controller tuning and response analysis.\n\nThe process plant represented by the software can be controlled using:\n\n-  The built-in control modules, such as On-OFF, Proportionaland PID.\n-  An external PLC such as S7-1200\/1500.\n-  A SoftPLC, such as PLCSIM and Codesys Control.\n\nWhen working with a PLC or SoftPLC, students still need to work on signal and power conditioning in the virtual environment, but instead of using control modules, students will connect the input and output normalized signals to a PLC MODULE and the PLC MODULE will handle the interface with the respective external PLC or SoftPLC.\n\nLIST OF EXPERIMENTS\n\n-  Level sensor settings\n-  Characteristics of the pump\n-  Characteristics of the static process\n-  Time constant of the process\n-  ON - OFF control of the level\n-  ON - OFF control of the level with \u201cSol Valve\u201d\n-  ON - OFF control of the level with \u201cFloat Switch\u201d\n-  Closed loop control of the LEVEL\n\n-  Closed loop Proportional control of the level\n-  Closed loop Proportional-Integral control of the level\n-  Closed loop Proportional-Derivative control of the level\n-  Closed loop Proportional-Integral-Derivative control ofthe level\n\n-  Flow sensor\n-  Closed loop control of the FLOW\n\n-  Closed loop Proportional control of the flow\n-  Closed loop Proportional-Integral control of the flow\n-  Closed loop Proportional-Derivative control of the flow\n-  Closed loop Proportional-Integral-Derivative control ofthe flow\n\n-  Temperature sensor\n-  Measurement of the characteristics of the heating\n-  ON - OFF control of the TEMPERATURE\n-  Closed loop control of the TEMPERATURE\n\n-  Closed loop Proportional control of the temperature\n-  Closed loop Proportional-Integral control of thetemperature\n-  Closed loop Proportional-Derivative control of thetemperature\n-  Closed loop Proportional-Integral-Derivative controlof the temperature\n\n-  Pressure sensor\n-  Pressure sensor as a level sensor\n-  ON - OFF control of the level through the pressure sensor\n\nDESCRIPTION OF PERFORMABLE EXPERIMENTS\n\nThis software grants the possibility to perform 27 practical experiments with progressive difficulties levels. Here follows a short description of some of the performable experiments:\n\nLevel sensor settings\n\nFrom the beginning of the experiments, students will learn about different types of sensors. Students can learn how to calibrate and use a capacitive fluid level sensor in order to measure the water level and to determine the sensor characteristics. The level transducer (L\/U) is used to calibrate the level sensor for a correspondence of 1 V to 1 cm.\n\nCharacteristics of the pump\n\nAfter running this experiment, students will understand the working principle of a diaphragm pump. They will learn how to compute the flow and how to measure it using the flowmeter in order to draw the characteristic curve of the flowmeter in order to draw the characteristic curve of the flow\n\nCharacteristics of the static process\n\nThe main objective of this experiment is to understand how the flow will influence the rising time of the fluid level rate in a level control process. The flow transducer (f\/U) is used to calibrate the flow sensor for a correspondence of 1 V output to 0.5 liters per minute.\n\nTime constant of the process\n\nWhat is the time constant of a process? How do I calculate it? Students can answer these questions by performing this experiment. The time constant estimation of the water flow in the tank is made as a ratio between the input flow and the draining flow rate. This process is an example of parameter identification.\n\nON - OFF control of the level\n\nWhat are the effects of the hysteresis on the level control? Students will find out while learning how to measure the dynamic response of the process. Students will use the capacitive level sensor to measure the water level in the process tank. This knowledge is very important because, in practical situations, one of the most widely used types of control is the ON\/OFF control.\n\nON - OFF control of the level with the \u201cSol Valve\u201d\n\nIn this experiment, students will use the knowledge acquired so far regarding the hysteresis on level control. They will measure the up and down times of the level between start and stop of the electro-valve with a hysteresis of 0%, 15% and 30%.\n\nON - OFF control of the level with the \u201cFloat Switch\u201d\n\nStudents will perform a practical study to maintain constant the level in the tank using an ON-OFF level sensor and the electro valve sol valve. They will learn how to measure the water level variation in time. In order to determine the hysteresis curve for on - off control of the level, students will use the engraved mobile scale or the level sensor and float switch.\n\nClosed loop control of the LEVEL\n\n-  Closed loop Proportional control of the level\n-  Closed loop Proportional-Integral control of the level\n-  Closed loop Proportional-Derivative control of the level\n-  Closed loop Proportional-Integral-Derivative control of the level\n\nIn order to study the closed loop control, students need to check first the effects of the gain on the dynamic response of the system. It is very interesting to observe the output characteristic of the PID controller for different Kp, Kd and Ki constant values. Ziegler-Nichols tuning method is used in tuning of PID controller. The student learn how to determine the PID parameters in order to obtain the controlled level.\n\nClosed loop control of the FLOW\n\n-  Flow sensor\n-  Closed loop Proportional control of the flow\n-  Closed loop Proportional-Integral control of the flow\n-  Closed loop Proportional-Derivative control of the flow\n-  Closed loop Proportional-Integral-Derivative control of flow\n\nDuring this experiment, students learn how to measure the water flow rate by using the engraved scale of the direct flow meter or the turbine flow sensor. After analyzing the results in this experiment, students will be able to implement the tuning of the PID control of the system with optimum stability.\n\nTemperature sensor\n\nStudents can learn how to measure the temperature variation in time (using the engraved thermometer scale or the temperature sensor), in order to determine and compute the characteristic curve of the PT100 sensor (RDT). The temperature transducer (u\/U) is used to calibrate the temperature sensor for a correspondence of 1 V to 10 degrees Celsius.\n\nMeasurement of the characteristics of the heating\n\nIn this experiment (similar to the previous one), students will understand the working principle of a resistive temperature sensor in order to measure the temperature in the industrial process tank. Using a classical oscilloscope, students can analyze the wave form of the PWM for the heating element.\n\nClosed loop control of the TEMPERATURE\n\n-  ON - OFF control of the temperature\n-  Closed loop Proportional control of the temperature\n-  Closed loop Proportional-Integral control of thetemperature\n-  Closed loop Proportional-Derivative control of thetemperature\n-  Closed loop Proportional-Integral-Derivative control ofthe temperature\n\nStudents will learn that a temperature controller is an instrument used to control temperatures. In the temperature controller system, the controller accepts a temperature sensor as an input (such as an RTD or thermocouple) and compares the actual temperature with the required control temperature or set point. The output is then provided to a control element. After analyzing the results in this experiment, students will be able to tune properly the PID control of the system.\n\nPressure sensor as a level sensor\n\nThe main objective of this experiment is to measure the pressure, using the electronic pressure sensor or pressure gauge scale, in order to determine the characteristic curve of the level vs. pressure response.\n\nPressure sensor\n\nStudents will learn how to measure the pressure, using the electronic pressure sensor or pressure gauge scale, in order to determine and compute the characteristic curve of the pressure sensor. The pressure transducer (P\/U) is used to calibrate the pressure sensor for a correspondence of 1 V to 0.1 bar. The characteristic of a pressure transducer will be determined.\n\nON - OFF control of the level through the pressure sensor\n\nIn this experiment, students will perform the operation of a closed loop ON-OFF control system using the pressure sensor as a level sensor. Thanks to the knowledge acquired so far about the effects of the hysteresis on the control, students will be able to control the pressure.",
        "Url": "edquip.co\/en\/de-lorenzo\/smart-simulator-for-process-control-training",
        "Page title": "Smart Simulator for Process Control Training",
        "Page description": "Smart Simulator for Process Control Training, fully virtual. Request quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Simulation & Digital Platform",
        "Education level": [
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            "Engineering Undergraduate"
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        "Labels": null,
        "Warranty": "60 months",
        "Voltage availability": null,
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        "HS Code": null,
        "Equipment dimensions": null,
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        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": [
            "Email"
        ],
        "Software requirements": [
            "Desktop - windows"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/SMART SIMULATOR FOR PROCESS CONTROL TRAINING\/SMART SIMULATOR FOR PROCESS CONTROL TRAINING_DL VPC-LAB4.0.png",
        "Video link": null,
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-601544",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SMART-MV",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Machine Vision Course",
        "Description": "The DL SMART-MV is a software that has been developed to teach industrial machine vision in a unique and effective way. With this software, students can improve their individual experience on studying artificial vision in practice.\n\nProfessors can explore this trainer to provide experiments to students with the following topics:\n\n- Computational vision: cameras, illumination, colors;\n- Methods of filtering and imaging;\n- General concepts and standards;\n- Edge detectors;\n- Tools to detect position, recognize patterns, count, measure and read codes.\n\nThis software works integrated to Cognex Insight software (Not included).",
        "Specs": "-  REAL TIME METROLOGICAL INSPECTION\n\nGoal: The student is required to implement a measurement system to inspect furniture parts in real time, in a production line. Automation contents: Cognex In-Sight software, system setup, positioning, calibration, measurement tools, use of the spreadsheet, inspection validation.\n\n-  PATTERN RECOGNITION AND COUNTING\n\nGoal: The student is required to implement a machine vision system using Cognex In-Sight to inspect if all assembly components are being provided in the correct quantities with the furniture. New automation contents: pattern recognition, counting.\n\n-  READING BAR CODES AND OCR\n\nGoal: The student is required to implement a machine vision system to read the tag on the furniture box in order to ship it to the right customer. New automation contents: OCR, bar code, data-matrix reading tools.\n\nWith the industrial 3D environments and also the built-in projects it\u00b4s possible to develop solutions in a software widely used in industries and work with very useful features.\n\n-  MEASURING\n-  COUNTING\n-  DATA MATRIX READING\n-  PATTERN RECOGNITION\n-  OPTICAL CHARACTER RECOGNITION\n\nIT CONNECTS PROFESSOR, STUDENT AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives students activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa. The platform includes a query and answer system that enables professors to support the students counting on a team of monitors. That means better support with less effort of the professors. The students can see questions asked by other colleagues too so that way if more than one student have the same doubt the professors answer will attend them all.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARETLY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nPROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nEFFORT\/TASK DEDICATED TIME\n\nIf the professor selects a student, he\/she may verify how much time the student took to develop and deliver each task of the course.\n\nPROGRESS VS TIME TAKEN\n\nIt is also possible to verify the distribution of the dedicated time with relation to the number of tasks done by each student at any period of time. That helps to identify who is doing well, who may need help, who is doing nothing and who is trying to cheat.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN PROJECTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEMSELVES\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEY MOVE ON, LIKE IN GAME\n-  PROFESSORS CAN MONITOR STUDENTS, AND VERIFY WHICH POINT THEY NEED HELP\n\nBUILT-IN PROJECTS, TASKS, INSTRUCTIONS, CONTENTS, AND AUTOMATIC VALIDATION\n\n-  Each project has well defined goals and requirements.\n-  They are structured in tasks, and each task has specific requirements and provides instructions,contents and guidances to the students.\n-  When a student tests the developed solution and verifies that it meets the requirements, thestudent can deliver the task.\n-  When a student delivers a task, the SMARTSIM itself tests the student\u00b4s solution in real time and allows him\/her to go to the next step.",
        "Url": "edquip.co\/en\/de-lorenzo\/machine-vision-course",
        "Page title": "Machine Vision Course: De Lorenzo - EDQUIP",
        "Page description": "Fully digital Machine Vision Course. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "60 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": false,
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        "HS Code": null,
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            "Email"
        ],
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            "Desktop - windows"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/MACHINE VISION COURSE\/MACHINE VISION COURSE_DL SMART-MV.png",
        "Video link": null,
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-215720",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SMART-CIVIL",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Civil Electrical Installation Virtual Course",
        "Description": "The DL SMART-CIVIL is a software that has been developed to teach multiple applications such as lighting, signalling, house\/ building phoning, hotel\/hospital services, firefight protection and anti-intrusion systems, in a unique and effective way.\n\nWith this software, students can improve their individual experience on studying civil installations in practice.\n\nStudents will be able to develop several projects dealing with the following topics:\n\n- Basic and advanced lighting systems;\n- Signalling systems;\n- House \/ Buildings phone systems;\n- Hotel \/ hospitals services systems;\n- Fire and anti-intrusion protection installations;\n\nThis software will be able to reproduce the features and behaviours of the DE LORENZO Civil installations trainer \u2013 DL 2101T. With this type of software developed by DE LORENZO, students can learn in their own rhythm and teachers have more time to support the class, manage and improve the process because \u2013 unlike any other simple simulator \u2013 it grants the following benefits:",
        "Specs": "-  EFFECTIVE GUIDE FOR STUDENT\n\nPossibility to access learning topics, with theory, instructions and experiment proposals. The software includes a virtual version of the DL 2101T system; Student logs in, so his progress can be tracked, chooses one of the learning topics, accesses theory, experiments proposals and instructions.\n\n-  AUTOMATIC VALIDATION OF STUDENTS\u2019 TASKS\n\nThe software automatically verifies if the student completed successfully each task in order to allow him\/her to go ahead with the next one; Student works on the assembly of the electrical machine, then makes the electrical connections and with all that correctly done, runs the experiment and answers questions about it\n\nIT CONNECTS PROFESSOR, STUDENT AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives students activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa.That means that the professors can monitor the students and based on the report that De Lorenzo\u00b4s cloud provides, the professors can give the support that a specific student might be needing.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARATELY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nPROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN EXPERIMENTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEMSELVES\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEY MOVE ON, LIKE IN GAME\n-  PROFESSORS CAN MONITOR STUDENTS AND VERIFY WHICH POINT THEY NEED HELP(Option available with the Dashboard)\n\nHOW DOES IT HELP THE PROFESSOR?\n\nWith this software, the teacher spends less time explaining topics, verifying students\u2019 activities and helping students to identify mistakes that do not allow the successful completion of the experiment. That means that the professor has more time to manage the class, help students who need more attention and make improvements. The two following points grant such benefits:\n\n-  The software automatically verifies the experiments carried out by the studentsand it gives relevant feedbacks:\n\nLike in a game that has different phases with challenges and missions, the DL CIVIL INSTALLATIONS software includes practical experiments that need to be successfully completed to let the student access the next one. The teacher does not need to verify continuously if the student carried out the experiment. Moreover, many questions that students would make about \u201cwhat could be wrong\u201d are automatically \u201canswered\u201d by the software when the student does not perform the experiment successfully. The image below summarizes this process.\n\n-  The software tracks the students\u2019 progress and it allows exporting reports:\n\nAt any time, the professor may verify how many and, specifically, which experiments the student have completed. That report can be used to track students\u2019 activities and it can be considered as an evaluation tool. This report can be generated and displayed directly in the system or it can be exportedto a spreadsheet (see image below).\n\nDIDACTIC EXPERIENCE AND APPLICATION\n\nThe software guarantees a complete experience in the field of several civil installations. Students can approach this topic starting from the basic concepts, such as lighting installations, up to advanced experiments such as firefight protection system.\n\nThrough this system, it is possible to assemble a relevant number of civil installations to carry out the following didactic experiences:\n\n-  Basic lighting installations;\n-  Advanced lighting installations;\n-  Signalling installations\n-  House phone signalling systems;\n-  Hotels and Hospitals systems;\n-  Firefight protection systems;\n-  Anti-intrusion installations;\n-  Video house phoning systems.\n\nSET OF COMPONENTS\n\nThe system is based on a set of components that allow the assembly of installations. The set consists of the following componentes:\n\n-  Power supplies\n-  Lamps\n-  Relays\n-  Switches\n-  Sensors\n-  Push buttons\n-  Control units\n-  Signalling devices\n-  Phones\n\nThe system also includes transformer, socket, fan, dummy to simulate movements and activate sensors, etc., in order to perform all the experiments\n\nLEARNING TOPICS\n\nThis software covers 8 topics and proposes 44 experiments for the students. The experiments are listed below, grouped by learning topics.\n\nBASIC LIGHTING INSTALLATIONS\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Single point controlled lighting plant\n-  Single point controlled lighting plant with socket\n-  Switch controlled two lamps lighting plant\n-  Two point controlled lighting plant\n-  Three point controlled lighting plant\n-  Four point controlled lighting plant\n-  Circuit breaking relay controlled lighting plant\n-  Switching relay controlled lighting plant\n-  Light installation controlled by time relay\n-  Hot cathod fluorescent lamp plant\n\nSmart simulator environment with 10 experiments regarding multiple point control, control with relays, fluorescent lamp, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in lighting installation for civil buildings. Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.\n\nADVANCED LIGHTING INSTALLATIONS\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Switch controlled two lamps low energy lighting plant\n-  Emergency lighting plant\n-  Incandescent lamps brightness control with a dimmer from a single point\n-  Halogen lamps brightness control with a dimmer from a single point\n-  Incandescent lamps brightness control with a dimmer from multiple points\n-  Halogen lamps brightness control with a dimmer from multiple points\n-  Light system of incandescent lamps controlled by a twilight switch\n-  Light system of halogen lamps controlled by a twilight switch\n-  Light system of incandescent lamps controlled by an automatic infrared switch fitted with adjustable twilight\n-  Light system of halogen lamps controlled by an automatic infrared switch fitted with adjustable twilight\n-  Light system with daily electromechanical time switch\n\nSmart simulator environment with 12 experiments regarding emergency lighting, brightness control with dimmers, twilight switch, infrared switch, daily switch, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in lighting installation for civil buildings. Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.\n\nSIGNALLING INSTALLATIONS\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Signalling plant\n-  Single control signaling plant\n-  Reciprocal control signaling plant\n-  Light signalling plant\n-  Ringing plant with a door and a main entrance control\n-  Electric lock ringing plant\n\nSmart simulator environment with 6 experiments regarding signalling systems, like condominium concierge, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in signalling installations for civil buildings. Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.\n\nHOUSE-PHONE SYSTEMS\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Two reciprocal call house \u2013 Phone plant at short distance\n-  Two reciprocal call house \u2013 Phone plant at long distance\n-  Coupled two house \u2013 Phone plant\n-  Main house \u2013 Phone and two shunted house-pones plant\n-  Communicating house \u2013 Phone plant\n-  Connection between two derivatives and 1 external unit\n\nSmart simulator environment with 5 experiments regarding house and building phone systems like a porter \u2013 tenants communication, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in phone systems for civil buildings. Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.\n\nHOTEL \/ HOSPITAL SIGNALLING SYSTEMS\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Installation for audience request\n-  Installation for hotel\n-  Installation for nurse calling\n\nSmart simulator environment with 3 experiments regarding hotel and hospitals services, like hotel services request and nurse assistance call, each one including brief theoretical mentions and practical diagrams of the main circuits that are used in hotel and hospital systems for civil buildings. Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. Afterthe simulation, the student will have to answer an to assessment form related to the experiment in order to unblock the next one.\n\nFIREFIGHT PROTECTION SYSTEM\n\nWith this kit, it is possible to perform the following experiment:\n\n-  Implementing the firefight protection system\n\nSmart simulator environment with 1 general experiment regarding firefight protection systems with 3 sensors for gas, heat and smoke and a central unit to activate \/ deactivate detectors as well as the trigger time. Including brief theoretical mentions and practical diagrams of the main circuits that are used in firefight systems for civil buildings. Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.\n\nANTI-INTRUSION INSTALLATIONS\n\nWith this kit, it is possible to perform the following experiment:\n\n-  Implementing the anti-intrusion protection system\n\nSmart simulator environment with 1 general experiment regarding anti-intrusion protection systems with 3 sensors of infrared, microwave and perimeter and a central unit to activate \/ deactivate detectors as well as the trigger time. Including brief theoretical mentions and practical diagrams of the main circuits that are used in anti-intrusion systems for civil buildings. Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one\n\nVIDEO HOUSE PHONING SYSTEMS\n\nWith this kit, it is possible to perform the following experiments:\n\n-  Connecting the ring\n-  Connecting the alarm and the light plate\n-  House phone installation\n-  Video outdoor station\n-  Video house phone installation\n\nSmart simulator environment with 5 experiments regarding installations of a video house \/ buildings phone systems, with audio-visual connection between an external loud speaking unit and an internal one. Including brief theoretical mentions and practical diagrams of the main circuits that are used in video house systems forcivil buildings. Each one is divided in three steps: Assembly of the modules that will be used, wiring connections and simulation. After the simulation, the student will have to answer to an assessment form related to the experiment in order to unblock the next one.",
        "Url": "edquip.co\/en\/de-lorenzo\/civil-electrical-installations-virtual-course",
        "Page title": "Civil Electrical Installation Virtual Course: De Lorenzo - EDQUIP",
        "Page description": "Civil Electrical Installation Virtual Course. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Simulation & Digital Platform",
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        "Warranty": "12 months",
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        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/CIVIL ELECTRICAL INSTALLATIONS VIRTUAL COURSE\/CIVIL_ELECTRICAL_INSTALLATIONS_VIRTUAL_COURSE_DL SMART-CIVIL.png",
        "Video link": "",
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-897416",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SMART-SCADA",
        "Content languages": "fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "SCADA Systems Development Course",
        "Description": "The DL SMART-SCADA is a software that has been developed to teach how to develop supervisory control systems in a unique and effective way. With this software, students can improve their individual experience on studying SCADA systems in practice.\n\nProfessors can explore this trainer to provide experiments to students with the following topics:\n\n-  Main concepts of SCADA Systems;\n-  Hardware and software components;\n-  Interaction with controllers, drivers and OPC Servers;\n-  Main elemens and resources: Tags, screens, user interface components, real-time databases, trends, historical data record, animations and user permissions;\n-  Development of projects in 3 different environments (not included): Codesys WebVisu, Elipse E3 and WinCC.",
        "Specs": "-  BATCHING SCADA SYSTEM WITH CODESYS VISU\n\nGoal: The student is required to develop a SCADAsystem for the ink coloring process using the SCADAsystem Codesys VISU. The reason is that the factoryplans to build a control room for the operation of allits processes and machines.\n\nAutomation contents: Codesys Visualization and Web Visu development tool, tags, screens, user interface objects, animations, navigation, charts\/trends, alarm summary, variables.\n\nRequires Codesys software (Not included)\n\n-  BATCHING SCADA SYSTEM WITH ELIPSE E3\n\nGoal: The student is required to develop a SCADAsystem for the ink coloring process using the SCADAsystem Elipse E3. The reason is that the factory plansto build a control room for the operation of all itsprocesses and machines.\n\nNew automation contents: OPC Server, Elipse E3,features, screens, tags, navigation, interface objects, charts\/trends, good practices for supervisory systems.\n\nRequires Codesys and Elipse E3 software (Not included)\n\n-  IMPROVING THE SOLUTION\n\nGoal: The student is required to implement newfeatures for the ink coloring process using theSCADA system Elipse E3, in order to enhanceoperation and security of the process.\n\nNew automation contents: U sers permissions, recipes and scripting.\n\nRequires Codesys and Elipse E3 software (Not included)\n\n-  BATCHING SCADA SYSTEM WITH WINCC\n\nGoal: The student is required to develop a SCADA system for the ink coloring process using the SCADA system WinCC.\n\nAutomation contents: WinCC basics, features, screens, tags, navigation, interface objects, charts\/trends, users permissions, recipes, scripting and good practices.\n\nRequires TIA PORTAL STEP7 professional and WINCC advanced software (Not included)\n\nWith the industrial 3D environments and also the built-in projects it\u00b4s possible to develop solutions in different softwares widely used in industries, work with both native and external SCADA software, besides planning and comissioning a project.\n\n-  TAGGING VARIABLES\n-  OPC COMMUNICATION\n-  ALARMS\n-  SYNOPTICS\n-  TRENDS\n\nIT CONNECTS PROFESSOR, STUDENT AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives students activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa. The platform includes a query and answer system that enables professors to support the students counting on a team of monitors. That means better support with less effort of the professors. The students can see questions asked by other colleagues too so that way if more than one student have the same doubt the professors answer will attend them all.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARETLY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nPROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nEFFORT\/TASK DEDICATED TIME\n\nIf the professor selects a student, he\/she may verify how much time the student took to develop and deliver each task of the course.\n\nPROGRESS VS TIME TAKEN\n\nIt is also possible to verify the distribution of the dedicated time with relation to the number of tasks done by each student at any period of time. That helps to identify who is doing well, who may need help, who is doing nothing and who is trying to cheat.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN PROJECTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEMSE\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEY MOVE ON, LIKE IN GAME\n-  PROFESSORS CAN MONITOR STUDENTS, AND VERIFY WHICH POINT THEY NEED HELPOption available with Dashboard\n\nBUILT-IN PROJECTS, TASKS, INSTRUCTIONS, CONTENTS, AND AUTOMATIC VALIDATION\n\n-  Each project has well defined goals and requirements.\n-  They are structured in tasks, and each task has specific requirements and provides instructions,contentes and guidances to the students.\n-  When a student tests the developed solution and verifies that it meets the requirements, thestudent can deliver the task.\n-  When a student delivers a task, the SMARTSIM itself tests the student\u00b4s solution in real time and allows him\/her to go to the next step.",
        "Url": "edquip.co\/en\/de-lorenzo\/scada-systems-development-course",
        "Page title": "SCADA Systems Development Course: De Lorenzo - EDQUIP",
        "Page description": "Fully virtual SCADA Systems Development Course. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "60 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": false,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": [
            "Email"
        ],
        "Software requirements": [
            "Desktop - windows"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/SCADA SYSTEMS DEVELOPMENT COURSE\/SCADA SYSTEMS DEVELOPMENT COURSE_DL SMART-SCADA.png",
        "Video link": null,
        "Main category": "Manufacturing Training Systems"
    },
    {
        "Edquip ID": "PL-315872",
        "Product Type": "software",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SMART\u2013AI",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Artificial Intelligence Course",
        "Description": "The DL SMART-AI is a software that has been developed to teach artificial intelligence with Python in a unique and effective way. With this software, students can improve their individual experience on studying artificial intelligence in practice.\n\nProfessors can explore this trainer to provide experiments to students with the following topics:\n\n- Optimization: Introduction, definition, time and cost problems;\n- Classification: Neural networks, signal generation, TensorFlow, predictions and failure predicts;\n- Reinforcement Learning: Introduction and comparative to modern control;\n- Decision trees: Application on regression.\n\nThis software works integrated to a Python IDE (not included).",
        "Specs": "-  OPTIMIZATION\n\nGoal: Use genetic algorithm to resolve optimization problems, like the time problem or the cost one.\n\nAI concepts: Introduction, genetic algorithm.\n\n-  CLASSIFICATION\n\nGoal: Use neural networks to resolve classification problems.\n\nAI concepts: Neural networks.\n\n-  REINFORCEMENT LEARNING\n\nGoal: Use reinforcement learning to train a robot and a lead screw to reach a specific position.\n\nAI concepts: Reinforcement learning.\n\n-  REGRESSION\n\nGoal: Compare performances of decision tree and neural network algorithms in system modeling and predictions.\n\nAI concepts: Decision trees.\n\nWith the industrial 3D environments and also the built-in projects it\u00b4s possible to develop solutions that evolve optimization, genetic algorithms, regression, neural networks and a lot more.\n\n-  PYTHON INSTRUCTIONS\n-  DECISION TREE\n-  PREDICTIONS\n-  VIRTUAL TRAINING ROBOT\n-  TRAINING\n\nIT CONNECTS PROFESSOR, STUDENT AND SCHOOL\n\nDe Lorenzo\u00b4s cloud server receives students activities and provides reports and analytics to professors and institutions. Besides, a student can start working at school and continue at home or vice-versa. The platform includes a query and answer system that enables professors to support the students counting on a team of monitors. That means better support with less effort of the professors. The students can see questions asked by other colleagues too so that way if more than one student have the same doubt the professors answer will attend them all.\n\nCOMPATIBLE WITH THE DL SMART-DASHBOARD (SOLD SEPARETLY)\n\nPROFESSORS CAN FOLLOW STUDENTS PROGRESS\n\nThe professor can do and access everything the student can. Besides, he\/she can also access the dashboard\u2019s portal. It includes interesting reports and analytics that help the professor to monitor the group in real time, as well as to identify students who are doing very well, as well as those who need help, who are not working at all and who seem to be \u201ccheating\u201d.\n\nTasks report\n\nThis is an important tool since it provides evidence of the activities a student worked on. That means the school has evidence of the practical activities the distance learner has done with detailed information about it.\n\nPROFESSOR CAN SEE WHICH STUDENTS ARE ON SCHEDULE\n\nWith this interface, the professor may choose which groups he\/she wants to monitor, to verify who is on schedule, who is pending and so on. It is possible to define the expected progress percentage in relation to the tasks available in the course.\n\nRHYTHM\n\nThis other dashboard shows the number of activities the students did daily and weekly. The professor may decide to verify it regarding a whole group\/class or a specific student.\n\nEFFORT\/TASK DEDICATED TIME\n\nIf the professor selects a student, he\/she may verify how much time the student took to develop and deliver each task of the course.\n\nPROGRESS VS TIME TAKEN\n\nIt is also possible to verify the distribution of the dedicated time with relation to the number of tasks done by each student at any period of time. That helps to identify who is doing well, who may need help, who is doing nothing and who is trying to cheat.\n\nTRIALS PER TASK\n\nThis chart helps the teacher to understand which task may be the most difficult and which one may be the easiest in order to adjust the deadlines.\n\n-  IT\u2019S A 3D SIMULATOR\n-  IT HAS BUILT-IN PROJECTS\n-  THE PROJECTS INCLUDE GUIDANCE\n-  + CONTENTS AND SUPPORT MATERIALS, SO THEY CAN LEARN BY THEMSELVES\n-  IT AUTOMATICALLY CHECKS STUDENT ACTIVITIES TO LET THEY MOVE ON, LIKE IN GAME\n-  PROFESSORS CAN MONITOR STUDENTS,AND VERIFY WHICH POINT THEY NEED HELP(Option available with Dashboard)\n\nBUILT-IN PROJECTS, TASKS, INSTRUCTIONS, CONTENTS, AND AUTOMATIC VALIDATION\n\n-  Each project has well defined goals and requirements.\n-  They are structured in tasks, and each task has specific requirements and provides instructions,contents and guidance to the students.\n-  When a student tests the developed solution and verifies that it meets the requirements, thestudent can deliver the task.\n-  When a student delivers a task, the SMARTSIM itself tests the student\u00b4s solution in real time and allows him\/her to go to the next step.",
        "Url": "edquip.co\/en\/de-lorenzo\/artificial-intelligence-course",
        "Page title": "Artificial Intelligence Course: De Lorenzo - EDQUIP",
        "Page description": "An edtech solution developed to teach artificial intelligence with Python in a unique and effective way. Request your quotation today, free price estimations.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
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        "Packed weight unit": null,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/ARTIFICIAL INTELLIGENCE COURSE\/ARTIFICIAL_INTELLIGENCE_COURSE_DL SMART-AI.png",
        "Video link": null,
        "Main category": "Manufacturing Training Systems"
    },
    {
        "Edquip ID": "PL-890686",
        "Product Type": "hardware",
        "Producer": "Insur",
        "Producer product number": "PCP 11 BM00",
        "Content languages": "en, es, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Video"
        ],
        "Name": "Process Control Plant",
        "Description": "This equipment compactly replicates the operation of an industrial process control plant. It is composed of a support structure where the different components will be located.\n\nThe main fluid will be composed of a liquid with colorant, forming a closed circuit. The fluid will circulate through a circuit of pipes driven by pumps that will house the liquid in mini-tanks located at different heights.\n\nUsing the PLC, an experimentation sequence based on a certain production process can be programmed. The equipment enables the automatic and integrated control of different variables such as level, flow, temperature and pressure.\n\nThe system allows training, making and analyzing different configurations in a safe work environment. It enables theoretical and practical learning of the fundamental concepts about the programming and operation process of a programmable logic controller (PLC), through the software with interface, TIA Portal, which enables dynamic communication with a PC.\n\nIt allows the simulation of inputs and the connection of power to external devices. They enable the assembly of multiple circuits with different protection, actuation and automation elements for various applications.",
        "Specs": "Structure:\n\n- Composed of structural profiles of anodized aluminum\n- SAE 1010 modules with baked epoxy paint, white color\n- Laser screen printing\n\nMobile structure measurements:\n\n- Height 1.90 m.\n- Length 1.60 m.\n- Width 0.75 m.\n\nElectrical:\n\n- General power supply 220VAC 50Hz\n- Power points 24VDC and variable voltage 0\u202610VDC\n- Control\/command system under 24VDC voltage\n- Safety protections by Differential and Thermomagnetic Switch\n- Protection fuses -S7-1200 digital input voltage: +24VDC -S7-1200 digital output voltage: +24VDC to Transistor\n- Analog inputs: 4 range 0\u202610VDC \/ 2 range 4\u202620mA\n\nProgramming Environment:\n\n- Tia Portal (Totally Integrated Automation Portal) software platform\n- KOP (ladder diagram), FUP (function diagram) and SCL (structured control language) programming language\n- Communication port Ethernet RJ45 interface\n- PROFINET industrial communication protocol\n- Integrated Web server\n\nEquipment Contents:\n\n- 2 Acrylic Mini Tanks Liquid containers\n- 1 Lower reserve tank\n- 2 VDC pumps\n- Flow sensor\n- Solenoid valves \/ solenoid valves\n- Temperature transmitter\n- Flow meter\n- Float level sensor\n- Capacitive level sensor\n- Continuous measurement level sensor\n- Pressure transmitter\n- Pressure switch as a protection device\n- VDC mixer motor\n- Thermometer\n- Manometer\n- PWM speed control system\n- Heater system\n- Piping systems and accessories\n\nDrive devices: contactors and auxiliary relays -Siemens S7 1200 PLC -\n\nHMI Touch Screen Accessories:\n\n- Theoretical content manual and Practical work guide\n- Connection kit for carrying out the practices\n- Main power cable\n- Protection fuse replacement\n- RJ45 Ethernet network cable for data transmission\n- Teacher key",
        "Url": "edquip.co\/en\/insur\/pcp-11-bm00",
        "Page title": "Process Control Plant for Training: Insur - EDQUIP",
        "Page description": "Process Control Plant training equipment, suitable for technical schools, colleges and universities. Request your quotation today! Get free price estimations.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply",
            "Water drain"
        ],
        "Teacher materials": true,
        "Student materials": false,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "160\/75\/190",
        "Equipment dimensions unit": "cm",
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        "Equipment weight unit": "Kg",
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        "Packed dimensions unit": null,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Insur\/PCP 11 BM00\/1727785405_Principal.jpg",
        "Video link": "",
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-925727",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EDILAB-ELEC2",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": null,
        "Name": "Electrolyzer (60 Nl\/h)",
        "Description": "Worries about the global climatic change and environmental degradation which results from the use of fossil fuels as primary energy source, together with the concerns about the energy provision, have made some analysts propose hydrogen as the universal energy carrier for the future. Using hydrogen as energy vector allows the development of a wide number of technologies. Specifically, fuel cells supplied with hydrogen can reach high efficiencies and have a great variety of applications, both portable and stationary.\n\nFortunately, hydrogen can be obtained from several raw materials following diverse process technologies (such as chemical, electrochemical, biological photolythical and thermochemical technologies), and using several primary energy sources. Each technology is at a different development stage and offers unique opportunities, benefits and challenges. Hydrogen generation techniques can be classified as follows:\n\n- Chemical conversion processes: reforming, gasification and pyrolysis.\n- Thermolytic processes: direct thermolysis and thermochemical cycles.\n- Electrolytic processes: electrolysis.\n- Biological processes: fermentation, anaerobic digestion.\n- Photonic processes: photoelectrolysis, photobiolysis and photocatalysis.\n\nIn order to obtain hydrogen, the Electrolyzer with a hydrogen production of 60 Nl\/h, \u201cEDILAB-ELEC2\u201d, follows an electrolytic process.\n\nThe Electrolyzer (60 Nl\/h), \u201cEDILAB-ELEC2\u201d, designed by EDIBON, can separate hydrogen and oxygen from water by applying electricity. The \u201cEDILAB-ELEC2\u201d, consists of an electrolyzer to generate hydrogen which uses a high performance and efficiency system based on water electrolysis. Hydrogen to be used safely is obtained from it. The electrolysis cell is a PEM type membrane. It only needs deionized water and generates 60 l\/h of 99.99 % purity hydrogen.\n\nThe generated hydrogen gas is accumulated in the hydrogen\/water separator and the desiccant housing. The pressure is controlled by a pressure transducer. The output pressure is indicated on the display. The hydrogen is dried by passing it through a drying tube. The hydrogen then passes throught the shutoff valve and exits the generator through the outlet port at the rear.",
        "Specs": "Bench-top unit.\n\nPEM electrolyzer with a hydrogen generation of 60 l\/h:\n\n- Water input: De-ionized water (must meet ASTM type II and conductivity of less than 0.1 uS).\n- Maximum outlet pressure: 10 \u2013 16 bar.\n- Operating temperature: 15 \u2013 40 \u00b0C.\n- Purity: 99,9999 % (Grade 6.0). For information on how to achieve higher purity, please contact us (*).\n\nDirect connection for the Computer Controlled PEM Fuel Cell Advanced Unit, \u201cEC6C\u201d, or the PEM Fuel Cell Advanced Unit, \u201cEC6B\u201d. Cables and accessories, for normal operation.\n\nManuals: This unit is supplied with the following manuals: Required services, Assembly and Installation, Starting-up, Safety, Maintenance & Practices manual.",
        "Url": "edquip.co\/en\/edibon\/electrolyzer-hydrogen-generator",
        "Page title": "Electrolyzer (60 Nl\/h)",
        "Page description": "Desktop electrolyzer for hydrogen generation in a lab setting. Generate hydrogen for your fuel cell trainer. Suitable for shools, colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE",
            "UL"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": null,
        "Teacher materials": null,
        "Student materials": null,
        "E-Learning modules": null,
        "HS Code": null,
        "Equipment dimensions": "50\/30\/40",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "30",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Electrolyzer (60 Nlh)\/electrolyzer-60-nl-h.jpg",
        "Video link": null,
        "Main category": "Fuel Cell Training Systems"
    },
    {
        "Edquip ID": "PL-399184",
        "Product Type": "software",
        "Producer": "Automated Computing Machinery SL",
        "Producer product number": "WTS-ACMSL",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Video",
            "Documentation",
            "In person"
        ],
        "Name": "Wind Turbine Simulator",
        "Description": "Comprehensive Training for Wind Energy Professionals\n\nThe \"Wind Turbine Simulator\" is an advanced training tool designed to provide a comprehensive understanding of wind turbine technologies and operations. Combining realistic, hands-on learning experiences with cutting-edge simulation technology, this tool is ideal for educators, trainers, and students aiming to bridge the gap between theoretical knowledge and real-world applications in wind energy systems.\n\nWith high-fidelity simulations and interactive features, the Wind Turbine Simulator caters to diverse audiences, including technicians, engineers, and educators, offering unmatched insights into the renewable energy sector.\n\nBenefits of the Wind Turbine Simulator\n\nThe Wind Turbine Simulator provides significant benefits for both trainers and students, making it an invaluable resource in renewable energy education. Trainers can enhance their teaching efficiency, while students gain practical experience to prepare for real-world challenges.\n\nFor Trainers:\n\n- Enhanced Training Efficiency: Demonstrates complex operational principles without requiring physical turbines, reducing costs and logistical challenges.\n- Customizable Content: Tailored modules ensure targeted learning outcomes across different curricula and skill levels.\n- Safety-First Approach: Simulates high-risk scenarios in a controlled environment, allowing trainers to teach critical safety protocols without real-world hazards.\n- Performance Analytics: Tracks student progress and identifies areas for improvement through detailed data insights.\n- Global Accessibility: Enables remote training, expanding the reach of quality education worldwide.\n\nFor Students:\n\n- Hands-On Experience: Offers practical training on wind turbine systems, preparing students for industry demands.\n- Concept Clarity: Simplifies complex engineering concepts through interactive modules and visualizations.\n- Skill Enhancement: Develops expertise in fault diagnosis, performance optimization, and safety protocols.\n- Career Readiness: Familiarizes learners with SCADA systems and industry tools, enhancing employability.\n- Cost-Effective Learning: Reduces the need for physical site visits and turbine access, saving time and resources.\n\nFeatures of the Wind Turbine Simulator\n\nPacked with a variety of innovative features, the Wind Turbine Simulator offers a comprehensive platform for learning and skill-building. These features are meticulously designed to replicate real-world wind turbine operations.\n\n- Interactive Software Modules: Progressive learning paths covering installation, operation, and maintenance.\n- Realistic Operational Scenarios: Simulates various wind speeds, fault conditions, and environmental factors.\n- Performance Optimization Tools: Allows experimentation with parameters like blade pitch and yaw for maximum energy output.\n- Fault Diagnosis Simulations: Prepares users to identify and troubleshoot mechanical and electrical issues.\n- SCADA Integration: Offers real-world experience with Supervisory Control and Data Acquisition systems.\n- Remote Training Compatibility: Supports virtual labs and hybrid training setups for flexible learning.\n\nExpected Learning Outcomes from the Wind Turbine Simulator\n\nBy engaging with the Wind Turbine Simulator, learners can expect to achieve several key outcomes that will enhance their proficiency and career readiness in the wind energy sector.\n\n- Comprehensive understanding of wind turbine components and operations.\n- Proficiency in using SCADA systems for monitoring and diagnostics.\n- Advanced skills in fault detection and performance optimization.\n- Knowledge of safety protocols and emergency response procedures.\n- Confidence in applying theoretical knowledge to practical scenarios.\n\nIncluded with the Wind Turbine Simulator\n\nTo ensure a seamless and enriching learning experience, the Wind Turbine Simulator comes with a variety of support materials and services. These inclusions guarantee that trainers and students alike can maximize the benefits of this powerful tool.\n\n- Comprehensive Tutorials: Step-by-step guides covering all aspects of the simulator.\n- User Manuals: Detailed documentation to ensure ease of use.\n- Training Videos: Visual aids to enhance learning and understanding.\n- Email Support: Direct assistance for any technical queries.\n- Initial Setup Support: Guidance for seamless installation and configuration.\n- Regular Software Updates: Access to the latest features and improvements.\n\nThe Wind Turbine Simulator is an indispensable tool for anyone involved in wind energy training and education. Its advanced features, customizable modules, and realistic scenarios make it a valuable resource for trainers and students alike. By providing hands-on experience and deep insights into wind turbine operations, the simulator prepares users for real-world challenges in the renewable energy sector.\n\nTransform your approach to wind energy education with the Wind Turbine Simulator. Request a quotation today and take the first step toward revolutionizing your training programs.",
        "Specs": "Windows application, downloadable.\n\nRecurring or lifetime licenses available.",
        "Url": "edquip.co\/en\/acm-sl\/wind-turbine-simulator",
        "Page title": "Wind Turbine Simulator: ACM SL - EDQUIP",
        "Page description": "Wind Turbine Simulator, teaching wind turbine technicians & operators how a wind turbine with it's different subsystems actually works. Get your license today!",
        "Lowest number of students": 1,
        "Highest number of students": 24,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "60 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": false,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": [
            "Email",
            "FAQs",
            "Phone support"
        ],
        "Software requirements": [
            "Avialable offline",
            "Desktop - windows"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ACM SL\/Wind Turbine Simulator\/Wind Turbine Simulator 1.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/ZjvBbKqMvEM?si=KzCTFvjnBrrjlr-Y",
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-859127",
        "Product Type": "software",
        "Producer": "Automated Computing Machinery SL",
        "Producer product number": "WFS-ACMSL",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Wind Farm Simulator - SCADA",
        "Description": "Mastering SCADA Systems at Wind Energy Farms\n\nThe \"Wind Farm Simulator\" is an advanced SCADA (Supervisory Control and Data Acquisition) system training tool designed to provide a holistic understanding of wind farm operations. Built for educators, trainers, and students, this simulator replicates the intricacies of managing multiple wind turbines, monitoring performance, and diagnosing faults across an entire wind farm.\n\nBy combining cutting-edge simulation technology with interactive learning modules, the Wind Farm Simulator prepares users to handle real-world challenges in renewable energy operations and management, making it an essential resource for professionals and learners in the wind energy sector.\n\nBenefits of the Wind Farm Simulator\n\nThe Wind Farm Simulator offers a host of benefits tailored to meet the needs of both trainers and students. Its robust design ensures effective learning and skill acquisition.\n\nFor Trainers:\n\n- Comprehensive Training Scope: Enables trainers to teach the complexities of SCADA systems and wind farm operations in a controlled environment.\n- Customizable Training Modules: Allows educators to adapt scenarios and lessons to specific learning objectives or operational challenges.\n- Risk-Free Environment: Provides a safe space to simulate faults, emergencies, and operational adjustments without real-world consequences.\n- Global Accessibility: Supports remote training, enabling trainers to connect with learners worldwide.\n- Performance Tracking: Offers insights into student progress and areas needing improvement through detailed analytics.\n\nFor Students:\n\n- Real-World Simulation: Provides hands-on experience in monitoring and controlling wind farms using SCADA systems.\n- Enhanced Understanding: Simplifies complex operational concepts through interactive modules and visualizations.\n- Skill Development: Builds proficiency in fault diagnosis, performance optimization, and system monitoring.\n- Career Preparation: Equips learners with the knowledge and skills necessary for roles in wind farm operations.\n- Cost-Efficient Learning: Eliminates the need for physical wind farm visits, reducing costs and logistical challenges.\n\nFeatures of the Wind Farm Simulator\n\nThe Wind Farm Simulator incorporates a variety of advanced features designed to mimic real-world wind farm operations, making it a versatile and effective training tool.\n\n- SCADA System Integration: Simulates real-time monitoring and control of wind farm operations.\n- Multi-Turbine Management: Allows users to monitor and optimize multiple turbines simultaneously.\n- Realistic Fault Scenarios: Offers a wide range of operational challenges, from mechanical failures to electrical faults.\n- Data Analysis Tools: Includes features for analyzing turbine performance, energy output, and system efficiency.\n- Customizable Environmental Conditions: Enables simulations under various weather conditions and wind patterns.\n- Remote Access Compatibility: Supports hybrid and remote learning environments.\n\nExpected Learning Outcomes from the Wind Farm Simulator\n\nThe Wind Farm Simulator delivers practical knowledge and hands-on experience, ensuring learners gain the skills required for effective wind farm management.\n\n- Mastery of SCADA systems for monitoring and control.\n- In-depth understanding of wind farm operations and maintenance.\n- Proficiency in diagnosing and resolving faults across multiple turbines.\n- Ability to optimize wind farm performance under varying environmental conditions.\n- Knowledge of safety protocols and emergency response strategies.\n- Enhanced problem-solving and decision-making skills.\n\nIncluded with the Wind Farm Simulator\n\nTo ensure a smooth and enriching training experience, the Wind Farm Simulator comes equipped with a variety of resources and support services:\n\n- Comprehensive Tutorials: Step-by-step guides for setting up and using the simulator.\n- User Manuals: Detailed documentation for all system features.\n- Training Videos: Visual aids to complement interactive learning modules.\n- Email Support: Dedicated assistance for troubleshooting and technical queries.\n- Initial Setup Assistance: Guidance to ensure seamless installation and configuration.\n- Regular Software Updates: Access to the latest features and system improvements.\n\nThe Wind Farm Simulator is a revolutionary tool for mastering SCADA systems and wind farm operations. Its advanced features, interactive learning modules, and realistic scenarios make it a must-have resource for trainers and students aiming to excel in the renewable energy industry. By providing in-depth knowledge and practical experience, the simulator equips users to tackle real-world challenges with confidence.\n\nTake your wind energy training to the next level with the Wind Farm Simulator. Request a quotation today and begin transforming your educational programs and professional training initiatives.",
        "Specs": "Windows application, downloadable.\n\nRecurring or lifetime licenses available.",
        "Url": "edquip.co\/en\/acm-sl\/wind-farm-simulator-scada",
        "Page title": "Wind Farm Simulator SCADA: ASM SL - EDQUIP",
        "Page description": "Real time Wind Farm Simulator, designed to teach wind turbine technicians & operators the behaviours of an industrial grade wind farm. Get your license today!",
        "Lowest number of students": 1,
        "Highest number of students": 24,
        "System type": "Simulation & Digital Platform",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "60 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": false,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": [
            "Email",
            "FAQs",
            "Phone support"
        ],
        "Software requirements": [
            "Avialable offline",
            "Desktop - windows"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ACM SL\/Wind Farm Simulator\/Wind Farm Simulator 1.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/ZjvBbKqMvEM",
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-195409",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-BSGC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Smart Grids Application",
        "Description": "The Computer Controlled Smart Grids Application, \u201cAEL-BSGC\u201d, has been designed to study smart grids in the fields of generation, transmission, distribution, and consumption. It enables students and researchers to analyze the complete energy flow from production to consumption, identifying problems and solutions throughout the system. The unit includes a 1 kVA synchronous generator-motor group, where the generator is coupled to an induction motor controlled by a variable frequency drive, allowing simulation of real power generation conditions. Both speed and excitation current can be manually or automatically controlled via an advanced AVR, enabling detailed studies of synchronization, voltage regulation, and stability.\n\nThe system also includes a transmission line module designed with variable parameters (resistance, inductance, and capacitance), allowing users to simulate different line lengths and capacitive effects, and to evaluate their impact on energy transport. Two bidirectional smart meter simulators are included to monitor energy losses, voltages, powers, and currents across the transmission line. To simulate real consumption scenarios, the unit includes resistive, inductive, and capacitive loads to provoke instability and analyze how the smart grid restores balance automatically.\n\nFinally, the unit is supplied with a SCADA Control and Data Acquisition System that replicates a real substation. It enables real-time control of speed, voltage, synchronization with the grid, and protection system behaviors such as overspeed, voltage drops, reverse power, and generator overloads. It also allows monitoring and data logging of electrical parameters for deeper analysis of the generation, transmission, and consumption processes.",
        "Specs": "- [AEL-BSGC. Application](https:\/\/www.edibon.com\/en\/computer-controlled-smart-grids-application?video_modal=on):\n\nN-ALI01. Industrial Main Power Supply Module.\n\n- Supply voltage: 400 VAC, 3PH + N.\n- ON \/ OFF removable key.\n- Output voltage connections:\n\n- Three-phase + Neutral: 400 VAC.\n- Single-phase: 230 VAC.\n\n- Three-phase supply hose with IP44 3PN + E 32 A 400 V connecting plug.\n- Differential magnetothermal 4 poles, 25 A, 30 mA AC 6 KA.\n- Emergency stop push-button.\n\nN-PPIM1. Instrumentation Module 1.\n\n- Three-phase wattmeter.\n- Three-phase varmeter.\n- Voltmeter.\n- Frequency meter.\n- DC meter.\n\nN-PSUB1. Power Generation Substation Module 1.\n\n- Supply voltage: 400 VAC, 3PH + N.\n- ON \/ OFF switch.\n- Power and signals connection:\n\n- Three-phase turbine supply hose with IP44 3PN+E 32 A 400 V connecting plug.\n- Three-phase generator supply hose with IP44 3PN+E 32 A 400 V connecting plug.\n\n- Three switches to choose between the different modes:\n\n- Local and remote control mode.\n- Manual and automatic speed control.\n- Manual and automatic excitation control.\n\n- Three control switches to:\n\n- Start and stop the turbine.\n- Give permission to synchronize the generator with the grid.\n- Give permission to close 52NET circuit breaker.\n\n- Two potentiometers to regulate:\n\n- Turbine speed.\n- Generator excitation.\n\n- Emergency stop button.\n- Two circuit breakers for synchronization and stand-alone operations.\n- Different terminals to measure.\n- Ethernet connection: RJ45 communication port for SCADA remote control.\n- Automatic speed and voltage controller (easygen):\n\n- Enables to connect to electric generators in parallel-island with distribution of active and reactive load and start\/stop in function of the load demand.\n- Enables to connect a generator in parallel with the grid.\n- Enables different switches control modes, such as opening, closing and synchronization.\n- Analogical outputs to control voltage and frequency regulators.\n- Three-phase measurement of the grid and the generator voltage.\n- Three-phase measurement of the generator intensity and power.\n- Single-phase measurement of the grid intensity.\n\n- Protection system:\n\n- Generator:\n\n- Maximum\/minimum voltage (59\/27), maximum\/minimum frequency (81O\/U), voltage asymmetry, detection of dead busbars, overvoltage (32), load unbalance (46), negative sequence power\/reduced power (32R\/F), overcurrent by defined curve (50\/51), inverse time overcurrent (IEC255), measured ground fault (50N\/51N), phase rotation, switches faults.\n\n- Network:\n\n- Maximum\/minimum voltage (59\/27), maximum\/minimum frequency (81O\/U), vector jump, phase rotation.\n\n- Six alarms:\n\n- Alarm 1: Reverse power.\n- Alarm 2: Overcurrent.\n- Alarm 3: Over\/under voltage.\n- Alarm 4: Inverse time overcurrent.\n- Alarm 5: Over\/under frequency.\n- Alarm 6: Shutdown alarms.\n\n- Four operation signals:\n\n- Ready for operation.\n- Start request.\n- Synchronization conditions.\n- Permission for synchronization.\n\nN-AE1. Transmission Lines Simulation Module.\n\n- Return line of 10 Ohm.\n- The resistive part: two resistance values of 15 Ohm and 33 Ohm with the next possible connections:\n\n- Only one:\n\n- 15 Ohm.\n- 33 Ohm.\n\n- Series: 48 Ohm.\n- Parallel: 10.31 Ohm.\n\nN-EALD. Electrical Network Analyzer Module with Oscilloscope and Data Acquisition\n\n- The network analyzer module allows fulfilling measurements, displaying and analyzing all the parameters of the AC electrical networks. It has an LCD screen and push-buttons for the navigation through the different menus. It includes a specific software for monitoring current and voltage curves, harmonics display, tariffs programming, alarms programming and electrical parameters storage.\n- Features:\n\n- Multifunctional three-phase power meter:\n\n- Three-phase and single-phase voltage. Up to 690 VAC L-L.\n- Line and neutral nominal current: 10 A.\n- Active, reactive and apparent power.\n- Suitable frequencies: 25 Hz, 50 Hz, 60 Hz and 400 Hz.\n- Display of the V-I vector diagram.\n- Supply voltage: 85 \u2013 265 VAC.\n\n- Energy quality control:\n\n- Current and voltage individual harmonics measurement. Up to the 40th harmonic.\n- Voltage and THD current, TDD current and K-Factor.\n- Maximums and minimums display.\n- Waveforms display, 128 samples\/sec.\n\n- Events and data storage:\n\n- Harmonics analyzer:\n\n- Voltage and THD current, TDD current and K-Factor, up to the 40th harmonic.\n- Current and voltage harmonic spectrum and angles.\n\n- Tariff programming:\n\n- Class 0.5S IEC 62053 \u2013 22, active and reactive power in four quadrants.\n- Measurement of the total and per phase three-phase active, reactive and apparent powers.\n- Usage time, four energy\/demand records of total tariffs.\n- Eight tariffs, four seasons and four types of days.\n- Automatic daily report of energy consumption maximums and minimums.\n\n- Communications: RS \u2013 485 communication port.\n\nN-MPS. Motor Protection Module.\n\n- ON \/ OFF switch.\n- Limit thermal current: From 1.6 A to 2.5 A.\n- Input power terminals: Power input connections: L1, L2, L3.\n- Output power terminals: Power output connections: L1, L2, L3.\n\nEMT6\/1K. Independent Excitation 3PH Synchronous Motor-Generator, 1 kW.\n\n- Nominal power: 1000 VA.\n- Power factor: 0.8.\n- Nominal output voltage: 3 x 400 VAC.\n- Frequency: 50 \/ 60 Hz.\n- Speed: 3000 rpm.\n- Nominal output current: 0.8 A.\n- Nominal excitation current: 5 A.\n- Shaft height: 71 mm.\n\nEMT7\/1K. 3PH Squirrel-Cage Motor, 1 kW.\n\n- Nominal power: 1100 W.\n- Nominal voltage: 3 x 230 \/ 400 VAC \u0394\/Y.\n- Frequency: 50 \/ 60 Hz.\n- Number of poles: 2.\n- Speed: 2730 rpm.\n- Nominal current: 2.52 \/ 1.45 A.\n- Shaft height: 71 mm.\n\nElements required (at least one) (Not included):\n\nTPEL\/1800W. Single-phase AC\/DC Electronic Load.\n\n- The TPEL\/1800W electrical load stands out for its versatility in operating in both AC and DC. With a wide power range and an adjustable frequency from 45 Hz to 450 Hz, this electronic source offers exceptional capabilities.\n- With its advanced measurement capabilities, 7-inch LCD display, and features such as the built-in oscilloscope, the TPEL\/1800W is the ideal solution for laboratory testing of most of EDIBON\u2019s unit such as UPS, inverters, AC power supplies, electrical generators and AC electronic components. In addition, its connectivity via LAN and USB interfaces ensures reliable and fast control, adding an additional level of efficiency to its capabilities.\n- Technical Features:\n\n- Frequency Range: 45 Hz~450 Hz.\n- Power Range: 0~1.8 kVA.\n- Voltage Range: 50-420 Vrms, 15-260 Vrms.\n- Parallel Connection\/Three Phase Control.\n- 7 Inch LCD Display: Provides a clear and accessible interface.\n- Oscilloscope Function: Allows display of voltage and current waveforms.\n- High Speed AD Sampling: Captures real-time waveforms.\n- Measurement Modes: Includes Vrms, Vpk, Vdc, Irms, Ipk, Idc, W, VA, VAR, CF, PF and FREQ.\n- Harmonic Measurement.\n- AC Electronic Load: DC\/CR\/CP modes.\n- DC Electronic Load: DC\/CR\/CP\/CV modes.\n- External Analog Control: 0~10 V analog input, with voltage and current monitoring functions.\n- Protection Functions: OTP, OCP, OVP, UVP and OPP.\n- Communication Interfaces: LAN and USB, plus external interface for USB flash disk.\n\nRCL-KIT-1. RLC Load with Manual Control Kit.\n\nN-REFT\/3C. 3 x 300 W Three-phase Configurable Resistors Module.\n\n- Configurable star and delta connections.\n- Three banks with three three-phase resistors.\n- Nominal voltage: 400 VAC.\n- Nominal power: 3 x (3 x 300) W.\n\nN-INDT\/3C. 3 x 300 Var Three-phase Configurable Inductances Module.\n\n- Configurable star and delta connection.\n- Inductance: 3 x (3 x 5) H.\n- Nominal voltage: 400 VAC.\n- Nominal power: 3 x (3 x 100) Var.\n- Supply voltage: 230 VAC.\n- Common point of normally close\/open contacts.\n\nN-CAR19T\/3C. 3x300 Var Three-phase Configurable Capacitors Module.\n\n- Configurable star and delta connections.\n- Three banks with three three-phase capacitors of 2 \u03bcF.\n- Nominal voltage: 400 VAC.\n- Nominal power: 3 x (3 x 300) Var.\n\nRequired elements (Not included):\n\nAEL-PC. Touch Screen and Computer.\n\n- Touch screen:\n\n- Energy efficiency class: A.\n- Screen diagonal: 68.6 cm (27 inch (s)).\n- Power consumption (operating): 26 watts.\n- Annual energy consumption: 38 kWh.\n- Power consumption (standby \/ off) 0.49 watts.\n- Screen resolution: 1920 x 1080 pixels.\n\n- Computer:\n\n- Processor number: Intel Core i7-6600U Processor (4M Cache, up to 3.40 GHz).\n- Cache: 4 MB Intel Smart Cache.\n- Clock speed: 2.6 GHz.\n- # Of cores\/# of threads: 2\/4.\n- Max. TDP\/Power: 15 W.\n- Memory types: DDR4-2133, LPDDDR3-1866, DDR3L-1600.\n- Graphics: Intel HD graphics 530.\n- Slot for PCI Express.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- AEL-BSGC\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 7 manuals: Required services, Assembly and Installation, Control software, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Basic concepts of smart isolated grids.\n- Manual control of voltage and frequency of the generator in a smart stand-alone grid.\n- Automatic control of voltage and frequency of the generator in a smart stand-alone grid.\n- Study of energy requirements and energy generation in a smart stand-alone grid.\n- Smart Metering of the generated and transported energy.\n- Study of synchronous generator response when a resistive load variation occurs.\n- Study of synchronous generator response when an inductive load variation occurs.\n- Study of synchronous generator response when a capacitive load variation occurs.\n- Synchronization operations with the synchronous generator and the grid.\n- Study of energy losses in transmission lines.\n- Representation of power generation waves through the data acquisition system.\n- Comparison of energy losses according to the line length.\n- Visualization and comparison of the reactive load curves with and without power factor compensation.\n- Display of measured values of the synchronous generator.\n- Display of measured values upstream and downstream of the transmission line for different line lengths and energy losses comparison.\n- Plotting of measured values vs time.\n- Data processing, analyzing and exporting of generation, lines and load electrical parameters.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-smart-grids-application",
        "Page title": "Computer Controlled Smart Grids Application",
        "Page description": "Computer Controlled Smart Grids Application. Request your quotation today! Free price estimations, suitable for technical schools, colleges & universtities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "2000 x 400 x 2000 mm approx.  (78.74 x 15.75 x 78.74 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Smart Grids Application\/1751439314_AEL-BSGC.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/P8yCCRxEB7U?si=r-gw7sIXv-hqekLO",
        "Main category": "Smart Grid Lab"
    },
    {
        "Edquip ID": "PL-266000",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-PLC-SLB",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Ball Selection Workstation",
        "Description": "The \u201cAE-PLC-SLB\u201d is a modular ball selection system commanded by a PLC, designed to classify balls according to color and material. Balls are detected as they arrive at the collection point, and based on the data gathered by various sensors, pneumatic actuators guide each ball to its corresponding container. The system integrates real industrial components, such as reed sensors, presence and inductive sensors, and a rotary table with 8 positions, offering a realistic and educational environment.\n\nThe main elements of the system include a PLC with CPU and expansion modules, a control panel with start\/stop buttons, emergency and reset buttons, and light indicators, as well as a complete pneumatic circuit with solenoid valves, pressure regulators, filters, and actuators to ensure precise and reliable operation. The \u201cAE-PLC-SLB\u201d is structured to enhance learning by clearly separating sections like air treatment, parts feeding, verification, and sorting, each equipped with adjustable valves and pilot-operated check valves for speed and position control.\n\nA signaling tower with green, yellow, and red LED lights indicates the system status in real time. The solenoid valve block contains 12 valves: two 3\/2 monostable, six 5\/2 monostable, and four 5\/2 bistable solenoid valves. Additionally, the electrical terminal block includes clearly labeled and color-coded terminals for easy identification and manual testing of each signal.\n\nFinally, the \u201cAE-PLC-SLB\u201d can operate independently or in conjunction with other stations to form a complete Flexible Manufacturing System (FMS), making it a powerful tool for automation and industrial control training.",
        "Specs": "- [AE-PLC-SLB. Unit](https:\/\/www.edibon.com\/en\/ball-selection-workstation?video_modal=on):\n\n- Table with four wheels with brakes mounted with aluminum profiles.\n- Programming software PLC:\n\n- Programming software developed according to the norm IEC 61131-3.\n- Compatible with Windows operating systems.\n- 5 programming languages:\n\n- Ladder diagram (LD).\n- Structured text (ST).\n- Instructions list (IL).\n- Sequential function chart (SFC).\n- Function block diagram (FBD).\n\n- Programming, service and remote diagnostics.\n- Minimun program size.\n- Powerful debugging and monitoring tools.\n- Support for user-created functions and function blocks.\n- Save Project files in plc.\n- Quick start tutorial example included.\n\n- Electrical panel:\n\n- Differential magneto-thermal switch.\n- Power supply of 24 VDC.\n\n- Control panel:\n\n- Mushroom head emergency stop push button switch.\n- Start and Stop pushbuttons.\n- Switch for manual or automatic operation.\n- Light indicator.\n- Led stack light.\n- Fault Injection Key Box Module:\n\n- Red key box module with 20 switches inside.\n- 2 DB37 connectors.\n- Each fault is generated via toggle switches.\n\n- Pneumatic circuit:\n\n- Air treatment unit:\n\n- Filter-regulator with water trap.\n- Manometer with double scale indicator.\n- 8 flow control valves.\n\n- Rotary pneumatic actuator.\n- Pneumatic solenoid valves 5\/2 monostable.\n- 3 double acting pneumatic actuators.\n- 3 pneumatic solenoid valves 5\/2 bistable.\n- Individually identified tubes and push in fittings.\n\n- Sensors:\n\n- Color sensor.\n- 6 reed effect limit switches.\n- 2 capacitive sensors.\n- Inductive sensor.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 7 manuals: Required services, Assembly and Installation, Control software, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Introduction to the flexible manufacturing system: Identification of unit components.\n- Introduction to pneumatics and electro-pneumatics: Identification of components.\n- Configuration of a pneumatic application.\n- Operation of pneumatic system: Introduction to pneumatic actuators.\n- Study of sensor detection.\n- Manual control and study of inductive and color sensors.\n- Industrial application of a ball sorting system.\n- Modification of elevator process parameters and process time optimization.\n- Fault inserted analysis and diagnosis.",
        "Url": "edquip.co\/en\/edibon\/mechatronics-ball-selection-workstation",
        "Page title": "Ball Selection Workstation",
        "Page description": "Ball Selection Workstation, for technical training. Request your quotation today! Free price estimations, suitable for technical colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Gases"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "945 x 730 x 1150 mm approx.  (37,20 x 28,74 x 45,27 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "60 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Ball Selection Workstation\/1751440260_AE-PLC-SLB.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/2MtNRXGXzLw?si=KO4xViQP3mhnkBQ5",
        "Main category": "Mechatronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-654339",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-PLC-APS",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Part Feeder Workstation",
        "Description": "The Pieces Feeder Workstation, \u201cAE-PLC-APS\u201d, is a training unit that operates using pneumatic and electropneumatic technologies. Its main function is to supply and verify parts one by one. A pneumatic cylinder feeds each part individually, which is then verified to determine if it meets the required characteristics. Depending on the verification result, the part is either sent to the outlet zone or discarded. This workstation allows users to learn the fundamentals of pneumatics and electropneumatics without requiring prior experience.\n\nThe system is composed of two main sections: the control panel and the sensor\/actuator section. The control panel includes all push-buttons and switches required for operation, as well as internal differential magnetothermal protection to ensure user safety. The sensor and electropneumatic actuator section includes reed and capacitive sensors, single and double-acting cylinders, solenoid valves (3\/2 and 5\/2), and an Ethernet\/IP remote I\/O module for automatic control of the entire process.\n\nThe system is organized into several modules. The air treatment unit features a filter-regulator block with a water trap, shut-off valve, and a dual-scale manometer. The piece feeder module stores the parts vertically and supplies them using a double-acting cylinder with speed-regulated airflow valves. The piece verifier module checks whether the parts have a central hole, using a double-acting cylinder with three sensors. Verified parts are then processed by the piece displacer module, which moves them to the classification area using another double-acting cylinder, equipped with adjustable airflow valves and piloted check valves for speed and position control.\n\nThe piece classification module sorts the parts: good parts are directed to the correct area by a single-acting classification cylinder, while defective ones are automatically discarded. The unit also includes a stack light (green, yellow, and red LEDs) to indicate system status, a solenoid valve block with five valves (three 3\/2 and two 5\/2), and an Ethernet\/IP remote I\/O module for system automation. Lastly, the electrical terminal block provides access to all signals of the unit, with color-coded terminals: yellow for inputs, blue for outputs, and grey for power supply and PE signals.",
        "Specs": "- [AE-PLC-APS. Unit](https:\/\/www.edibon.com\/en\/ball-selection-workstation?video_modal=on):\n\n- Table with four wheels with brakes mounted with aluminum profiles.\n- Ten pieces made of aluminum and plastic:\n\n- Five pieces with hole.\n- Five pieces without hole.\n\n- Unit wired and programmed for the correct operation of the system.\n- Light stack to indicate the state of the workstation:\n\n- Green, yellow and red led lights.\n- 360\u00ba visualization.\n- Non-colored lens to avoid wrong interpretation with the lights turned off.\n\n- Electrical terminal block to connect the individually identified inputs, outputs and power signals of the unit.\n- Control panel:\n\n- Differential magneto-thermal switch.\n- Emergency pushbutton.\n- Start\/Stop switch.\n- Light indicator to show the state of the workstation.\n- Reset push-button.\n- Manual\/automatic switch.\n- Next step push-button.\n- Two Ethernet\/IP RJ45 connectors.\n- Power switch.\n- Power supply of 24 VDC.\n\n- Air treatment unit:\n\n- Filter-regulator and water trap.\n- Manometer with double scale indicator.\n- Shut-off valve.\n- Purge valve.\n\n- Piece feeder module:\n\n- Vertical storage for pieces.\n- Double acting cylinder:\n\n- Two adjustable air flow valves with bypass.\n\n- Pneumatic monostable 5\/2 solenoid valve.\n- Capacitive sensor.\n- Two reed switches.\n\n- Piece verifier module:\n\n- Double acting cylinder:\n\n- Two adjustable air flow valves with bypass.\n- Pneumatic monostable 5\/2 solenoid valve.\n- Capacitive sensor.\n- Three reed effect.\n\n- Piece displacement module:\n\n- Double acting cylinder:\n\n- Two adjustable air flow valves with bypass and piloted check valve.\n\n- Two Pneumatic monostable 3\/2 solenoid valves.\n\n- Piece classification module:\n\n- Double acting cylinder:\n\n- Normally retracted rod.\n- Adjustable air flow valve with bypass.\n\n- Pneumatic monostable 3\/2 solenoid valve: Inductive effect sensor.\n\n- Fault generation module:\n\n- Attached to the frame of the unit.\n- Generates faults in the operation of different elements of the unit using switches.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 7 manuals: Required services, Assembly and Installation, Control software, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Introduction to flexible manufacturing system; identification of unit components.\n- Configuration of a pneumatic application\n- Manual pieces feeding process with verifying function.\n- Automatic pieces feeding process with verifying function.\n- Optimizing the automatic pieces feeding process with verifying function.",
        "Url": "edquip.co\/en\/edibon\/mechatronics-part-feeder-workstation",
        "Page title": "Part Feeder Workstation",
        "Page description": "Part Feeder Workstation, for technical training. Request your quotation today! Free price estimations, suitable for technical colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Gases"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1200 x 1100 x 1500 mm approx.  (39.36 x 23.62 x 59.05 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "85 kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Part Feeder Workstation\/1751441725_AE-PLC-APS.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/kkkyjDBGzYA?si=o90b2Wa2MUIGNRn_",
        "Main category": "Mechatronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-800181",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-PLC-MR1",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Rotary Table Workstation: Feeding, Quality Control and Assembly (dimensional study)",
        "Description": "The \u201cAE-PLC-MR1\u201d is an automatic rotary table equipped with an integrated parts feeder, quality control, and assembly system. The system includes vertical storage that supplies parts one by one to the rotary table. Once a part is placed on the table, a quality control system verifies its dimensions and material. If the part meets the requirements, it is assembled with a lid; otherwise, it is automatically discarded by the rotary table. The workstation is designed as a modular system to facilitate understanding and training.\n\nThe main components of the unit include: the PLC, composed of a CPU and all necessary expansion modules to ensure proper operation; the Control Panel, with start\/stop, emergency, and reset buttons, as well as status indicators; the Pneumatic Circuit, which features solenoid valves, filters, regulators, and all required components to guarantee proper functioning; and the Workstation, built with real industrial components such as reed sensors, presence sensors, a DC motor, inductive sensors, and an 8-position rotary table.\n\nThis unit is designed to operate as a standalone workstation or as part of a Flexible Manufacturing System (FMS) when integrated with other EDIBON stations. (See section \u201c6.-MECHATRONICS, AUTOMATION AND COMPUMECHATRONICS\u201d for the complete FMS product list.)\n\nThe system is divided into several functional sections. The Air Treatment System includes a filter-regulator block with water trap, shut-off valve, and a dual-scale manometer to visualize supply pressure. The Parts Feeding Section uses a double-acting cylinder with adjustable airflow valves to supply parts from vertical storage one at a time. The Parts Displacement Section features the rotary table driven by a DC motor with encoder and brake, transporting parts through the verification and classification areas.\n\nThe Parts Verification Section uses height sensors and inductive sensors to determine whether parts have a central hole and whether they are made of metal or PVC. Based on this analysis, the Parts Sorting Section uses telescopic suction cups to discard non-compliant parts or activates a rotary actuator\/gripper to store acceptable parts in the designated area. The system also includes a Signaling Tower (green, yellow, red LEDs) to indicate operational status.\n\nFinally, the Solenoid Valve Block includes twelve valves: two 3\/2 monostable, six 5\/2 monostable, and four 5\/2 bistable valves. The Electrical Terminal Block provides access to all unit signals for manual testing, with color-coded terminals (yellow for inputs, blue for outputs, grey for power and PE) and clear labeling for ease of identification.",
        "Specs": "- [AE-PLC-MR1. Unit](https:\/\/www.edibon.com\/en\/rotary-table-workstation-feeding-quality-control-and-assembly-dimensional-study?video_modal=on):\n\n- Table with four wheels with brakes mounted with aluminum profiles.\n- Programming software PLC:\n\n- Programming software PLC:\n- Programming software developed according to the norm IEC 61131-3.\n- Compatible with Windows operating systems.\n- 5 programming languages:\n\n- Ladder diagram (LD).\n- Structured text (ST).\n- Instructions list (IL).\n- Sequential function chart (SFC).\n- Function block diagram (FBD).\n\n- Programming, service and remote diagnostics.\n- Minimun program size.\n- Powerful debugging and monitoring tools.\n- Support for user-created functions and function blocks.\n- Save project files in plc.\n- Quick start tutorial example included.\n\n- Electrical Panel:\n\n- Differential magneto-thermal switch.\n- Power supply of 24 VDC.\n\n- Control Panel:\n\n- Mushroom head emergency stop push button switch.\n- Start and stop pushbuttons.\n- Switch for manual or automatic operation.\n- Light indicator.\n- Led stack light.\n- Fault Injection Key Box Module:\n\n- Red key box module with switches inside.\n- DB37 connectors.\n- Each fault is generated via toggle switches.\n\n- Electrical Components:\n\n-  Round table with 8 positions.\n- DC motor.\n- 1 dryve D8, step\/direction stepper motor control system.\n\n- Pneumatic Circuit:\n\n- Air treatment unit:\n\n- Filter-regulator with water trap.\n- Manometer with double scale indicator.\n- Shut-off valve.\n- 24 flow control valves.\n\n- 8 single acting pneumatic actuators.\n- 2 pneumatic solenoid valves 3\/2 monostable.\n- 6 pneumatic solenoid valves 5\/2 monostable.\n- 4 double acting pneumatic actuator.\n- 4 pneumatic solenoid valves 5\/2 bistable.\n- Individually identified tubes and push in fittings.\n\n- Vacuum Circuit:\n\n- 2 Telescopic suction cup.\n- 2 Venturi effect vacuum ejector.\n- 2 pneumatic solenoid valves 3\/2 monostable.\n- 2 pressure relief valve.\n\n- Sensors:\n\n- 16 reed effect limit switches.\n- 2 capacitive sensors.\n- Inductive sensor.\n- Height sensor.\n- Encoder of the rotating table\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with manuals: Required services, Assembly and Installation, Control software, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Introduction to the flexible manufacturing system: Identification of unit components.\n- Introduction to pneumatics and electro-pneumatics: Identification of components.\n- Configuration of a pneumatic application.\n- Operation of pneumatic system: Introduction to vacuum technology and pneumatic actuators.\n- Study of sensor detection.\n- Manual control of a rotary table.\n- Automatic control of a rotary table.\n- Industrial application example.\n- Industrial application tuning.\n- Fault inserted analysis and diagnosis.",
        "Url": "edquip.co\/en\/edibon\/rotary-table-workstation-feeding-quality-control-assembly",
        "Page title": "Rotary Table Workstation: Feeding, Quality Control and Assembly (dimensional study)",
        "Page description": "Rotary Table Workstation: Feeding, Quality Control and Assembly (dimensional study). Request your quotation today! Free price estimations, suitable for colleges",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Gases"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "945 x 730 x 1150 mm approx.  (37,20 x 28,74 x 45,27 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "60 Kg approx",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Rotary Table Workstation- Feeding, Quality Control and Assembly (dimensional study)\/1751442479_AE-PLC-MR1.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/sKfLCHJYgjs?si=q_mmDKzWoMlzNoDZ",
        "Main category": "Mechatronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-495696",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-PLC-SIE",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "SIEMENS PLC Application",
        "Description": "The SIEMENS PLC Application, \u201cAE-PLC-SIE\u201d, is a modular PLC training unit developed by EDIBON, which incorporates one of the latest SIEMENS PLC systems. This application enables users to acquire knowledge in PLC logic programming, explore various PLC programming languages, and understand PLC-to-PC communication protocols.\n\nThe \u201cAE-PLC-SIE\u201d includes a comprehensive set of practical exercises designed for students with no prior experience, allowing them to become familiar with the operation and functionality of PLC systems. The unit can be used independently for PLC training or in combination with EDIBON-compatible applications to explore real-world automation scenarios.\n\nThe system is based on a modular structure. The SIEMENS PLC Base Unit, \u201cAE-PLC-SIE-UB\u201d, is the core of the application and always includes the power supply and PLC CPU module. Additionally, a wide range of optional expansion kits is available to complement the base unit. These kits add functionalities such as test modules, analog input\/output signals, HMI devices, and internet connectivity for remote control and monitoring.\n\nWith these options, users can expand their training to cover HMI programming, analog signal testing, and web server application development, gaining hands-on experience in advanced industrial automation concepts.\n\nThe \u201cAE-PLC-SIE-UB\u201d base unit is essential for the operation of the \u201cAE-PLC-SIE\u201d system and provides the foundation for further expansions based on the specific training objectives.",
        "Specs": "- [AE-PLC-SIE. Application](https:\/\/www.edibon.com\/en\/siemens-plc-application):\n\nThe \u201cAE-PLC-SIE-UB\u201d base unit includes the following elements:\n\nN-ALI02. Domestic Main Power Supply Module.\n\n- Supply voltage (single-phase).\n- ON \/ OFF removable key.\n- Output voltage connections:\n\n- Two single-phase: 230 VAC.\n- Single-phase supply hose connecting plug.\n\n- Differential magnetothermal 2 poles, 25 A, 30 mA CA 6 KA.\n- Emergency stop push-button.\n\nN-CPU-SIE. Siemens CPU Module.\n\n- Supply voltage (single-phase).\n- Overcurrent protection with fuse.\n- PLC device, SIEMENS S7 - 1200:\n\n- High processing capacity: 64 bit calculation.\n- Program\/data memory: 100 kB.\n- Load memory: 4 MB expandable with a Siemens memory card.\n- CPU processing times for bit operations: 0.085\u00b5s\/instruction.\n- Counting frequency: 100 kHz.\n- Twenty-two digital inputs with voltage levels.\n- Eighteen relay type digital outputs with voltage levels.\n- Two analog inputs of 10 bits with voltage.\n\n- Expansion module for extra digital inputs and outputs.\n- Web server function:\n\n- HTML web server included in the PLC.\n- Compatible with most common search engines.\n\n- Connector for the digital input and output signals.\n- Connector to the Profinet\/Ethernet switch module.\n\nN-SWT-4. 4 Ports Ethernet Switch Module.\n\n- Supply voltage (single-phase).\n- Compact switch module: Four Ethernet ports.\n- Protection fuse (at supply voltage height).\n\nRequired elements of the \u201cAE-PLC-SIE-UB\u201d base unit (Not included):\n\nSIE-PLC-K1. SIEMENS PLC Kit 1.\n\nN-MT. Test Module.\n\n- Supply voltage (single-phase).\n- Twenty digital signal generators:\n\n- Ten toggle switches.\n- Ten push-buttons.\n- Each digital signal generator is linked to a green LED.\n- Output voltage levels of 0 VDC and 24 VDC.\n\n- Six analog signal generators:\n\n- Six potentiometers.\n- Protection fuses (at supply voltage height).\n\nAdditional recommended elements of the \u201cAE-PLC-SIE-UB\u201d base unit (Not included):\n\nSIE-PLC-K2. SIEMENS PLC Kit 2.\n\nN-ESA-SIE. SIEMENS Analog I\/O Module.\n\n- Supply voltage (single-phase): 230 VAC.\n- Expansion unit for analog inputs:\n\n- Input voltage range from -10 V to +10 V or 0\/4 - 20 mA (configurable).\n- Four analog inputs.\n- Resolution: 13 bits\n\n- Expansion unit for analog outputs:\n\n- Output voltage range from -10 V to +10 V or 0\/4 - 20 mA (configurable).\n- Four analog outputs.\n- Resolution: 13 bits\n\n- Connector for the analog input and output signals.\n- Connector to the Profinet\/Ethernet switch module.\n\nSIE-PLC-K3. SIEMENS PLC Kit 3.\n\nN-HMIB-SIE. SIEMENS Small HMI Module.\n\n- Supply voltage (single-phase): 230 VAC.\n- HMI device:\n\n- Touch screen.\n- TFT screen of 65536 colors.\n- Backlight: white LED.\n\n- Connector for the Profinet\/Ethernet switch module.\n\nSIE-PLC-K4. SIEMENS PLC Kit 4.\n\nN-HMIA-SIE. SIEMENS Large HMI Module.\n\n- Supply voltage (single-phase)\n- HMI device:\n\n- Touch screen.\n- TFT screen of 65536 colors.\n- Backlight: white LED.\n\n- Connector for the Profinet\/Ethernet switch module.\n\nSIE-PLC-K5. SIEMENS PLC Kit 5.\n\nN-MOD. Modem Communication Module.\n\n- Supply voltage (single-phase): 230 VAC.\n- Router-switch Ethernet network.\n- Wifi system to allow a wireless conexion of devices (smartphone, tablet or PC).\n- Internet router with RJ-11 socket to connect the phone line.\n- Conjunction of practical exercises to perform a web server application.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with manuals: Required services, Assembly and Installation, Control software, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs.\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (SIE-PLC-K1 and SIE-PLC-K2).\n- Using analog signals II (SIE-PLC-K1 and SIE-PLC-K2).\n- Square wave generator.\n- HMI simple program (SIE-PLC-K3 or SIE-PLC-K4).\n- Using digital outputs with HMI device I (SIE-PLC-K3 or SIEPLC-K4).\n- Using digital outputs with HMI device II (SIE-PLC-K3 or SIEPLC-K4).\n- Reading data from a register with the HMI device (SIE-PLC-K3 or SIE-PLC-K4).\n- Writing data to a register with the HMI device (SIE-PLC-K3 or SIE-PLC-K4).\n- Switching screens of the HMI device (SIE-PLC-K3 or SIEPLC-K4).\n- Internet connection of the PLC unit (SIE-PLC-K5).\n- Control digital inputs with a web server application (SIEPLC-K5).\n- Control digital outputs with a web server application (SIEPLC-K5).\n- Control analog inputs with a web server application (SIEPLC-K5).\n- Control analog outputs with a web server application (SIEPLC-K5).",
        "Url": "edquip.co\/en\/edibon\/siemens-plc-application",
        "Page title": "SIEMENS PLC Application",
        "Page description": "SIEMENS PLC Application for technical training. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "640 x 320 x 920 mm approx.  (25.19 x 12.59 x 32.22 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "60 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/SIEMENS PLC Application\/1751443849_AE-PLC-SIE.jpg",
        "Video link": "",
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-545410",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-PLC-MEMB",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Bottling Workstation",
        "Description": "The Bottling Workstation, \u201cAE-PLC-MEMB\u201d, developed by EDIBON, is an automated rotary table system designed for the complete bottling process. It integrates a vessel feeding mechanism, a controlled water filling system, a cap feeding mechanism, a container closing system, and an extraction module to transfer the filled and sealed containers to a storage rack.\n\nThe \u201cAE-PLC-MEMB\u201d is designed as a modular system, allowing users to easily understand and follow the sequence of operations.\n\nMain Components:\n\n- PLC Unit: Includes the CPU and all required I\/O modules necessary for the proper operation of the workstation.\n- Control Panel: Equipped with start\/stop buttons, emergency stop button, reset button, and indicator lights for monitoring the system status during operation.\n- Pneumatic Circuit: Contains all necessary solenoid valves, pressure regulation components, filters, and pneumatic actuators required to execute the different stages of the process.\n- Workstation: Made up of industrial-grade components typically used in rotary table systems, such as reed switches, presence sensors, capacitive and inductive sensors, DC motor, and a four-position rotary table.\n\nFunctional Sections:\n\n- Air Treatment System: Features a filter-regulator block with water trap and shut-off valve to control air supply. A dual-scale manometer is included to monitor system pressure.\n- Vessel Feed Section: Includes a vertical magazine for storing empty containers without caps. Two double-acting pneumatic cylinders allow the release of one container at a time, with independent flow regulators to adjust the speed of each actuator.\n- Container Displacement Section: A rotary table with four dedicated positions rotates containers through each processing stage. Rotation is driven by a DC motor.\n- Filling Section: Composed of two tanks \u2013 one as a water reservoir and the other supplying water to the containers. A submersible DC-powered pump, a siphon mechanism, and solenoid valves control the water flow. A capacitive sensor ensures containers are present before initiating the filling process, preventing overflow or accidental activation.\n- Lid Feeding and Container Closing Section: A vertical magazine holds the lids. A double-acting cylinder pushes the lids one by one into position. Using vertical and horizontal displacement actuators and a vacuum ejector with suction cup, the lid is placed and pressed onto the container for sealing.\n- Container Extraction Section: Equipped with pneumatic actuators and grippers to pick up the sealed containers and transfer them to a designated rack for storage.\n- Signal Tower: Displays system status using green, yellow, and red LED indicators.\n- Solenoid Valve Block: A pneumatic manifold with nine solenoid valves: eight 5\/2 monostable valves and one 3\/2 monostable valve.\n- Electrical Terminal Block: Provides access to all input\/output signals for manual testing. Color-coded terminals assist in identifying signal types, and each terminal is clearly labeled with its corresponding signal name.",
        "Specs": "- [AE-PLC-MEMB. Station](https:\/\/www.edibon.com\/en\/bottling-workstation?video_modal=on):\n\nThe \u201cAE-PLC-MEMB\u201d pneumatic station includes the following elements:\n\nUnit operation signal lights.\n\nPneumatic circuit:\n\n- Pneumatic actuators:\n\n- Two single acting pneumatic cylinders \u220520 x 50 mm stroke.\n- Pneumatic cylinder guide 10 mm stroke.\n- Pneumatic actuator without piston 150 mm stroke.\n- Two pneumatic guide cylinders 40 mm stroke with sliding bearing.\n- Venturi effect vacuum ejector 1\/8 outlet with 8 mm cup suction cup.\n- Double acting pneumatic clamps.\n- Adjustable double acting pneumatic rotary actuator with rotation capacity of 190\u00b0.\n- Eight monostable five-way solenoid valves with 1\/8 connection, 24 VDC.\n- Monostable three-way solenoid valve with 1\/8 connection 24 VDC, for the vacuum ejector.\n- 17 flow regulators.\n- Nine coils for pneumatic valves 24 VDC.\n- Two base plates for connection of five and four pneumatic solenoid valves 1\/8.\n- 6 mm diameter conduction hose.\n- Connecting fittings for 6 mm hose.\n\n- Air treatment unit:\n\n- Filter-regulator with water collector.\n- Pressure gauge with double scale indicator.\n- Shut-off valve.\n\nRotary table:\n\n- 350 mm diameter table.\n- Four supports for fixing the position of the container on the table.\n- DC stepper motor.\n- Dryve D8, stepper motor control system\/direction.\n- Zero point sensor for the motor.\n- Connection cables.\n\nContainer feeder:\n\n- Metraquilate tube \u220540 x \u220534.\n- Cylinder adapter for opening or closing the tube section. Attached to the piston rod of the 50 mm stroke pneumatic cylinder.\n- Guide for adapter. Fixed to the aluminum profile. Prevents the rotation of the previous adapter.\n- Pusher to prevent two containers from falling at the same time. Fixed to the pneumatic cylinder with 10 mm stroke guide.\n- Metraquilate tube fixing brackets.\n- Adapter for container detection sensor, fixed to the profile.\n- 20 Containers \u220532 x 50 mm high.\n\nCap feeder:\n\n- Slotted metraquilate tube for cap storage.\n- Cap pusher fixed to the pneumatic cylinder with 50 mm stroke.\n- Guide rail for the displacement of the pusher.\n- Lids of \u220533 and 8 mm thick.Extraction rail for containers.\n\nFilling system:\n\n- Two tanks to store water.\n- Two solenoid valves. One to operate the pump, and the other to allow the transfer of water from one tank to another.\n- 12 VDC submersible pump with a flow rate of 8 l\/min.\n- Adapter for pump attachment.\n- Siphon collector.\n- Aluminum siphon.\n\nSensors:\n\n- Four capacitive sensors:\n\n- Detection of container in feeder.\n- Detection of container to start filling.\n- Detection of cap in feeder.\n- Level gauge in tank.\n\n-  Two magnetic reed sensors.\n- 13 limit switch sensors.\n\nPLC Programming Software:\n\n- Programming software developed according to the standard IEC 61131 \u2013 3.\n- Compatible with Windows operating systems.\n- Five programming languages: Ladder Diagram (LD). Structured Text (ST). Instructions List (IL). Sequential Function Chart (SFC). Function Block Diagram (FBD).\n- Remote programming, service, and diagnostics.\n- Minimum program size.\n- Powerful debugging and monitoring tools.\n- Supports user created functions and function blocks.\n- Saves project files inside the PLC.\n- Examples and Quick Start Tutorial included.\n\nHMI Touch Screen Programming Software\n\n- Tools for Screen Creation: This Software is a tool designed for programming touch type screens. Thanks to this tool, suitable screens and images can be created and designed. It allows to transfer the program to the screen, load projects done from the terminal and print screens created.\n- Plenty of functions. Screens Creation: This Software has plenty of programming tools. Devices for visualizing texts, diagrams or data; drawing a button, graph, pilots. This Software allows to create functional screens adaptable to each application.\n- Drawing Functions: It can be done different programming elements through suitable icons and bitmaps.\n- Easy Operativity (Click and slip): A library of elements allows to program through the mouse, simply slipping an element and locating it in its place. (Click and Slip).\n- Easy creation of user libraries: User libraries can be registered and stored with suitable elements to be used in next projects.\n- Printing. The different screens of the project can be printed: It is possible to visualize a preliminary view. It is also possible to select the screens or configurations to be printed.\n- Easy use. Bitmaps Editor: There is a tool that allows to create, read and modify bitmaps in order to use them as screen programming elements. Suitable buttons created from images can be easily made.\n\nControl panel:\n\n- Mushroom head emergency stop push button switch.\n- Start and stop pushbuttons.\n- Switch for manual or automatic operation.\n- Light indicator.\n- Led stack light.\n- Terminal block to connect the individually identified inputs and outputs of the unit.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with manuals: Required services, Assembly and Installation, Control software, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Introduction to Flexible Manufacturing System (FMS).\n- Introduction to pneumatics and electro-pneumatics.\n- Pneumatic application configuration.\n- Introduction to pneumatic control.\n- Study of the detection sensors.\n- Manual control of a rotary table.\n- Automatic control of a rotary table.\n- Example of industrial application.",
        "Url": "edquip.co\/en\/edibon\/mechatronics-bottling-workstation",
        "Page title": "Bottling Workstation",
        "Page description": "Bottling Workstation, for technical training. Request your quotation today! Free price estimations, suitable for colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Gases"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1050 x 720 x 945 mm approx.  (41,33 x 28,34 x 37,20 inches approx.).",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "60 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Bottling Workstation\/1751445017_AEL-PLC-MEMB.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/yn2SUeBHZhs",
        "Main category": "Mechatronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-578835",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-A",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Actuators Unit",
        "Description": "The Automotive Actuators Unit, \u201cAV-A\u201d, is a hands-on training solution designed to teach the operation and functionality of automotive actuators commonly found in modern vehicles.\n\nThe \u201cAV-A\u201d unit includes real-world automotive components and actuators that allow students to carry out practical exercises aimed at understanding the principles of automotive actuator technology and control systems.\n\nThis unit covers essential actuator applications, including engine ignition systems, DC electrical systems, motor-driven components, solenoids, and electromagnetic devices used in today\u2019s cars.\n\nEach actuator circuit in the unit is electrically isolated to allow students to study each function independently. All actuator circuits include clearly marked 2 mm lab socket connectors for easy and safe signal access during experiments.\n\nThe \u201cAV-A\u201d unit can function independently, but it also offers the possibility of integration with the \u201cAV-ECD\u201d Automotive Electronic Control Device Unit, enabling control via an actual automotive ECU.\n\nThe system supports a wide range of signal types, including analog, digital, PWM (Pulse Width Modulation), and CAN bus communication, providing students with real-world experience in automotive signal processing and actuator control.",
        "Specs": "- [AV-A. Unit](https:\/\/www.edibon.com\/en\/automotive-actuators-unit):\n\n- Engine management system:\n\n- Ignition coil.\n- Spark plug.\n- Fuel injection solenoid.\n- Exhaust gas recirculation (EGR) valve.\n- Electronic throttle valve.\n- Canister-purge solenoid valve.\n- Fuel pump.\n\n- Motorized systems:\n\n- DC motor:\n\n- Potentiometer to measure the DC motor position.\n- Motor rotation control switch.\n- Knob to adjust the DC motor position.\n- Knob to adjust the DC motor speed.\n- CAN bus control circuit.\n\n- Stepper motor:\n\n- Motor supply: 5 VDC.\n- Motor power: 10 W.\n- Three configurable speeds.\n- Motor control in both directions.\n\n- Cooling fan:\n\n- Motor supply: 12 VDC.\n- Speed cooling: PWM (pulse width modulation).\n\n- Wiper washer pump: Motor supply: 12 VDC.\n- Car lighting system:\n\n- Car emergency pushbutton and car emergency lights.\n- Direction switch and direction indicator lights.\n- Brake push-button and brake lights.\n- Open-door push-button and open-door indicator light.\n\n- Car horn system: Buzzer.\n- 12 VDC solenoid valve: ON \/ OFF control.\n- PWM control (pulse width modulation).\n- 12 VDC electromagnet: ON \/ OFF control.\n- DC power supply: Circuit with an electric car key-switch to supply 12 VDC to the circuit\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Actuators involved in the engine ignition systems.\n- Function of the exhaust gas recirculation (EGR) valve.\n- Understanding the function of the throttle valve or electronic throttle valve.\n- Function of the canister purge solenoid valve.\n- Function of the fuel pump and injector.\n- Motorized systems in the automotive field.\n- Cooling fan speed control with PWM signal.\n- Wiper washer pump flow control.\n- Operation of the car horn.\n- Function of the electromagnet.\n- Car lighting system control.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/automotive-actuators-unit",
        "Page title": "Automotive Actuators Unit",
        "Page description": "Automotive Actuators Training Equipment. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "640 x 320 x 1000 mm approx.  (25.2 x 12.6 x 39.4 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "50 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Actuators Unit\/1751445890_AV-A.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-788682",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "ECESC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Focusing Solar Energy Collector",
        "Description": "The Computer Controlled Focusing Solar Energy Collector (ECESC) demonstrates the fundamental principles of a parabolic trough system for solar energy collection.\n\nThis unit is equipped with a highly polished stainless steel parabolic reflector mounted on a mobile base. It can be easily adjusted both horizontally and vertically to focus solar radiation on the energy collector from different angles. The reflector is fitted with a pyranometer to accurately measure incident solar radiation.\n\nThe system includes five interchangeable energy collectors of varying sizes, enabling the analysis of different concentration ratios. One collector features a special black coating to evaluate its performance, while each collector is equipped with a \u201cJ\u201d type temperature sensor for precise temperature measurement. Additionally, an insulating glass collector with vacuum coating is provided to study the benefits of a shielded collector.\n\nThis computer-controlled solar collector unit is fully integrated with the EDIBON Computer Control System (SCADA), which includes: the unit itself, a Control Interface Box, a Data Acquisition Board, and advanced software packages for computer control, data acquisition, and data management, allowing seamless monitoring and control of all process parameters.",
        "Specs": "- [ECESC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-focusing-solar-energy-collector):\n\n- Bench-top unit.\n- Anodized aluminum frame and panels made of painted steel.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Parabolic reflector made of polished stainless steel supported on a mobile base by bearings on a movable base with 360\u00b0 rotation.\n- Rotation angle sensor to know the position of the cylindrical collector.\n- Six solar collectors:\n\n- Five copper cylinders of different size to study different concentration ratios:\n\n- Cylinder of 28 mm.\n- Cylinder of 22 mm.\n- Cylinder of 15 mm.\n- Cylinder of 10 mm.\n- Cylinder with black coating of 15 mm.\n\n- Insulating glass cylinder to study the effect of a shielded collector.\n- Each one includes a \u201cJ\u201d type temperature sensor to measure the temperature of the collector\n\n- Two lamps to simulate solar radation with adjustable solar power.\n- \u201cJ\u201d type temperature sensor to measure ambient temperature.\n- Solar radiation sensor (pyranometer) to measure the incident solar radiation.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- ECESC\/CIB. Control Interface Box.\n- ECESC\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Operation of a cylindrical solar collector.\n- Study of different energy concentration levels depending on the size of the collector.\n- Comparison of the energy concentration levels of an unshielded cylinder and a shielded cylinder.\n- Measurement of maximum temperatures reached by the energy collectors.\n- Optimization and adjustment of a parabolic trough to obtain high concentration levels.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-focusing-solar-energy-collector",
        "Page title": "Computer Controlled Focusing Solar Energy Collector",
        "Page description": "Computer Controlled Focusing Solar Energy Collector. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: 850 x 750 x 1000 mm approx.  (33.46 x 29.52 x 39.36 inches approx.)  Control-Interface Box:   490 x 330 x 310 mm approx.  (19.29 x 12.99 x 12.2 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "50 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Focusing Solar Energy Collector\/1751288220_ECESC.jpg",
        "Video link": "",
        "Main category": "Solar Thermal Training System"
    },
    {
        "Edquip ID": "PL-418120",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-AC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Auxiliary Components Unit",
        "Description": "The Automotive Auxiliary Components Unit, \u201cAV-AC\u201d, offers a comprehensive and practical learning experience for acquiring advanced knowledge of modern electronic and electrical systems used in the automotive industry.\n\nAll sensors and actuators featured in the \u201cAV-AC\u201d unit are installed on individual mounting plates that include the component name, its standardized symbol, and 4 mm lab jacks for easy connection. These are real automotive components that can be linked simultaneously to the electronic control unit to simulate real-world operating conditions and system interaction.\n\nComponents can be mounted on the included vertical support frame, allowing for individual testing or complete system integration with the ECU for realistic automotive diagnostics and operation.\n\nThe included sensors and actuators cover a variety of essential automotive auxiliary systems: car lighting systems, windshield wiper and washer systems, power door lock systems, digital instrument panels, electric window systems, ultrasonic parking systems, and more. Each part is a genuine automotive-grade sensor or actuator.\n\nSignal input and output\u2014whether for measurements or control\u2014is performed using analog and digital signals, PWM (Pulse Width Modulation), and CAN bus protocol, reflecting real vehicle signal communication.\n\nAdditionally, the \u201cAV-AC\u201d unit incorporates a fault generation module capable of simulating up to twelve different system faults, such as interruptions in the CAN bus network or errors in the 12 VDC power supply.\n\nThe \u201cAV-AC\u201d system comes with a comprehensive set of practical exercises designed to help students gain a solid understanding of how electronic and electric components function in today\u2019s automotive technology.",
        "Specs": "- AV-AC. Unit:\n\n- Electronic control system:\n\n- Electronic control unit.\n- Wiring from electronic control unit to each component.\n- Fuses and relays box:\n\n- Car GEM module.\n- Operating voltage: 12 VDC.\n\n- OBDII diagnosis connector.\n\n- Sensor and actuator circuits:\n\n- Power supply components:\n\n- 12 VDC power supply to feed the system.\n- Car ignition switch.\n\n- Power door locks system:\n\n- Remote car key.\n- Front left and right electronic door locks.\n- Rear left and right rear electronic door locks.\n- Trunk electronic door lock.\n- Electronic door lock of the fuel tank cap.\n- Trunk door push-button.\n\n- Car lightning system:\n\n- Light sensor.\n- Front lights:\n\n- Automatic headlamp leveling system.\n- Left and right low beam headlights.\n- Left and right high beam headlights.\n- Daytime running lights.\n- Left and right front turn signals.\n- Left and right side turn signals.\n- Left and right front fog lights.\n\n- Rear lights:\n\n- Left and right rear turn signals.\n- Rear fog light.\n- Left and right rear brake lights.\n- Third brake light.\n- Reverse light.\n- License plate lights.\n\n- Auxiliary lights:\n\n- Interior car light.\n- Trunk light.\n\n- Car lightning system:\n\n- Rear-view mirror control switch.\n- Adjustable and heated lateral rear-view mirror.\n- Interior rear-view mirror with auto-dimming.\n\n- Car instrument panel with controls:\n\n- Tachometer.\n- Speedometer.\n- Fuel gauge.\n- Car lightning system indicators.\n- Battery charge warning indicator light.\n- Oil-pressure warning indicator light.\n- Light control switch:\n\n- Low beam headlights.\n- High beam headlights.\n- Front fog lights switch.\n- Rear fog light switch.\n\n- Steering wheel with controls:\n\n- Wiper washer control.\n- Horn push-button.\n- Emergency lights push-button.\n- Reverse switch to activate the reverse light.\n- Brake switch to activate the brake lights.\n- Turn signals control.\n\n- Wiper washer system:\n\n- Rain sensor.\n- Front and rear wiper washer motor.\n- Washing water pump.\n\n- Car audio system:\n\n- Car stereo radio.\n- Car stereo radio control panel.\n- Two 12 VDC speakers.\n\n- Car electric windows system:\n\n- Left and right front electric windows motor.\n- Electric windows control switches.\n- CAN bus communication.\n\n- Ultrasonic car park system:\n\n- Four ultrasonic emitter and receiver units.\n- Ultrasonic car control unit.\n- 12 VDC speaker.\n\n- Fuel level sensor.\n- 12 VDC car socket.\n- Heated rear window simulator.\n\n- Test module to check the operation of each sensor and actuator working individually:\n\n- Attached to the frame of the unit.\n- 4 mm lab jack with the 12 VDC power supply.\n- 4 mm lab jack with the communication terminals of the electronic control unit.\n\n- Fault generation module:\n\n- Attached to the frame of the unit.\n- Generates twelve faults in the operation of different sensors and actuators and the communication between them and the electronic control unit.\n- The faults are generated through toggle switches.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Familiarization with electronic control unit.\n- Lighting elements and light sensor.\n- Function and activation of the central locking system control components.\n- Front wiper washer and rain sensor.\n- Function of the adjustable and heated lateral rear-view mirror.\n- Electrical window lifters system activation.\n- Ultra-sonic parking system.\n- Reverse light and switch.\n- Brake light and switch.\n- Car steering wheel control functions.\n- Instrumentation panel functions.\n- Activation and control of the lighting system.\n- Function of the adjustable rear-view mirror with auto-dimming.\n- Car audio system.\n- Fault insertion and diagnosis.\n- Individual testing actuators and sensors.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/automotive-auxiliary-components-unit",
        "Page title": "Automotive Auxiliary Components Unit",
        "Page description": "Automotive Auxiliary Componponents Training Equipment. Request your quotation today! Free price estimations, suitable for technical colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1150 x 2500 x 2200 mm approx.  (35.43 x 61.02 x 70.86 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "150 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Auxiliary Components Unit\/1751446966_AV-AC.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-844450",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-MRPC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": null,
        "Name": "Manual Reactive Power Compensation Application",
        "Description": "The Manual Reactive Power Compensation Application, \u201cAEL-MRPC\u201d, developed by EDIBON, is designed to analyze the impact of reactive power consumption in AC electrical systems and to explore the techniques used to improve energy efficiency through power factor correction.\n\nIn many industrial electrical applications, the presence of reactive power is necessary for the proper functioning of the circuit. While active (real) power supplies the energy needed to perform useful work \u2014such as running motors, lighting, or heating\u2014 reactive power plays a critical role in regulating voltage and ensuring efficient power transfer through the grid and distribution lines.\n\nThe power factor (PF) is defined as the ratio of active power (in watts) to apparent power (in volt-amperes), and it reflects how effectively electrical power is utilized. A power factor closer to 1 indicates higher efficiency. Since apparent power combines both active and reactive components, reducing reactive power brings the power factor closer to 1 without affecting the real power \u2014thereby enhancing the overall efficiency of the system.\n\nHowever, despite its drawbacks, reactive power is essential to maintain voltage levels across the electrical network. Insufficient reactive power leads to voltage instability and hinders the delivery of active power, while an excess of reactive power can result in overheating, unwanted voltage drops, and energy losses along transmission lines.\n\nIn practical scenarios, most electrical loads are inductive in nature, and thus they require reactive power to operate. Installing capacitors or capacitor banks in parallel with the load provides local reactive power, reducing the amount that must travel through the distribution network. This also minimizes the phase angle between voltage and current, improving the power factor.\n\nThe \u201cAEL-MRPC\u201d application incorporates different types of switchable loads (resistive, inductive, and capacitive) to facilitate comprehensive study of power factor correction techniques.\n\nIn addition, the system includes a network analyzer for real-time measurement of key electrical parameters such as current, voltage, frequency, power, and power factor. These measurements are essential for accurate evaluation and implementation of reactive power compensation strategies.",
        "Specs": "- [AEL-MRPC. Application:](https:\/\/www.edibon.com\/en\/manual-reactive-power-compensation-application):\n\nThe \u201cAEL-MRPC\u201d application includes the following elements:\n\nN-ALI01. Industrial Main Power Supply Module.\n\n- Supply voltage: 400 VAC, 3PH + N.\n- ON \/ OFF removable key.\n- Output voltage connections:\n\n- Three-phase + Neutral: 400 VAC.\n- Single-phase: 230 VAC.\n\n- Three-phase supply hose with IP44 3PN+E 32 A 400 V connecting plug.\n- Differential magnetothermal 4 poles, 25 A, 30 mA AC 6 KA.\n- Emergency stop push-button.\n\nN-REFT. Three-phase Commutable Resistor Load Module.\n\n- Nominal voltage: 400 VAC.\n- Resistance: 3 x 150 Ohm.\n- Nominal current: 1.6 A.\n- Manual switch to turn ON \/ OFF resistors.\n- Fuses: 3 x 2 A.\n- Terminals:\n\n- Four input terminals (3PH + N).\n- Four output terminals (3PH + N).\n\nN-CAR18\/C. Capacitors for Equivalent Circuit of an Electric Line Module.\n\n- Nominal voltage: 230 VAC.\n- Capacitors: 2 x (7 x 1 \u00b5F).\n\nN-INDT. Three-phase Commutable Inductive Load Module.\n\n- Nominal voltage: 400 VAC.\n- Inductance: 1.4 H.\n- Nominal current: 1.6 A.\n- Manual switch to turn ON \/ OFF inductances.\n- Fuses: 3 x 2 A.\n- Terminals:\n\n- Four input terminals (3PH + N).\n- Four output terminals (3PH + N).\n\nN-MED60. Network Analyzer Module.\n\n- ON \/ OFF switch.\n- Supply voltage: 230 VAC.\n- Fuses: 3 x 10 A.\n- Input terminals: three-phase input connection with neutral to the measurement point.\n- Output terminals: three-phase output connection with neutral to the measurement point.\n- Network analyzer display. It shows:\n\n- Active, reactive and apparent power.\n- Active, reactive and apparent energies.\n- Lines and phase currents:\n\n- IL-N: 0.03 to 10 A.\n- IL-L: 0.09 to 10 A.\n\n- Line and phase voltages:\n\n- VL-N: 160 V to 480 V.\n- VL-L: 277 V to 830 V.\n\n- Frequencies: 65 to 458 Hz \u00b1 0.1 Hz.\n- Power factor for resistive, inductive and capacitive loads.\n\n- Cables and Accessories, for normal operation.\n- This unit is supplied with the following manuals: Required services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Wiring of resistive, inductive and capacitive loads.\n- Measurement of the apparent, active and reactive powers consumed by a receiver in a pure resistive circuit.\n- Measurement of the apparent, active and reactive powers consumed by a receiver in a pure inductive circuit.\n- Measurement of the apparent, active and reactive powers consumed by a receiver in a pure capacitive circuit.\n- Measurement of the apparent, active and reactive powers consumed by a receiver in a RL circuit.\n- Measurement of the power factor of a receiver in a RL circuit.\n- Calculation and wiring of the capacitive load needed to carry out an adequate power factor compensation.\n- Comparison of apparent, active and reactive power after power factor compensation.\n- Measurement of power factor after the compensation.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/manual-reactive-power-compensation-application",
        "Page title": "Manual Reactive Power Compensation Application",
        "Page description": "Manual Reactive Power Compensation Application. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": false,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": "AEL-MRPC:  1380 x 840 x 600 mm approx.  (54.33 x 33.07 x 23.62 inches approx.).",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "80",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Manual Reactive Power Compensation Application\/1751365929_AEL-MRPC.jpg",
        "Video link": "",
        "Main category": "Engineering Laboratory Equipment"
    },
    {
        "Edquip ID": "PL-707105",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-EC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Fundamental Electronic Circuits Unit",
        "Description": "The Automotive Fundamental Electronic Circuits Unit, \u201cAV-EC\u201d, offers a practical introduction to automotive electronics through a selection of common circuits used in modern vehicles.\n\nThe circuits in the \u201cAV-EC\u201d unit focus on key automotive functions, such as DC motor power supply and speed control, lamp light intensity regulation, automotive DC power supply, pulse generator circuits, spark generator circuits with contact breakers, transistorized spark generators using Hall effect sensors, and semi-controlled and fully electronic spark generation systems. Each circuit in the unit is isolated to facilitate understanding of individual functions. Test points for each circuit are accessible via standard 2 mm lab sockets for easy measurements and diagnostics.\n\nThe \u201cAV-EC\u201d unit also includes built-in faults that can be introduced to various components, enabling students to identify and analyze typical electronic failures found in automotive systems.\n\nThis unit comes with a comprehensive set of practical exercises designed to help students grasp the operation of fundamental electronic circuits used in the automotive industry.",
        "Specs": "- [AV-EC. Unit](https:\/\/www.edibon.com\/en\/automotive-fundamental-electronic-circuits-unit):\n\n- DC motor circuits:\n\n- DC motor power supply.\n- DC motor speed control.\n\n- Lamp circuits:\n\n- Lamp resistance.\n- Light intensity variation.\n\n- DC power supply: Circuit with a car key-switch to supply 12 VDC to the circuit.\n- Electronic ignition circuits:\n\n- Adjustable astable multivibrator circuit with 555IC.\n- Camshaft and crankshaft sensor emulator using electrical signals.\n- Spark generator system controlled electronically and Hall sensor.\n\n- Protoboard plate:\n\n- Protoboard plate for experimental circuit mounting without soldering.\n- Components to mount an adjustable astable multivibrator circuit with 555IC\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nDC motor circuits:\n\n- Switching the DC motor power supply.\n- Adjusting the DC voltage to control the motor speed.\n- Analysis of a DC motor power supply fault.\n\nLamp circuits:\n\n- Lamp resistance.\n- Light intensity variation.\n\nDC power supply:\n\n- Circuit with a car key-switch to supply 12 VDC to the circuit.\n\nElectronic ignition circuits:\n\n- Study of the function of the 555 integrated circuit (timer).\n- Analysis of a 555 timer fault.\n- Spark generator system controlled electronically and Hall sensor.\n- Analysis of a faulty spark generator system controlled electronically and hall sensor.\n- Spark generator system totally electronically controlled.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/automotive-fundamental-electronic-circuits-unit",
        "Page title": "Automotive Fundamental Electronic Circuits Unit",
        "Page description": "Automotive Fundamental Electronic Circuits Training Equipment. Request your quotation today! Free price estimations, suitable for colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Introductory Technical Education"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "640 x 320 x 330 mm approx.  (25.19 x 12.59 x 12.99 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "10 Kg approx",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Fundamental Electronic Circuits Unit\/1751447563_AV-EC.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-796313",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-ECC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Engine Cooling Circuit Unit",
        "Description": "The Automotive Engine Cooling Circuit Unit, \u201cAV-ECC\u201d, offers a practical introduction to the electronic systems used in modern automotive engine cooling.\n\nThe components included in the \u201cAV-ECC\u201d unit focus on key functions such as heat exchanger operation, coolant circuit management, temperature sensors, and the electronic control unit.\n\nThis unit comes with a variety of practical exercises designed to help students understand the operation and interaction of components within automotive engine cooling systems.",
        "Specs": "- [AV-EC. Unit](https:\/\/www.edibon.com\/en\/automotive-fundamental-electronic-circuits-unit):\n\n- Power supply components:\n\n- Power supply: Operating voltage: 12 VDC.\n-  Car ignition switch.\n\n- Control components:\n\n- Electronic control unit.\n- Control switch.\n- Tank level switch.\n- Power on indicator for the actuators.\n- Temperature sensors:\n\n- One temperature sensor in each circuit stage.\n- Temperature meter for the engine and the different circuit stages.\n\n- Coolant circuits:\n\n- Circuit to cool the engine.\n- Circuit to heat the passenger cabin.\n\n- Actuator components:\n\n- Simulated engine.\n- Engine cooling fan.\n- Passenger cabin fan.\n- Engine coolant pump.\n- Solenoid valve to activate the circuit to heat the passenger cabin\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Function of the components of the main coolant circuit.\n- Function of the components of the auxiliary circuit to heat the passenger cabin.\n- Automatic activation of the engine cooling fan.\n- Coolant temperature sensor signal from the engine.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/automotive-engine-cooling-circuit-unit",
        "Page title": "Automotive Engine Cooling Circuit Unit",
        "Page description": "Automotive Engine Cooling Circuit Training Equipment. Request your quotation today! Free price estimations, suitable for technical colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: 1550 x 700 x 1500 mm approx.  (61.02 x 27.55 x 59.05 inches approx.) Control-Interface Box:  640 x 320 x 330 mm approx.  (25.19 x 12.59 x 12.99 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "115 Kg approx",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Engine Cooling Circuit Unit\/1751448142_AV-ECC.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-939118",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-ECD",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Electronic Control Device Unit",
        "Description": "The Automotive Electronic Control Device Unit, \u201cAV-ECD\u201d, offers a practical solution for learning about electronic control units (ECUs) in modern vehicles.\n\nThe \u201cAV-ECD\u201d unit includes an Electronic Control Unit configured to operate with the emulated sensors and actuators within the system, and it can also integrate with other EDIBON units such as the Automotive Sensors Unit, \u201cAV-S\u201d, and the Automotive Actuators Unit, \u201cAV-A\u201d.\n\nThis unit features a variety of sensors and actuators simulating real automotive engine management components, including knock sensors, engine coolant sensors, Lambda sensors, camshaft position sensors, turbocharger boost control solenoids, electronic throttle valves, and engine cooling fans.\n\nCommunication between the ECU and connected components supports CAN and LIN network protocols, as well as digital and analog signals, depending on the sensor and actuator characteristics.\n\nAll sensor and actuator circuits are isolated for independent study, with multiple test points accessible through 2 mm standard lab sockets.\n\nFault simulation is available via toggle switches on input and output circuits, with faults indicated by the malfunction indicator lamp (MIL). The sensors and actuators can operate individually or in combination to replicate real-world scenarios.\n\nThe \u201cAV-ECD\u201d unit includes a comprehensive set of practical exercises, enabling students to understand the functioning, communication, and diagnostics of automotive electronic control units.",
        "Specs": "- [AV-ECD\u201d. Unit](https:\/\/www.edibon.com\/en\/automotive-electronic-control-device-unit):\n\n- Electronic control unit (ECU):\n\n- Communication with sensors and actuators through CAN or LIN network protocols or through digital or analog signals.\n- Allows self-diagnosis of the ECU to detect faults.\n- Allows ECU reprogramming with two engine configurations: naturally aspirated and turbocharged.\n\n- Emulated sensor circuits:\n\n- Manifold absolute pressure sensor.\n- Accelerator pedal position sensor.\n- Intake air temperature sensor.\n- Coolant temperature sensor.\n- Exhaust gas recirculation (EGR) temperature sensor.\n- Oxygen or Lambda sensor.\n- Mass air flow sensor.\n- Crankshaft and camshaft position sensors.\n- Fuel tank pressure sensor.\n\n- Emulated actuator circuits:\n\n- Canister-purge solenoid valve.\n- Turbocharger boost control solenoid.\n- Exhaust gas recirculation (EGR) valve.\n- Spark plug.\n- Fuel injector.\n- Electronic throttle valve.\n- Engine refrigeration fan.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- ECU self-diagnosis to detect faults.\n- Absolute pressure sensor signal.\n- Function of the fuel tank pressure sensor and the canisterpurge solenoid valve.\n- Coolant temperature sensor signal.\n- Function of the exhaust gas recirculation (EGR) temperature sensor.\n- Function of the accelerator pedal position sensor.\n- Oxygen or Lambda sensor signal.\n- Mass air flow sensor signal.\n- Intake air temperature sensor signal.\n- Crankshaft position sensor signal.\n- Camshaft position sensor signal.\n- Turbocharger boost solenoid control signal.\n- Function of the exhaust gas recirculation (EGR) valve.\n- Understanding the electronic throttle valve function.\n- Function of the fuel pump.\n- Spark plug control signal.\n- Fuel injector control signal.\n- Engine cooling fan control signal.\n- Reprogram the ECU with the atmospheric engine configuration.\n- Reprogram the ECU with the turbocharged engine configuration.",
        "Url": "edquip.co\/en\/edibon\/automotive-electronic-control-device-unit",
        "Page title": "Automotive Electronic Control Device Unit",
        "Page description": "Automotive Electronic Control Device Unit Training Equipment. Request your quotation today! Free price estimations, suitable for colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "640 x 320 x 330 mm approx.  (25.19 x 12.59 x 12.99 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "12 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Electronic Control Device Unit\/1751451340_AV-ECD.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-444213",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-ELC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Fundamental Electrical Circuits Unit",
        "Description": "The Automotive Fundamental Electrical Circuits Unit, \u201cAV-ELC\u201d, provides a practical solution for learning about basic electrical circuits commonly used in modern automotive systems.\n\nThe \u201cAV-ELC\u201d includes a variety of circuits focused on essential automotive electrical functions, such as power supply circuits, rectifier circuits, lamp circuits, resistor circuits, capacitor circuits, and logic gate circuits. These circuits are designed to offer a comprehensive introduction to automotive electrical systems.\n\nEach circuit in the unit is isolated to facilitate understanding of its individual operation. Multiple test points are accessible via 2 mm standard lab sockets for easy measurement and analysis.\n\nSeveral circuits allow the simulation of component faults through toggle switches, helping students identify and diagnose common electrical failures.\n\nThe \u201cAV-ELC\u201d unit includes a series of practical exercises designed to help students grasp how fundamental automotive electrical circuits operate in real-world applications.",
        "Specs": "- [AV-ELC\u201d. Unit](https:\/\/www.edibon.com\/en\/automotive-fundamental-electrical-circuits-unit):\n\n- Power supply circuit:\n\n- 12 VCA power supply.\n- 12 VCC power supply.\n\n- Resistive elements circuit: Circuit of logarithmic potentiometers, linear potentiometers and fixed resistors with the following configurations available: in series, in parallel and mixed.\n- Lighting elements circuit:\n\n- Different lamp circuits with the following configurations available: in series and in parallel.\n- LED diode.\n\n- Relay and stroke end circuit:\n\n- Relay circuit with a 12 VDC coil and three contacts: common, normally open and normally closed.\n- End of stroke for relay control.\n\n- Capacitive elements circuit:\n\n- Capacitor with filter function.\n- Capacitor with energy storage function.\n\n- Rectifier circuit: Half wave and full wave rectifier circuit.\n- Temporization circuit: Astable multivibrator circuit with 555IC\n- Adjustable voltage divider circuit.\n- Logic gates circuit: Circuit for mounting the following logic gates: NOT, AND, NAND, OR, NOR, XOR and XNOR.\n- Protoboard plate:\n\n- Protoboard plate to assemble experimental circuits without soldering.\n- Components to mount a monostable multivibrator or an astable multivibrator circuit with 555IC.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nPower supply circuits:\n\n- Waveform study in AC.\n- Study of DC signals.\n- Study of faults in the waveform circuit.\n\nLoad circuits:\n\n- Resistance measurements.\n- Resistance association.\n- Voltage divider ratio.\n- Study of faults in the resistance circuit.\n- Resistance of a lamp.\n- Light intensity variation.\n- Turn signals temporization.\n\nCapacitive elements circuit:\n\n- Capacitors measurements.\n- Capacitors associations.\n- Study of a low-pass filter.\n- Study of a high-pass filter.\n- Frequency response of a low-pass filter.\n- Frequency response of a high-pass filter.\n\nRectifier circuit:\n\n- Study of the diode function.\n- Half wave rectifier.\n- Full wave rectifier.\n- Study of faults in rectifier circuits.\n- Full wave rectifier with filter.\n\nLogic gates circuit:\n\n- Study the operation with logic gates: NOT, AND, NAND, OR, NOR, XOR and XNOR.\n\nRelay circuit:\n\n- Study the relays terminals.\n- Power supply of a DC relay coil.\n- Control of a relay with a stroke end.\n- Study of relay faults.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/automotive-fundamental-electrical-circuits-unit",
        "Page title": "Automotive Fundamental Electrical Circuits Unit",
        "Page description": "Automotive Fundamental Electrical Circuits Training Equipment. Request your quotation today! Free price estimations, suitable for colleges and universitiess.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Introductory Technical Education"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "640 x 320 x 330 mm approx.  (25.19 x 12.59 x 12.99 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "10 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Fundamental Electrical Circuits Unit\/1751452309_AV-ELC.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-121364",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-S",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Sensors Unit",
        "Description": "The Automotive Sensors Unit, \u201cAV-S\u201d, offers a practical solution to help students become familiar with sensors used in modern automotive systems.\n\nThe \u201cAV-S\u201d unit includes real sensors and components commonly found in today\u2019s vehicles. It comes with a variety of practical exercises designed to teach students how automotive sensors operate in real applications.\n\nSensors included focus on critical engine management measurements such as mass air flow sensors, Lambda sensors, temperature sensors, oil pressure sensors, and accelerator pedal position sensors. Additionally, sensors for vehicle stability, parking assistance, lighting, and safety systems are also included.\n\nAll sensor circuits in the unit are isolated to enable independent study, with all connector points accessible through 2 mm standard lab sockets for easy testing.\n\nThe \u201cAV-S\u201d unit can operate independently or integrate with the Automotive Electronic Control Device Unit, \u201cAV-ECD\u201d, to provide real sensor data to an ECU.\n\nSensor communications use digital, analog, and PWM signals, along with CAN bus and LIN bus network protocols, reflecting real automotive communication standards.",
        "Specs": "- [AV-ELC\u201d. Unit](https:\/\/www.edibon.com\/en\/automotive-fundamental-electrical-circuits-unit):\n\n- Power supply and signal conditioning circuits.\n- Motor sensors:\n\n- Oxygen or Lambda sensor.\n- Manifold absolute pressure sensor.\n- Knock sensor.\n- Throttle-valve position sensor.\n\n- Inlet air admission sensors:\n\n- Outdoor temperature sensor.\n- Inlet air temperature sensor.\n- Air flow sensor.\n\n- Safety sensors:\n\n- Inertia switch.\n- Yaw-rate and transverse acceleration sensor.\n\n- External conditions sensors:\n\n- Rain and light intensity sensor.\n- Ultrasonic proximity sensor.\n\n- Hall-efect and inductive sensors:\n\n- Camshaft toothed disc:\n\n- 12 VDC motor.\n- Adjustable speed by pulse width modulation PWM.\n\n- Inductive sensor (also called phase sensor).\n- Hall effect sensor.\n\n- Refrigerant level and temperature sensors:\n\n- Methacrylate tank with 2.5 l capacity.\n- Refrigerant level switch.\n- Refrigerant temperature sensor.\n\n- Accelerator pedal position sensor.\n- Steering angle sensor.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Use of the crankshaft sensor to measure the phase of the crank.\n- Use of the Hall effect camshaft sensor to measure the rpm of the engine.\n- Accelerator pedal position sensor signal.\n- Function of the refrigerant level switch.\n- Manifold absolute pressure sensor signal.\n- Function of the inertia switch in the safety system.\n- Understanding the Lambda sensor reading.\n- Calibration of an accelerator pedal position sensor signal.\n- Understanding the knock sensor reading.\n- Mass air flow sensor signal.\n- Calibration of a throttle-valve potentiometer.\n- Differences between the inlet air temperature sensor, refrigerant temperature sensor and outdoor temperature sensor.\n- Function of the light intensity sensor signal.\n- Understanding of the ultrasonic proximity sensor.\n- Function of the transverse acceleration sensor signal in the electronic stability program, ESP.\n- Understanding the steering angle sensor reading.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/automotive-sensors-unit",
        "Page title": "Automotive Sensors Unit",
        "Page description": "Automotive Sensors Unit Training Equipment. Request your quotation today! Free price estimations, suitable for technical colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "640 x 320 x 1000 mm approx.  (25.2 x 12.6 x 39.4 inches apporx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "50 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Sensors Unit\/1751452902_AV-S.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-331543",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-WW",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Wiper Washer Unit",
        "Description": "The Automotive Wiper Washer Unit, \u201cAV-WW\u201d, offers a practical solution for learning about the key components of modern automotive wiper washer systems.\n\nThe \u201cAV-WW\u201d includes essential components such as the windshield wiper motor mechanism, rear wiper motor mechanism, washer liquid circuit, and wiper washer control switch.\n\nThis unit features a variety of practical exercises designed to help students understand the operation and functionality of wiper washer system components used in today\u2019s vehicles.",
        "Specs": "- [\"AV-WW\u201d. Unit](https:\/\/www.edibon.com\/en\/automotive-fundamental-electrical-circuits-unit):\n\n- Power supply components:\n\n- Power supply: Operating voltage: 12 VDC.\n- Car ignition key.\n\n- Wiper washer tank components:\n\n- Front wiper washer tank:\n\n- 3 l of capacity.\n- Wiper washer tank level switch.\n\n- Rear wiper washer tank:\n\n- 1.5 l of capacity.\n- Wiper washer tank level switch.\n\n- Control components:\n\n- Electronic control equipment.\n- Rain sensor.\n- Wiper washer control switch.\n- Lights indicators:\n\n- Power on indicator for every motor.\n- Wipers washer tanks level indicator.\n\n- Actuator components:\n\n- Front wiper washer washing water pump.\n- Rear wiper washer washing water pump.\n- Front wiper washer motor.\n- Front wiper washer nozzles.\n- Front wiper washer motor transmission and linkage.\n- Rear wiper washer motor.\n- Rear wiper washer nozzles.\n- Rear wiper washer motor transmission and linkage.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- - Operating modes and positions of the wiper washer control switch.\n- Front wiper washer motor transmission and linkage operation.\n- Rear wiper washer motor transmission and linkage operation.\n- Rear wiper washer fluid circuit of the rear windshield washer system.\n- Automatic activation of the wipers with rain sensor.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/automotive-wiper-washer-unit",
        "Page title": "Automotive Wiper Washer Unit",
        "Page description": "Automotive Wiper Washer Unit Training Equipment. Request your quotation today! Free price estimations, suitable for technical colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1400 x 900 x 850 mm approx.  (55.11 x 35.43 x 33.46 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "50 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Wiper Washer Unit\/1751453427_AV-WW.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-599029",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-GE",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Electric Generation Unit",
        "Description": "The Automotive Electric Generation Unit, \u201cAV-GE\u201d, designed by EDIBON, offers a practical solution to learn about the key components used in modern automotive electrical circuits.\n\nThe components of the \u201cAV-GE\u201d focus on electrical energy generation and automobile battery charging systems.\n\nThis unit features an engine and generator assembly connected via a belt and pulley system, replicating actual automobile operation. The generator is driven by an electric motor simulating a car\u2019s internal combustion engine. The electrical circuit incorporates a 12 V automotive battery as the energy storage component.\n\nAdditionally, the \u201cAV-GE\u201d includes an instrument panel with an electric key switch and warning lights that activate during common automotive electrical faults: generator malfunction indicator (GEN-L), battery or electrical fault indicator (BATT), and malfunction indicator lamp (MIL).\n\nThe system also has an accessible fuse and relay block, enabling hands-on interaction with circuit protection and distribution elements. This facilitates fault diagnosis and enhances practical learning for technical skills development.\n\nBeyond teaching fundamental automotive electrical principles, the \u201cAV-GE\u201d prepares students for hybrid and electric vehicle technologies by providing insight into energy management, integration of electrical and electronic systems, and detailed component analysis in a safe and controlled environment.\n\nThe \u201cAV-GE\u201d unit includes the following components:\n\n- Instrument panel with warning lights.\n- Electric key switch.\n- Fuse and relay block.\n- Variable frequency drive for electric motor control.\n- Electric motor simulating petrol engine.\n- Alternator.\n- 12 VDC battery with accessible terminals.",
        "Specs": "- [\"AV-GE\u201d. Unit](https:\/\/www.edibon.com\/en\/automotive-fundamental-electrical-circuits-unit):\n\n- Instrument panel with the following components:\n\n- Electric key switch.\n- MIL warning light (malfunction indicator or engine check light).\n- BATT warning light (battery or electrical circuit malfunction indicator).\n- GEN-L warning light (electrical circuit malfunction indicator).\n\n- Relay and fuse box:\n\n- Automotive GEM module.\n- Operating voltage: 12 VDC.\n\n- Variable frequency drive:\n\n- Power supply: 230 VAC.\n- ON \/ OFF switch.\n- Output voltage connections PWM: Three-phases: 230 VAC.\n- Potentiometer to adjust the frequency.\n- Setting and visualization display of the machine parameters.\n\n- Electric motor for petrol engine simulation (EMT7\/1K):\n\n- Nominal power: 1100 W.\n- Nominal voltage: 3 x 230\/400 VAC \u0394\/Y.\n- Frequency: 50 \/ 60 Hz.\n- Number of poles: 2.\n- Speed: 2730 rpm.\n- Attached to the alternator by means of a belt and pulley system.\n\n- Alternator:\n\n- Nominal voltage: 12 VDC.\n- Alternator charging current.\n- Attached to the motor by means of a belt and pulley system.\n\n- 12 VDC battery with accessible terminals (battery points):\n\n- Nominal voltage: 12 VDC.\n- Capacity: 62 Ah.\n- Accessible terminals.\n- Terminals: positive\/negative.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Function of every element in the automotive electrical circuit.\n- Operation of the alternator.\n- Function of the rectifier.\n- Alternator voltage adjustment.\n- Ignition switch sequence.\n- Features and operation of the battery.\n- Operation of the electrical circuit of an automobile on battery discharge.\n- Operation of the electrical circuit of an automobile on battery charge.\n- Behavior of the system when an alternator failure occurs.\n- Behavior of the system when a battery failure occurs.\n- Behavior of the system when an internal combustion engine failure occurs.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/automotive-electric-generation-unit",
        "Page title": "Automotive Electric Generation Unit",
        "Page description": "Automotive Electric Generation Unit Training Equipment. Request your quotation today! Free price estimations, suitable for technical colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1200 x 520 x 710 mm approx.  (47.24 x 20.47 x 27.95 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "65 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Electric Generation Unit\/1751456828_AV-GE.png",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-961020",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-HYB",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Automotive Hybrid Simulation Unit",
        "Description": "The Computer Controlled Automotive Hybrid Simulation Unit, \u201cAV-HYB\u201d, developed by EDIBON, provides a complete solution to study and analyze the operation of hybrid vehicles by simulating different energy source combinations.\n\nThis unit features several simulation panels that explain the functioning of hybrid systems using LPG engines, biofuel engines, and gasoline-electric engines.\n\nrid Vehicle Panel with Gasoline-Electric Engine:\n\nGasoline and electric engines are highly compatible, offering the benefits of both technologies while minimizing their drawbacks. The \u201cAV-HYB\u201d unit offers progressive training levels to provide users with in-depth knowledge and essential skills related to the operation and functionality of gasoline-electric hybrid vehicles.\n\nThe application includes a simulation panel (hardware and software) and a dedicated manual that explains the system architecture, the interaction between electric and combustion engines, the role of high-voltage systems, and battery pack handling and removal procedures.\n\nHybrid Vehicle with LPG Engine Panel:\n\nLPG-powered hybrids offer significant fuel cost savings and reduced environmental impact. The \u201cAV-HYB\u201d unit includes training levels focused on LPG hybrid operation and system architecture.\n\nUsing the provided simulation panel (hardware and software) and training manual, users will study LPG and gasoline sequential injection processes, battery configurations in hybrid systems, and full vehicle maintenance procedures.\n\nPanel of Hybrid Vehicle with Biofuel Engine:\n\nBiofuel is derived from organic sources and is often combined with gasoline engines to lower CO\u2082 emissions and operating costs. The \u201cAV-HYB\u201d unit provides structured learning modules that equip users with the technical knowledge required to understand biofuel hybrid vehicles.\n\nThe included simulation panel (hardware and software) and accompanying manual allow for an in-depth study of system architecture, gasoline and biofuel sequential injection, battery pack configuration and removal, and the general maintenance of these systems.\n\nThis Computer Controlled Unit comes with the EDIBON Computer Control System (SCADA), including: the unit itself, a Data Acquisition Board, and complete Data Acquisition and Management Software Packages for full process control and parameter monitoring.",
        "Specs": "- [AV-HYB. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-automotive-hybrid-simulation-unit):\n\n- Hybrid Vehicle Panel with Gasoline-Electric Engine:\n\n- Single-phase supply voltage: 230 \/ 110 VAC.\n- Lamps to indicate the operating status of the vehicle.\n- Switches for the simulation of the different operating processes of the vehicle.\n- Protection fuses.\n- Terminals to measure the battery voltages.\n- Diagram of Hybrid Vehicle with Gasoline-Electric Engine in the front panel.\n\n- Hybrid Vehicle with LPG Engine Panel:\n\n- Single-phase supply voltage: 230 \/ 110 VAC.\n- Lamps to indicate the operating status of the vehicle.\n- Switches for the simulation of the different operating processes of the vehicle.\n- Protection fuses.\n- Terminals to measure the battery voltages.\n- Diagram of Hybrid Vehicle with LPG Engine in the front panel.\n\n- Panel of Hybrid Vehicle with Biofuel Engine:\n\n- Single-phase supply voltage: 230 \/ 110 VAC.\n- Lamps to indicate the operating status of the vehicle.\n- Switches for the simulation of the different operating processes of the vehicle.\n- Protection fuses.\n- Terminals to measure the battery voltages.\n- Diagram of Hybrid Vehicle with Biofuel Engine in the front panel.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EG5C\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 6 manuals. Required services, Assembly and Installation, Control software, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Familiarization with the Hybrid Vehicle with LPG Engine.\n- Study and analysis of the maintenance of the Hybrid Vehicle with LPG Engine.\n- Study and analysis of the different components of the Hybrid Vehicle with LPG Engine with the help of the simulation software.\n- Study and analysis of the high-voltage circuit of the Hybrid Vehicle with LPG Engine.\n- Study and analysis of the different parameters of the batteries of Hybrid Vehicle with LPG Engine.\n- Study and analysis of the architecture of the Hybrid Vehicle with LPG Engine.\n- Maintenance of the Hybrid Vehicle with LPG Engine.\n- Familiarization with the Hybrid Vehicle with Gasoline-Electric Engine.\n- Study and analysis of the maintenance of the Hybrid Vehicle with Gasoline-Electric Engine.\n- Study and analysis of the different components of the Hybrid Vehicle with Gasoline-Electric Engine with the help of the simulation software.\n- Study and analysis of the high-voltage circuit of the Hybrid Vehicle with Gasoline-Electric Engine.\n- Study and analysis of the different parameters of the batteries of Hybrid Vehicle with Gasoline-Electric Engine.\n- Study and analysis of the architecture of the Hybrid Vehicle with Gasoline-Electric Engine.\n- Maintenance of the Hybrid Vehicle with Gasoline-Electric Engine.\n- Familiarization with the Hybrid Vehicle with Biofuel Engine.\n- Study and analysis of the maintenance of the Hybrid Vehicle with Biofuel Engine.\n- Study and analysis of the different components of the Hybrid Vehicle with Biofuel Engine with the help of the simulation software.\n- Study and analysis of the high-voltage circuit of the Hybrid Vehicle with Biofuel Engine.\n- Study and analysis of the different parameters of the batteries of Hybrid Vehicle with Biofuel Engine.\n- Study and analysis of the architecture of the Hybrid Vehicle with Biofuel Engine.\n- Maintenance of the Hybrid Vehicle with Biofuel Engine",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-automotive-hybrid-simulation-unit",
        "Page title": "Computer Controlled Automotive Hybrid Simulation Unit",
        "Page description": "Computer Controlled Automotive Hybrid Simulation Unit. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1200 x 520 x 710 mm approx.  (47.24 x 20.47 x 27.95 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "30 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Automotive Hybrid Simulation Unit\/1751454771_AV-HYB.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-201364",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AV-SCS",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Automotive Starting and Charging Systems unit",
        "Description": "The Automotive Starting and Charging Systems Unit, \u201cAV-SCS\u201d, developed by EDIBON, offers a complete solution for theoretical and practical training in modern vehicle ignition and charging systems. This educational unit allows students to acquire the knowledge and skills needed to analyze and understand the function of key components such as the DC starter motor, alternator, solenoid relay, battery charging circuit, and ignition switch.\n\nStudents can explore how various circuits are powered based on the ignition key position, simulating the different system phases\u2014from initial power-up and preheating to full engine start. The simulation is enhanced with an electric motor that replicates the function of a combustion engine and drives the alternator, enabling battery charging verification and circuit testing at critical points of the start-up process.\n\nThe \u201cAV-SCS\u201d includes an instrumentation panel with built-in fault simulation capabilities. This allows learners to practice diagnostics and troubleshooting procedures based on realistic scenarios. In addition, hands-on exercises are provided to deepen understanding of alternator voltage regulation and battery behavior during charge and discharge cycles.\n\nFault simulation features cover common failures in components like the battery, alternator, and motor, creating a safe environment for students to apply repair techniques. Designed to align with current and future industry requirements, the \u201cAV-SCS\u201d introduces students to advanced energy systems used in hybrid and electric vehicles.\n\nThe unit integrates a wide array of real automotive components and systems for comprehensive learning in energy management and electrical system diagnostics.\n\nThe \u201cAV-SCS\u201d unit includes the following components:\n\n- DC starter motor.\n- Starting solenoid.\n- Park\/neutral position switch.\n- Run\/start relay.\n- Starting relay.\n- Connectors.\n- 12 VDC battery with accessible terminals (battery points).\n- Fuse block.\n- Ignition key for vehicle start (ignition switch).\n- Protection fuse.\n- Alternator.\n- Electric motor for petrol engine simulation (EMT7\/1K).\n- Advanced AC Motor Speed Controller Module (N-VVCA).",
        "Specs": "- [\"AV-SCS\u201d. Unit](https:\/\/www.edibon.com\/en\/automotive-fundamental-electrical-circuits-unit):\n\n- DC starter motor.\n\n- Nominal power: 0.5 kW (approx.)\n- Nominal voltage: 12 VDC.\n- Speed: 60 \u2013 100 rpm.\n\n- Starting solenoid: Nominal voltage: 12 VDC\n- Run\/start relay.\n\n- Nominal voltage: 12 VDC.\n- \u201cNO\u201d contact.\n- \u201cNC\u201d contact.\n\n- Park\/neutral position switch.\n\n- Nominal voltage: 12 VDC.\n- \u201cNO\u201d contact.\n- \u201cNC\u201d contact.\n\n- Starting relay.\n\n- Nominal voltage: 12 VDC.\n- \u201cNO\u201d contact.\n- \u201cNC\u201d contact.\n\n- Connectors.\n\n- 12 VDC battery with accessible terminals (battery points).\n- Nominal voltage: 12 VDC.\n- Capacity: 62 Ah.\n- Accessible terminals.\n- Terminals: positive\/negative.\n\n- Fuse block.\n- Ignition key for starting the vehicle (ignition switch). Nominal voltage: 12 VDC.\n- Protection fuse.\n- Alternator.\n\n- Nominal voltage: 12 VDC.\n- Alternator charging current: 25 \u2013 50 A.\n\n- Electric motor for petrol engine simulation (EMT7\/1K).\n\n- Nominal power: 1100 W.\n- Nominal voltage: 3 x 230 \/ 400 VAC \u0394\/Y.\n- Frequency: 50 \/ 60 Hz.\n- Number of poles: 2.\n- Speed: 2730 rpm.\n- Attached to the alternator by means of a belt and pulley system.\n\n- Advanced AC Motor Speed Controller module (N-VVCA).\n\n- Supply voltage: 230 VAC.\n- Nominal power: 0.75 kW.\n- PWM output voltage connections: Three-Phase: 230 VAC.\n- Digital inputs control panel: five configurable digital inputs.\n- Analog inputs control panel:\n\n- 0 \u201310 V analog input for speed control.\n- 4 \u2013 20 mA analog input for speed control.\n\n- 10 K potentiometer for speed control of induction motor.\n- Two relay outputs for alarms configuration: two outputs NO \/ NC.\n- Two 50 mA transistor outputs for alarm configuration.\n- Setting and visualization display of the machine parameters.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Fundamentals of the electrical and electronic circuits of the vehicle involved in the starting system.\n- Fundamentals of the DC electric motor. Study of the key parameters by taking measurements at its terminals.\n- Fundamentals of the alternator. Study of the key parameters by taking measurements at its terminals.\n- Fundamentals of the battery, operating principles, types, features and recharging systems.\n- Fundamentals of the charging circuit, features, physical basis, and components of the alternator.\n- Fundamentals of the charging circuit and maintenance of a vehicle battery.\n- Identification of the starting system elements of a vehicle.\n- Study of the park\/neutral position switch. Study of its connection to the solenoid and how it is involved the starting circuit.\n- Study of the starting solenoid relay. Study of its behavior in the starter motor coupling.\n- Study of the ignition switch. Study of the various circuits involved in every key position.\n- Study of the operation of the automotive starting system.\n- Study of the drive circuit of the DC starter motor.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/automotive-starting-and-charging-systems-unit",
        "Page title": "Automotive Starting and Charging Systems unit",
        "Page description": "Automotive Starting and Charging Systems unit Training Equipment. Request your quotation today! Free price estimations, suitable for colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1200 x 520 x 710 mm approx.  (47.24 x 20.47 x 27.95 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "58 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Automotive Starting and Charging Systems unit\/1751456624_AV-SCS.png",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-676413",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-BESTA",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": null,
        "Name": "Battery Energy Storage Test Application",
        "Description": "There are various systems for storing energy, and one of the most widely used methods is through rechargeable electric batteries. These batteries come in many types, including lithium-ion, lithium polymer, lead-acid, solid-state, and redox flow batteries. Each battery type has unique characteristics that make it suitable for specific energy storage applications.\n\nThe Battery Energy Storage Test Application, \u201cAEL-BESTA\u201d, developed by EDIBON, is designed to carry out a complete analysis and characterization of the most commonly used battery technologies. The \u201cAEL-BESTA\u201d application enables students to perform all testing procedures automatically, while managing and saving the results in the form of curves and charts for further evaluation and comparison.\n\nWith the \u201cAEL-BESTA\u201d application, students can obtain discharge curves by selecting the desired output current, analyze the depth of discharge, measure voltage in both open-circuit conditions and under load, determine the actual battery capacity for different battery types, and compare the capacity of the same battery across various charge-discharge cycles to generate accurate life cycle curves.",
        "Specs": "- [\"AEL-BESTA\u201d. Test Application](https:\/\/www.edibon.com\/en\/battery-energy-storage-test-application):\n\nBESTA-UB. Battery Energy Storage Test Base Unit.\n\n- Battery discharge control: performs the steps to carry out the procedure selected in the computer for the different battery tests.\n- Voltmeter and ammeter: measure the electric voltage and current from the tested battery. The values are visualized with the computer.\n- Load selector: different electric heating elements can be connected to the tested battery. The element is selected through the computer.\n- Cable for connection with the computer.\n\nBAT3. Lithium-Iron-Phosphate Battery\n\n- Long life battery.\n- Battery capacity: 2000 Wh.\n\nBAT5. Lead-Acid Battery.\n\n- Sealed lead-acid battery.\n\nRequired element (Not included):\n\nAEL-PC. Touch Screen and Computer\n\n- Touch screen:\n\n- Energy efficiency class: A.\n- Screen diagonal: 68.6 cm (27 inch (s)).\n- Power consumption (operating): 26 watts.\n- Annual energy consumption: 38 kWh.\n- Power consumption (standby \/ off) 0.49 watts.\n- Screen resolution: 1920 x 1080 pixels.\n\n- Computer:\n\n-  Processor number: Intel Core i7-6600U Processor (4M Cache, up to 3,40 GHz).\n- Cache: 4 MB Intel Smart Cache.\n- Clock speed: 2.6 GHz.\n- # Of cores \/ # of threads: 2\/4.\n- Max. TDP \/ Power: 15 W.\n- Memory types: DDR4-2133, LPDDDR3-1866, DDR3L-1600.\n- Graphics: Intel HD graphics 530.\n- Slot for PCI Express.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required Services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Life-cycle battery tests.\n- Verification of the battery durability.\n- External load connection for higher load currents on discharge.\n- Identification of possible faults in the battery during the tests.\n- Comparison of different life cycles with different battery models.\n- Verification of the battery life-cycle.\n- Verification of the Lithium-Iron-Phosphate battery durability.\n- Load connection in the Lithium-Iron-Phosphate battery to analyze the discharge.\n- Load connection in the Lead-Acid battery to analyze the discharge.\n- Verification of the Lead-Acid battery durability.",
        "Url": "edquip.co\/en\/edibon\/battery-energy-storage-test-application",
        "Page title": "Battery Energy Storage Test Application",
        "Page description": "Battery Energy Storage Test Application. Request your quotation today! Free price estimations, suitable for technical colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "700 x 550 x 1100 mm approx.  (27.55 x 21.65 x 43.30 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "50 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Battery Energy Storage Test Application\/1751457405_AEL-BESTA.jpg",
        "Video link": "",
        "Main category": "Engineering Laboratory Equipment"
    },
    {
        "Edquip ID": "PL-178830",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-MEPD-01",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Modular Marine Electrical Power Distribution Application, with SCADA",
        "Description": "The Modular Marine Electrical Power Distribution Application, \u201cAEL-MEPD-01\u201d, has been specifically designed by EDIBON to offer complete theoretical and practical training in marine power generation and electrical distribution systems. This training system addresses essential topics such as marine switchboard configuration, onboard power generation, propulsion control, uninterruptible power supplies (UPS), critical and non-critical circuits, and generator synchronization\u2014either within an isolated marine grid or while connected to shore power.\n\nThe onboard power generation system features two motor-generator sets, each with independent control, monitoring, and protection modules to safeguard against various electrical faults. These generators support both voltage and frequency regulation or power output adjustment, depending on the selected operational mode. The system operates in either grid-forming or grid-following mode, with automatic mode selection based on the status of all circuit breakers.\n\nThe marine switchboard distribution setup includes multiple circuit breakers arranged in a ring-type configuration with two main busbars and three interconnection branches. To avoid incorrect synchronization, the breakers have safety locking mechanisms that activate when voltage is detected at their terminals. Additionally, four synchronization switches manage the connection of different power sources by comparing phase angles before engagement.\n\nThe propulsion system, connected to the main electrical bus, consists of two propeller systems powered by variable frequency drives. Using the integrated SCADA software, students can simulate and analyze real-world parameters involved in marine propulsion for mid-sized vessels, such as ship speed, thrust, torque, advance coefficient (based on the Wageningen series), and total resistance forces.\n\nA critical feature of the \u201cAEL-MEPD-01\u201d is the simulation of blackout recovery. If both main power generators fail, the integrated UPS system enables the study of emergency power recovery procedures and ensures continuity of vital onboard services and loads.\n\nThe \u201cAEL-MEPD-01\u201d includes a full-featured SCADA Control and Data Acquisition System to supervise and operate the complete electrical system. It accurately replicates a full shipboard power infrastructure, including the Navigation Bridge, onboard power generation units, distribution switchboard, propulsion controls, and ship load management panels. To simulate dynamic onboard energy usage, students can draw a power consumption curve in real-time by varying active load parameters.",
        "Specs": "- [AEL-MEPD-01. Application](https:\/\/www.edibon.com\/en\/modular-marine-electrical-power-distribution-application-with-scada):\n\nN-ALI12. Power Supply Module with Phase Sensor 3PH+N\/400 VAC.\n\n- Supply voltage: 400 VAC, 3PH + N.\n- ON \/ OFF removable key.\n- Verification of phase sequence.\n- Output voltage connections:\n\n- Three-Phase + Neutral: 400 VAC and Single-Phase: 230 VAC.\n- Single-Phase: 230 VAC.\n\n- Three-Phase supply hose with IP44 3PN+E 32 A 400 V connecting plug.\n- Differential magnetothermal 4 poles, 25 A, 30 mA AC 6 KA.\n- Emergency stop push button.\n\nN-BUS10. Busbar with Two Switches and Feeder Module.\n\n- Nominal voltage: 230 VAC.\n- Two busbar connection terminals.\n- Three feeder terminals.\n- Five indicator lamps:\n\n- Status lamp.\n- Blocked KM1 lamp.\n- Blocked KM2 lamp.\n- KM1 state indicator lamp.\n- KM2 state indicator lamp.\n\n- Four push buttons:\n\n- Open KM1 push button.\n- Close KM1 push button.\n- Open KM2 push button.\n- Close KM2 push button.\n\n- Voltage detector lamp: Nominal voltage: 400 VAC.\n- Two circuit breakers.\n\nN-BUS11. Busbar with Link Switch Module.\n\n- Nominal voltage: 230 VAC.\n- Two busbar connection terminals.\n- One switch to enable synchronization.\n- Four indicator lamps:\n\n- Status lamp.\n- Blocked KM1 lamp.\n- Checking phases lamp.\n- KM1 state indicator lamp.\n\n- Two push buttons:\n\n- Open KM1 push button.\n- Close KM1 push button.\n\n- Two voltage detector lamps: Nominal voltage: 400 VAC.\n- Circuit breaker.\n- Two auxiliary contacts:\n\n- Normally open contact.\n- Normally closed contact\n\nN-BUS12. Busbar with Dual Feeder and Switches Module.\n\n- Nominal voltage: 230 VAC.\n- Two busbar connection terminals.\n- Two feeder terminals.\n- Five indicator lamps:\n\n- Status lamp.\n- Blocked KM1 lamp.\n- Blocked KM2 lamp.\n- KM1 state indicator lamp.\n- KM2 state indicator lamp.\n\n- Four push buttons:\n\n- Open KM1 push button.\n- Close KM1 push button.\n- Open KM2 push button.\n- Close KM2 push button.\n\n- Voltage detector lamp: Nominal voltage: 400 VAC.\n- Two circuit breakers.\n\nN-EALD\/M. Power Network Analyzer with Modbus TCP\/IP Module.\n\n- The network analyzer module allows fulfilling measurements, displaying and analyzing all the parameters of the AC electrical networks. It has an LCD screen and push-buttons for the navigation through the different menus. It includes specific software for monitoring current and voltage curves, harmonics display, tariffs programming, alarms programming and electrical parameters storage.\n- Features:\n\n- Multifunctional three-phase power meter:\n\n- Three-phase and single-phase voltage. Up to 690 VAC L-L.\n- Line and neutral nominal current: 10 A.\n- Active, reactive and apparent power.\n- Suitable frequencies: 25 Hz, 50 Hz, 60 Hz and 400 Hz.\n- Display of the V-I vector diagram.\n- Supply voltage: 85 \u2013 265 VAC.\n\n- Energy quality control:\n\n- Current and voltage individual harmonics measurement. Up to the 40th harmonic.\n- Voltage and current THD, TDD and K-Factor.\n- Maximums and minimums display.\n- Waveforms display, 128 samples\/sec.\n\n- Events and data storage:\n\n- Harmonics analyzer: Voltage and current THD, current TDD and K-Factor, up to the 40th harmonic. Current and voltage harmonic spectrum and angles.\n\n- Tariff programming:\n\n- Class 0.5S IEC 62053 \u2013 22, active and reactive power in four quadrants.\n- Measurement of the total and per phase three-phase active, reactive and apparent powers.\n- Usage time, four energy\/demand records of total tariffs.\n- Eight tariffs, four seasons and four types of days.\n- Automatic daily report of energy consumption maximums and minimums.\n\n- Communications: MODBUS TCP\/IP communication.\n\nN-ERP-PGC03. Power Generation, Control, Measurement, and Protection Module\n\n- Three-phase wattmeter: Measured range: 0 \u2013 1.5 kW.\n- Three-phase varmeter: Measured range: 0 \u2013 1.5 KVAr.\n- Voltmeter: Measured range: 0 \u2013 500 V.\n- Frequency meter: Measured range: 45 \u2013 55 Hz.\n- DC meter: Measured range: 0 \u2013 10 A.\n- Generator protection relay module.\n- Single-phase supply voltage: 230 VAC.\n- \u201cIsland grid\/parallel grid\u201d control switch.\n- \u201cLocal\/remote\u201d control switch.\n- Manual control switches of the relay:\n\n- SW1, emergency stop.\n- SW2, automatic start of the generator-motor group.\n- SW3, protections reset pushbutton.\n- SW4, generator frequency control activation.\n- SW5, 52 G1 synchronization circuit breaker closure manual permission.\n\n- State light indicators.\n- Alarm light indicators.\n- Synchronization safety key.\n- Emergency stop pushbutton.\n- ON \/ OFF switch.\n- Connection terminals.\n- The \u201cN-ERP-PGC-03\u201d Turbine Protection and Control Module:\n\n- Enables to connect up to 16 generators in parallel-island with distribution of active and reactive load and start\/stop operation control in function of the load demand.\n- Enables to connect one generator in parallel with the grid.\n- Enables different switches control modes, such as opening, closing and synchronization.\n- Includes analogical outputs to control voltage and frequency regulators available in the market.\n- Three-phase measurement of the grid and generator voltage.\n- Three-phase measurement of the generator current and power.\n- Single-phase measurement of the grid current.\n\n- Protections:\n\n- Generator protections: max\/min. voltage (59\/27), max\/min. frequency (81O\/U), voltage asymmetry, dead bus detection, overload (32), unbalance load (46\/F), reverse power\/reduce (32R\/F), overcurrent time define curve (50\/51), inverse time overcurrent (IEC255), fault ground (50N\/51N), phases, breakers fault.\n- Motor: over\/sub speed (12).\n- Mains: max\/min. voltage (59\/27), max\/min. frequency (81O\/U), vector surge.\n\nGEC-KIT-1. Generator Excitation Circuit Kit 1.\n\nN-AVR\/P. Automatic Voltage Regulator Module.\n\n- Input voltage: 0 \u2013 100 VDC.\n- Input for voltage regulation signal through PWM control.\n- Terminals for PWM signals monitoring.\n- Output voltage: 0 \u2013 100 VDC.\n- DC ammeter for output current measurement, 0 \u2013 4 A.\n- 3-pin female connector for connection to the excitation input of a generator.\n- Fuse 5 A\n\nN-TRANS04. Single-Phase Transformer Module 230 VAC\/2x35 VAC, 300 VA.\n\n- 230 VAC single-phase input terminals.\n- 70 VAC single-phase output terminals.\n- 35 VAC single-phase output terminals for two outputs.\n- Two-position switch: 0 (open)\/1 (closed).\n- Fuses:\n\n- Primary side: 2 A.\n- Secondary side: 5 A.\n\nN-SPAD01. Single-Phase AC\/DC Converter Module 1.\n\n- 0 \u2013 230 VAC single-phase input terminals.\n- AC\/DC rectifier.\n- DC output terminals.\n- Filter capacitor for voltage ripple reduction.\n- Bypass terminals for filter capacitor connection.\n- Fuse 5 A.\n\nGMG4.5K3PH. 4.5 kW Generator-Motor Group.\n\n- Motor-generator group coupled in an aluminum frame with wheels.\n- Generator nominal power: 4.5 kVA.\n- Generator nominal speed: 3000 rpm.\n- Generator nominal output current: 6.5 A.\n- Generator nominal excitation current: 4 A.\n- Generator power factor: 0.8.\n- Generator nominal output voltage: 3 x 400 VAC.\n- Frequency: 50\/60 Hz.\n- Motor nominal power: 5 kVA.\n- Motor nominal current: 7.2 A.\n- Motor nominal speed: 3000 rpm.\n\nN-REFT-E\/1K. Adjustable Three-Phase Resistive Electronic Load Module of 0-1000 W.\n\n- Power consumed: 0 \u2013 1000 W.\n- Six 10 A fuses.\n- One circuit breaker:\n\n- Nominal voltage: 230 VAC.\n- Nominal current: 9 A.\n\n- One resistor: 330 ohms.\n- Two yellow voltage detectors: Nominal voltage: 400 VAC\n\nN-INDT-E\/1K. Three-Phase Inductive Electronic Load Module of 3X300 Var.\n\n- Power consumed: Three inductance banks of 300 Var each one.\n- Six 10 A fuses.\n- Three circuit breakers:\n\n- Nominal voltage: 230 VAC.\n- Nominal current: 9 A.\n\n- Three inductance banks: 3 x 5 H inductances.\n- Two yellow voltage detectors: Nominal voltage: 400 VAC.\n\nN-REF-E\/300W. Single-Phase 300W Resistive Electronic Load Module.\n\n- Line terminal of the resistor.\n- Circuit breaker with its lamp indicator.\n- 150 Ohms and 300 W resistor.\n- Neutral terminal of the resistor.\n- Selector:\n\n- Position OFF: circuit opened.\n- Position ON: circuit closed.\n\n- Two 2 A fuses and one 5 A fuses.\n- Over temperature indicator.\n- Status indicator.\n\nN-SEL04. Four Light Indicator Module.\n\n- Two red lamps: Input voltage: 2 terminals for each lamp of 230 VAC.\n- Two green lamps: Input voltage: 2 terminals for each lamp of 230 VAC.\n\nN-UPS-1PH\/2K. 1PH Uninterruptible Power Supply of 2 kVA Module.\n\n- Nominal voltage: 230 VAC.\n- 2 voltage detector lams.\n- Nominal voltage: 230 VAC.\n- UPS:\n\n- Nominal voltage: 208 \/ 220 \/ 230 \/ 240 V.\n- Nominal frequency: 50 \/ 60Hz (auto-detection).\n- Frequency range: \u00b1 5 Hz.\n- Total Harmonic Distortion (THDv):2% linear load \/ 5% non-linear load.\n- Waveform (battery mode): Pure sinusoidal.\n\nSHPR\/2K. Set for Ship Propulsion of 2.2 kW.\n\n- Frequency drive:\n\n- Input voltage: Three phase 400 VAC.\n- Rated power: 3 kW.\n\n- Blower pump:\n\n- Nominal power: 2200 W.\n- Nominal voltage: 380 VAC.\n- Maximum air pressure: 36 kpa.\n- Maximum suction pressure: 33 m\u00b3\/h.\n- Noise: 70 dB.\n- Conduct diameter: 60 mm.\n- Weight: 36 Kg.\n\n- Engineguard: Protection range: 2.4 A \u2013 4 A.\n\nAEL-PC. Touch Screen and Computer\n\n- Touch screen:\n\n- Energy efficiency class: A.\n- Screen diagonal: 68.6 cm (27 inch (s)).\n- Power consumption (operating): 26 watts.\n- Annual energy consumption: 38 kWh.\n- Power consumption (standby\/off): 0.49 watts.\n- Screen resolution: 1920 x 1080 pixels.\n\n- Computer:\n\n- Processor number: Intel Core i7-6600U Processor (4M Cache, up to 3.40 GHz).\n- Cache: 4 MB Intel Smart Cache.\n- Clock speed: 2.6 GHz.\n- # Of cores\/# of threads: 2\/4.\n- Max. TDP\/Power: 15 W.\n- Memory types: DDR4-2133, LPDDDR3-1866, DDR3L-1600.\n- Graphics: Intel HD graphics 530.\n- Slot for PCI Express.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- AEL-MEPD-01\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Main bus and ring configuration distribution system wiring.\n- Circuit breaker maneuvers in ship distribution systems using local controls.\n- Circuit breaker maneuvers in ship distribution systems using SCADA.\n- Power flow study of ring topology under shore power conditions.\n- Monitoring and adjusting ship power demand in real time.\n- Study of the impact of different electrical loads (resistive and inductive)\n- Response of the electrical system to circuit breaker openings under fault conditions.\n- Start-up of a turbine-generator set.\n- Study of voltage regulation\/excitation and frequency control in synchronous generator.\n- Analysis of propulsion systems and performance evaluation using Wageningen series.\n- Analyzing of power curves to optimize energy efficiency during cruising.\n- Study of the electric system behavior with two generators in island mode.\n- Synchronization and decoupling of two generators.\n- Operation of ship\u2019s electrical system with two generators operating in parallel.\n- Study of the automatic load sharing in ship power systems.\n- Coupling of ship\u2019s electrical system to shore power during docking process.\n- Load transfer from shore power to onboard generation during casting off process.\n- Operation of a ship\u2019s electrical system with two generators running in parallel with shore power.\n- Study of blackout in ship power systems.\n- Emergency power requirements during a blackout or system failure until recovery using an interruptible power supply.",
        "Url": "edquip.co\/en\/edibon\/modular-marine-electrical-power-distribution-application--with-scada",
        "Page title": "Modular Marine Electrical Power Distribution Application, with SCADA",
        "Page description": "Modular Marine Electrical Power Distribution Application, with SCADA. Request your quotation today! Get price estimations, suitable for colleges & universtities",
        "Lowest number of students": null,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V",
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": ": 2000 x 5000 x 2000 mm approx.  (78,74 x 196.85 x 78.74 inches approx.).",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Modular Marine Electrical Power Distribution Application, with SCADA\/1751460195_AEL-MEPD-01.jpg",
        "Video link": "",
        "Main category": "Ocean Energy Training Systems"
    },
    {
        "Edquip ID": "PL-304219",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-EHVC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Hybrid and Electric Vehicles Application",
        "Description": "The Computer Controlled Hybrid and Electric Vehicles Application, \u201cAEL-EHVC\u201d, developed by EDIBON, is a cutting-edge training system designed to study and analyze the functioning and energy management of hybrid and electric vehicles, fully aligned with current and future trends in sustainable mobility and electric transportation.\n\nThanks to its modular configuration, the \u201cAEL-EHVC\u201d allows students and professionals to simulate and compare various electric vehicle (EV) and hybrid electric vehicle (HEV) architectures, providing essential skills and knowledge for evaluating energy efficiency, control strategies, and dynamic performance of modern mobility systems.\n\nThe \u201cAEL-EHVC\u201d application includes three different educational configurations that can be implemented independently or in combination:\n\n100% Electric Vehicle Topology (Included):\n\nThe included configuration enables the simulation of a full electric vehicle using a regenerative DC power supply (N-DCPWS\/R) that emulates the traction battery, a variable frequency drive (N-RGTR) that controls the electric motor, and a 1 kW squirrel-cage motor (EMT7B\/1K-E) simulating the traction motor. Additionally, a terrain simulation servomotor reproduces driving conditions such as uphill, downhill, or flat terrain. The vehicle is controlled using an accelerator and brake pedal module, allowing users to simulate real driving actions such as acceleration, regenerative braking, and inertia rolling. The integrated SCADA software enables complete control of system parameters, battery behavior emulation (capacity, voltage curves, charging profiles), and real-time monitoring of energy consumption and regeneration.\n\nHybrid Vehicle Topology (Recommended \u2013 Not Included):\n\nBy integrating the N-ENGS module (Petrol Engine Simulation), the system simulates a hybrid vehicle with a servo motor and magnetic clutch representing an internal combustion engine. This allows simulation of typical hybrid operating modes where the electric motor powers the vehicle at low speeds, and the combustion engine engages at higher speeds. Users can define the torque-speed curve of the combustion engine (starting torque, maximum torque, torque at maximum speed) and configure electric assistance levels. The SCADA software dynamically manages hybrid behavior based on vehicle speed and load, simulating realistic hybrid energy transitions and assisting students in understanding complex hybrid architectures and control logic.\n\nEV Charging Station Module (Recommended \u2013 Not Included):\n\nThe system can be expanded with a real electric vehicle charging station, enabling students to study battery charging procedures, energy flow monitoring, and charging cycle control. The SCADA system facilitates remote start\/stop of charging processes and tracks parameters such as charging current, voltage, power, and state of charge (SoC). Users can analyze how different battery capacities and charger specifications affect charging times, allowing detailed study of one of the key limitations in current EV adoption.\n\nThe \u201cAEL-EHVC\u201d system provides a complete educational platform to explore electric and hybrid vehicle systems from a practical and theoretical standpoint, supporting the development of technical competencies in areas such as electric propulsion, hybrid drivetrain control, battery management systems (BMS), energy efficiency, and sustainable transportation technologies. Its advanced modular design and SCADA-based control and data acquisition make it an ideal tool for technical education centers, engineering faculties, vocational training institutions, and research laboratories focused on automotive and electric mobility innovation.",
        "Specs": "- [AEL-EHVC. Application:](https:\/\/www.edibon.com\/en\/computer-controlled-hybrid-and-electric-vehicles-application?video_modal=on):\n\nEMT7B\/1K-E. 3PH Squirrel-Cage Industrial Motor, 1 kW, 4 Poles.\n\n- Nominal power: 1000 W.\n- Nominal voltage: 230 VAC \/ 400 VAC.\n- Frequency: 50 \/ 60 Hz.\n- Nominal load speed: 1500 rpm.\n- Nominal current: 4.57 A \/ 2.64 A.\n\nN-RGTR. Regenerative Powertrain Module.\n\n- Power supply: 230 VAC.\n- ON \/ OFF switch.\n- Internal frequency drive with speed and torque control.\n- Safety key \u201cStart\/Stop\u201d.\n\nN-DYTS. Dynamic Ground Simulation Module.\n\n- Power supply: 400 VAC+N.\n- Frequency: 50\/60 Hz.\n- ON \/ OFF switch.\n- Servo motor and driver:\n\n- Dynamic and static operating regime in four quadrants.\n- Speed and torque control.\n- Nominal power: 1 kW.\n- Maximum power: 3 kW.\n- Nominal torque: 3.18 Nm.\n- Maximum torque: 9.55 Nm.\n- Temperature control.\n\n- Slope selector: uphill\/flat terrain\/downhill.\n- % slope control potentiometer.\n\nN-DCPWS\/R. Regenerative DC Power Supply Module.\n\n- ON \/ OFF switch.\n- Voltage range: 0 \u2013 350 VDC.\n- Current range: 0 \u2013 6 A.\n- Power: 800 W.\n- Control panel for battery mode configuration:\n\n- Source mode.\n- Charging mode.\n\n- Integrated overcurrent protections.\n- Integrated overvoltage protections.\n\nAdditional recommended elements (Not included):\n\nN-ENGS. Petrol Engine Simulation Module.\n\n- Power supply: 230 VAC.\n- ON \/ OFF switch.\n- Internal frequency drive with speed and torque control.\n- Starter motor input signal.\n- Magnetic clutch.\n- Magnetic clutch control signal.\n- Servo motor and driver:\n\n- Dynamic and static operating regime.\n- Speed and torque control.\n- Nominal power: 1 kW.\n- Maximum power: 3 kW.\n- Nominal torque: 3.18 Nm.\n- Maximum torque: 9.55 Nm.\n- Temperature control.\n\nEVCH. Electric Vehicle Charger.\n\n- Basic recharge box.\n- IP54 enclosure.\n- Single-phase Schuko socket (230 V, 16 A, 3.6 kW).\n- Single-phase energy meter (kWh).\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- AEL-EHVC\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 7 manuals. Required services, Assembly and Installation, Control Software, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Detailed study of the traction system in a 100% electric vehicle: Analysis of the conversion of electrical energy into mechanical energy, evaluating the dynamic response of the three-phase motor based on acceleration and load demand.\n- Comprehensive analysis of regenerative braking under different scenarios: Evaluation of kinetic energy recovery during controlled braking events and its conversion into electrical energy, monitoring the power flow regenerated back into the virtual battery.\n- Dynamic evaluation of an electric vehicle\u2019s behavior through simulated real driving cycles: Simulation of acceleration, deceleration, and constant speed patterns, replicating urban, interurban, and highway routes, and analysis of energy efficiency in each case.\n- Analysis of the torque-speed relationship under different operating conditions: Study of how motor torque and speed vary according to load, acceleration, and terrain type, with graphical representation of the electric motor\u2019s characteristic curve.\n- Simulation of ascending terrain to study the traction system\u2019s response: Analysis of the additional torque demand required on uphill slopes and its impact on energy consumption, motor efficiency, and vehicle dynamics.\n- Simulation of flat terrain for the analysis of stable traction behavior: Study of energy performance under constant load conditions, evaluating motor efficiency during steady-state driving without terrain variations.\n- Simulation of descending terrain and evaluation of its effect on the control and regeneration systems: Analysis of kinetic energy utilization through regenerative braking and its impact on battery recharging, depending on the simulated slope.\n- Real-time graphical representation of terrain profile and its influence on vehicle behavior: Generation and monitoring of orographic profiles via SCADA, with dynamic updates of slope, speed, and power parameters.\n- Analysis of power consumption under different conditions using a bidirectional battery simulator: Study of energy flows in traction and regeneration modes, evaluating the efficiency of energy conversion depending on terrain and driving cycle.\n- Real-time monitoring of all key operational parameters through interactive SCADA graphs: Simultaneous visualization of critical variables such as current, voltage, power, speed, and motor torque, enabling an indepth analysis of the vehicle\u2019s electrical system behavior.\n\nSome practical exercises with the recommended additional element of the Petrol Engine Simulation Module (N-ENGS):\n\n- Study of the combined operation of the electric and combustion engines in a hybrid vehicle: Analysis of the dynamic coordination between both energy sources, evaluating power distribution and overall efficiency under various driving conditions.\n- Visualization and analysis of the magnetic clutch coupling to the main traction system: Observation of the controlled connection process between the combustion engine and the electric motor, assessing the real-time transition between operating modes.\n- Graphical analysis of torque transmission during the coupling process: Interactive graphical representation of the motor torque behavior at the moment the combustion engine couples to the traction system.\n- Monitoring the automatic synchronization process between the combustion and electric motors: Real-time monitoring of both motors\u2019 speed and torque during automatic synchronization, evaluating transition efficiency and smoothness.\n- Evaluation of electric and combustion motor participation under different terrain conditions in automatic mode: Study of the vehicle\u2019s adaptive behavior on ascending, flat, and descending terrains, with automatic management of the participation percentages of each motor.\n- Study of motor coupling and clutch control in manual mode: Manual configuration of motor coupling\/decoupling, allowing experimentation and analysis of customized energy management strategies.\n- Simulation of ascending terrain for parallel hybrid vehicles: Analysis of the hybrid system\u2019s response to increasing slopes, evaluating the combined effort of both motors and the impact on energy consumption.\n- Simulation of descending terrain for parallel hybrid vehicles: Study of regenerative capacity and energy management during downhill conditions, analyzing the interaction between regenerative braking and combustion engine decoupling.\n- Configuration and analysis of the electric motor\u2019s response to sudden accelerations: Adjustment of accelerator pedal sensitivity parameters and evaluation of the electric motor\u2019s response during high instantaneous power demand.\n- Study of in-motion battery recharging through electric motor drag by the combustion engine: Analysis of electrical energy generation when the battery is at low charge levels, simulating the typical in-motion recharging mode of hybrid vehicles.\n- Integration and comparative analysis of different combustion engine torque-speed maps: Programming and evaluation of various combustion engine performance curves, assessing their effect on hybrid vehicle efficiency and dynamics.\n- Modification of control parameters related to motor participation: Adjustment of advanced functions such as generation mode activation at low battery levels and accelerator pedal sensitivity, optimizing the hybrid strategy.\n- Comparison of energy efficiency between a 100% electric vehicle and a parallel hybrid vehicle: Comparative analysis based on energy consumption, range, and dynamic behavior, evaluating the advantages and disadvantages of each technology under real operating conditions.\n\nSome practical exercises with the recommended additional element of the with the Electric Vehicle Charger (EVCH):\n\n- Simulation of a realistic charging process using a real electric vehicle charger: Reproduction of a real-world charging cycle by connecting a commercial-type charger to the system, allowing the study of the initiation, continuous charging, and completion phases under realistic conditions.\n- Physical connection and validation of the link between the charger and the traction system: Execution of the physical connection of the electric charger to the equipment, verification of communication between devices, and monitoring of the automatic activation of the charging protocol.\n- Measurement and analysis of electrical parameters during the charging process: Real-time monitoring of voltage, charging current, and supplied power, evaluating the electrical behavior of the system throughout the different stages of the charging process.\n- Evaluation of charging times based on the battery capacity set in SCADA: Study of the time required to reach specific charge levels, analyzing how the defined battery capacity directly influences the total charging time.\n- Analysis of the influence of C-Rate on charging process efficiency: Evaluation of the impact of different C-Rates on the total charging time, assessing the relationship between charge rate, battery characteristics, and energy management efficiency.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-hybrid-and-electric-vehicles-application",
        "Page title": "Computer Controlled Hybrid and Electric Vehicles Application",
        "Page description": "Computer Controlled Hybrid and Electric Vehicles Application. Request your quotation today! Free price estimations, suitable for colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "2000 x 1000 x 300 mm approx.  (78.73 x 39.36 x 11.81 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "90 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Hybrid and Electric Vehicles Application\/1751460579_AEL-EHVC.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/cNM4TgPK9SA?si=EzVbN1ZhRK7t2-Xl",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-410309",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "TBM\/D",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Comprehensive Diesel Engine Test and Diagnostic Bench",
        "Description": "The Advanced Diesel Test and Diagnostic Bench for Internal Combustion Engines, \u201cTBM\/D\u201d, is a state-of-the-art system developed by EDIBON to perform detailed evaluations and precise diagnostics on diesel engines. Designed for use by engineers and technical professionals, this unit enables thorough analysis of engine behavior, fault detection, and performance optimization, ensuring high efficiency and reliability in automotive system maintenance and development.\n\nAt the heart of this test bench lies the internal combustion engine, which serves as the core element of analysis. Its purpose is to transform the chemical energy from diesel fuel into mechanical power through combustion within the cylinders. The unit allows for the study of this energy transformation process, including the assessment of combustion efficiency, exhaust gas characteristics, and overall engine performance\u2014key elements for maximizing the performance of diesel engines.\n\n- Air Intake System: This system ensures the engine receives the oxygen required for combustion. It allows users to monitor and analyze both the volume and quality of air intake, which are critical for achieving efficient combustion and directly influence power output and fuel efficiency.\n- Exhaust Gas System: Responsible for eliminating combustion by-products and minimizing noise, the exhaust system replicates that of a real vehicle. This setup enables users to analyze gas flow and system behavior, evaluate engine efficiency, and study exhaust gas composition to determine environmental impact and regulatory compliance.\n- Fuel Supply System: Controls the fuel injection process, managing the quantity of fuel delivered into the cylinders. This precision directly affects engine efficiency and power output. The TBM\/D bench enables the evaluation and adjustment of various fuel injection parameters, helping to refine consumption rates and performance.\n- Cooling System: Designed to dissipate the heat generated during combustion, this system prevents engine overheating and helps maintain optimal operating temperature. Monitoring cooling performance is essential for assessing its effect on long-term engine durability.\n- Starting System: Features an electric motor that initiates the combustion cycle. This allows for the analysis of engine response during cold starts and varying environmental conditions, contributing to the evaluation of system reliability under real-world scenarios.\n\nThe unit is equipped with advanced instrumentation and integrated sensors that deliver real-time data on vital engine metrics, including pressure, temperature, RPM, and fuel\/air volumes. This data is crucial for in-depth performance analysis and allows for accurate system calibration to enhance engine operation.\n\nThe TBM\/D also supports individual subsystem evaluation as well as complete tests simulating real driving conditions. These simulations are essential for understanding how the engine behaves under stress, high loads, or extreme temperatures.\n\nAccurate diagnostics are vital for vehicle performance and longevity. With the TBM\/D Test and Diagnostic Bench, users can identify mechanical or performance issues early, enabling preventative maintenance before major failures occur. The system supports real-time error correction and tuning, improving reliability throughout the engine's operational life. By simulating a variety of scenarios, it ensures comprehensive analysis and long-term efficiency.",
        "Specs": "- [TBM\/D. Unit](https:\/\/www.edibon.com\/en\/comprehensive-diesel-engine-test-and-diagnostic-bench):\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Bench composed of the following elements: safety mushroom button, key, USB connector for computer, hood opening, and plug.\n- Articulated and transparent hood with electric lock for full visualization of the complete system.\n- High-strength aluminum chassis coated with epoxy paint, supported on 160 mm diameter wheels.\n- Auxiliary panel composed of all the auxiliary elements found in a vehicle.\n- Emergency mushroom button, lateral emergency button for engine detection. A safety mushroom button is provided on each side of the unit.\n- Original vehicle fuel tank.\n- AdBlue tank located under the unit's structure.\n- Liquid retention tank in case of leakage or improper handling.\n- Battery box, includes 12V car battery, battery cut-off relay for unit safety, and battery charger.\n- Fuse and relay box, main engine fuses, and relays.\n- Diesel engine with all necessary elements involved in its proper operation: engine, injectors, coils, intake filter, intake manifold, ECU, etc.\n- Diagnostic system displaying CAN network information on a high-resolution screen.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 7 manuals. Required services, Assembly and Installation, Control Software, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Identification of the combustion engine and each of its parts.\n- Startup of the diesel engine and recording results under different conditions.\n- Procedure and analysis of cold start of the diesel engine.\n- Interpretation of electrical schematics and the systems involved.",
        "Url": "edquip.co\/en\/edibon\/comprehensive-diesel-engine-test-and-diagnostic-bench",
        "Page title": "Comprehensive Diesel Engine Test and Diagnostic Bench",
        "Page description": "Comprehensive Diesel Engine Test and Diagnostic Bench. Request your quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "2000 x 1500 x 2400 mm approx.  (78,74 x 59,05 x 94,48 inches approx.).",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "200 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Comprehensive Diesel Engine Test and Diagnostic Bench\/1751524258_TBM_D.jpg",
        "Video link": "",
        "Main category": "Engineering Laboratory Equipment"
    },
    {
        "Edquip ID": "PL-694642",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "TBM\/G",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Comprehensive Gasoline Test and Diagnostic Bench for Combustion Engines with Fault Simulation",
        "Description": "The Advanced Gasoline Test and Diagnostic Bench with Fault Simulation for Combustion Engines, \u201cTBM\/G\u201d, is a high-performance system developed by EDIBON to perform comprehensive testing and accurate diagnostics on gasoline engines. Designed for engineers and technical professionals, this unit supports performance evaluation, fault detection, and engine optimization\u2014ensuring reliability and efficiency in automotive maintenance and development.\n\nAt the core of this diagnostic bench is the internal combustion engine, which serves as the main focus of study. Its role is to transform the chemical energy in gasoline into mechanical energy through combustion in the cylinders. This unit facilitates a detailed analysis of this conversion process, including assessments of combustion efficiency, exhaust emissions, and overall performance\u2014crucial factors for enhancing gasoline engine functionality.\n\n- Air Intake System: Delivers the necessary oxygen for combustion and allows for real-time monitoring and analysis of air flow and quality. These parameters are essential for efficient combustion and directly influence engine power and fuel usage.\n- Exhaust System: Removes combustion by-products and reduces operational noise. This system replicates that of a real vehicle, enabling detailed study of exhaust behavior and engine efficiency. It also allows for exhaust gas analysis to determine compliance with emission regulations and environmental standards.\n- Fuel Supply System: Manages the exact fuel injection into the cylinders, a key factor in combustion efficiency and engine output. The TBM\/G bench enables evaluation of multiple fuel injection parameters and supports adjustments to optimize fuel consumption based on test results.\n- Cooling System: Designed to dissipate heat generated during combustion, preventing overheating and maintaining safe operating temperatures. Monitoring this system helps assess its efficiency and its effect on engine longevity and stability.\n- Starting System: Includes an electric motor that triggers the initial combustion process. This component allows for detailed analysis of engine behavior during startup, particularly in cold-start conditions\u2014essential for testing engine reliability across various environments.\n\nThe TBM\/G also features a fault simulation module, which allows users to recreate and study common issues that may arise in gasoline engines\u2014both in sensors and actuators. This hands-on capability helps students and technicians develop real-world diagnostic and troubleshooting skills within a controlled and safe learning environment. In addition, Bluetooth connectivity is included for live classroom monitoring and student evaluation during lab exercises.\n\nThe bench is equipped with a range of sensors that deliver real-time data on critical engine parameters such as pressure, temperature, RPM, and fuel\/air ratios. This information supports in-depth performance analysis and allows for accurate system adjustments to improve engine operation.\n\nAn electronic terminal block is also included, providing access to the key signals from the ignition and injection systems. This feature enhances the diagnostic scope by enabling detailed study of these systems\u2019 functionality under various conditions.\n\nThis unit not only supports the isolated study of each engine subsystem, but also facilitates complete diagnostic tests under realistic operating scenarios, such as overload and extreme temperature simulations. These comprehensive tests are vital for understanding engine performance under stress and for fine-tuning design or maintenance strategies.\n\nAccurate diagnostics are essential to maintaining optimal vehicle function. With the TBM\/G Gasoline Test and Diagnostic Bench, users can detect critical issues and inefficiencies that are vital for preventive maintenance. Early identification enables timely interventions before serious damage occurs and allows for real-time adjustments and repairs, enhancing engine reliability. The system supports performance evaluations across different operational contexts, helping extend engine life and efficiency.",
        "Specs": "- [TBM\/G. Unit](https:\/\/www.edibon.com\/en\/comprehensive-gasoline-test-and-diagnostic-bench-for-combustion-engines-with-fault-simulation):\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Bench composed of the following elements: safety mushroom button, key, USB connector for computer, hood opening, and plug.\n- Articulated and transparent hood with electric lock for full visualization of the complete system.\n- High-strength aluminum chassis coated with epoxy paint, supported on 160 mm diameter wheels.\n- Auxiliary panel composed of all the auxiliary elements found in a vehicle.\n- Emergency mushroom button, lateral emergency button for engine detection. A safety mushroom button is provided on each side of the unit.\n- Original vehicle fuel tank.\n- Electronic throttle with lock.\n- Liquid retention tank in case of leakage or improper handling.\n- Battery box, includes 12 V car battery, battery cut-off relay for unit safety, and battery charger.\n- Fuse and relay box, main engine fuses, and relays.\n- Battery cut-off relay for unit safety.\n- Gasoline engine block with all necessary elements involved in its proper operation: engine, injectors, coils, intake filter, intake manifold, ECU, etc.\n- Diagnostic system displaying CAN network information on a high-resolution screen.\n- Fault generation module with 14 faults.\n- Terminal block with 12 electrical signals\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with manuals.Required services, Assembly and Installation, Commissioning, Safety, Maintenance, and Practices manual.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Identification of the combustion engine and each of its components.\n- Startup of the unit and obtaining initial results during startup and operation.\n- Procedure and analysis of cold start of an engine.\n- Analysis of the main signals in the ignition and injection system of an engine.\n- Study and analysis of common faults in a combustion engine.",
        "Url": "edquip.co\/en\/edibon\/comprehensive-gasoline-test-and-diagnostic-bench-for-combustion-engines-with-fault-simulation",
        "Page title": "Comprehensive Gasoline Test and Diagnostic Bench for Combustion Engines with Fault Simulation",
        "Page description": "Comprehensive Gasoline Test and Diagnostic Bench for Combustion Engines with Fault Simulation. Request your quotation today! Free price estimations.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "2000 x 1500 x 2400 mm approx.  (78,74 x 59,05 x 94,48 inches approx.).",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "200 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Comprehensive Gasoline Test and Diagnostic Bench for Combustion Engines with Fault Simulation\/1751524626_TBM_G.jpg",
        "Video link": "",
        "Main category": "Engineering Laboratory Equipment"
    },
    {
        "Edquip ID": "PL-819555",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "TBM\/H",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Comprehensive Testing and Diagnosis Unit for Hybrid Engine with Braking and Diagnostic Software",
        "Description": "The Advanced Hybrid Engine Testing and Diagnostic Unit with Braking System and Software, \u201cTBM\/H\u201d, developed by EDIBON, is a cutting-edge solution for the analysis of hybrid engine performance. Designed to support education in automotive engineering and sustainable mobility, this unit enables performance testing, component evaluation, and fault diagnosis\u2014contributing to improved efficiency and deeper understanding of hybrid propulsion systems.\n\nThe system is organized into three primary sections, each dedicated to analyzing and understanding the various subsystems of a hybrid vehicle under real-world operating conditions:\n\n- Central Control Panel and Cabin Systems: Positioned at the center of the unit, the blue control panel contains key electronic components typically found in a vehicle's cabin. These include systems like power windows, interior lighting, seat belts, door locks, and windshield wipers. This configuration allows users to study the integration and operation of automotive electronics that contribute to comfort, safety, and functionality.\n- Driver and Co-Driver Area: Located beneath the central panel, this section includes critical driving controls such as the steering wheel, accelerator, brake pedals, gear shifter, and instrument cluster. It also features a built-in diagnostic system that connects to a computer for real-time parameter monitoring and fault detection, enabling detailed operational analysis. Additional components include the glove compartment and fuel tank on the right side, and parking brakes on both sides of the section\u2014offering a realistic replication of an actual vehicle cockpit.\n- Hybrid Powertrain and Braking Simulation System: Positioned to the left of the central panel is the battery block, which includes a 12V battery for powering the internal combustion engine and a hybrid battery for driving the electric motor during specific operation modes. To prevent thermal stress, a cooling fan is automatically triggered when battery temperature surpasses a defined threshold. On each side of the unit, an eddy current braking system simulates changes in vehicle load, creating resistance against wheel rotation to replicate different driving conditions. This resistance is fully adjustable via an intuitive interface on the right-hand panel, allowing users to test variables such as torque, wheel speed, acceleration, and engine power.\n\nBrakes are connected to load cells, enabling real-time measurement of engine torque, while speed sensors located on the steering axle deliver accurate data on vehicle speed. This high-precision instrumentation enables detailed analysis of power delivery and hybrid system performance under various simulated driving scenarios.\n\nThe overall design of the TBM\/H facilitates comprehensive testing in multiple conditions, allowing educators and students to explore hybrid engine behavior and efficiency in a controlled setting. Thanks to its advanced simulation features and diagnostic tools, the TBM\/H is an indispensable platform for training in automotive engineering, hybrid systems, and sustainable vehicle technologies. It provides users with hands-on experience in the operation, diagnostics, and optimization of hybrid propulsion systems.",
        "Specs": "- [TBM\/H. Unit](https:\/\/www.edibon.com\/en\/comprehensive-testing-and-diagnosis-bench-for-hybrid-engine-with-braking-and-diagnostic-software?video_modal=on):\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Central control panel, housing the main electrical systems of the cabin: power windows, interior lighting, door locking systems, seat belts with activation sensors, windshield wiper system.\n- Driver and passenger area, with steering wheel, accelerator and brake pedals, gear shift, instrument panel, diagnostic system, and fuel tank.\n- Internal combustion engine with an electronic injection system and an electric motor assisted by a high-voltage hybrid battery.\n- Battery block, composed of:\n\n- 12V battery, supplying power to the combustion engine.\n- Hybrid battery, responsible for powering the electric motor.\n\n- Original vehicle fuel tank.\n- Cooling system, with an automatic cooling fan that activates when the battery temperature exceeds a predefined threshold.\n- Diagnostic interface for monitoring and analyzing fuel consumption, performance, and fault detection.\n- Eddy current brakes.\n- Sensors and measurement systems with load cells and speed sensors on the steering axle.\n- Protected systems for fully safe operation\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with manuals.Required services, Assembly and Installation, Commissioning, Safety, Maintenance, and Practices manual.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Familiarization with a hybrid driving system.\n- Determination of fuel consumption (combustion engine) and voltage and current demand of the battery (electric motor).\n- Study of torque and power curves versus engine revolutions for the hybrid system.\n- Measurement of key process parameters: torque, speed, power, acceleration, etc.",
        "Url": "edquip.co\/en\/edibon\/comprehensive-testing-and-diagnosis-unit-for-hybrid-engine-with-braking-and-diagnostic-software",
        "Page title": "Comprehensive Testing and Diagnosis Unit for Hybrid Engine with Braking and Diagnostic Software",
        "Page description": "Comprehensive Testing and Diagnosis Unit for Hybrid Engine with Braking and Diagnostic Software.  Free price estimations, suitable for colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "3600 x 2200 x 2400 mm approx.  (141.73 x 86.61 x 94.49 inches approx.).",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "725 Kg approx",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Comprehensive Testing and Diagnosis Unit for Hybrid Engine with Braking and Diagnostic Software\/1751525106_TBM_H.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/z8qjXk980Q8?si=KfkXnHTEiHZPY34d",
        "Main category": "Engineering Laboratory Equipment"
    },
    {
        "Edquip ID": "PL-617984",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-PLC-AB",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "ALLEN BRADLEY PLC Application",
        "Description": "The ALLEN BRADLEY PLC Application (AE-PLC-AB) is a training unit developed by EDIBON, based on one of the latest Allen Bradley PLC controllers. This system enables users to learn and practice PLC logic programming, multiple PLC programming languages, and PLC-to-PC communication.\n\nThe AE-PLC-AB comes with a complete set of practical exercises designed so that students can understand how to operate and program PLC systems, even without prior knowledge or experience. It can be used independently to study programmable logic controllers, or in combination with other EDIBON compatible units to simulate real industrial PLC applications.\n\nThis is a modular PLC training system that integrates the key components of a complete PLC setup. The ALLEN BRADLEY PLC Base Unit (AE-PLC-AB-UB) always includes the power supply, the PLC CPU module, and the programming software. Additionally, a range of optional extension kits is available to expand the system with extra programmable controller functions such as test modules, analog input\/output signals, HMI devices, or PLC internet connection. These extensions allow users to practice HMI programming, test analog I\/O signals, and even learn how to develop and manage a PLC web server application.",
        "Specs": "- [AE-PLC-AB-UB. Unit](https:\/\/www.edibon.com\/en\/allen-bradley-plc-application\/catalog):\n\nN-ALI02. Domestic Main Power Supply Module\n\n- Supply voltage (single-phase).\n- ON \/ OFF removable key.\n- Output voltage connections:\n\n- Two single-phase.\n- Single-phase supply hose connecting plug.\n\n- Differential magnetothermal 2 poles.\n- Emergency stop push-button.\n\nN-CPU-AB. ALLEN BRADLEY CPU Module\n\n- Supply voltage (single-phase).\n- Overcurrent protection with fuse.\n- PLC device Allen Bradley CompactLogix 5370 L1 controller:\n\n- High speed and high performance control.\n- Controller tasks.\n- Program per task.\n- Available user memory.\n- SD card inbox memory.\n- Two Ethernet connectors.\n- USB connection for firmware updates.\n- Sixteen digital inputs.\n- Sixteen relay type digital outputs.\n\n- Connector for the digital input and output signals.\n- Connector for the Ethernet switch module.\n\nN-SWT-4. 4 Ports Ethernet Switch Module\n\n- Supply voltage (single-phase).\n- Compact switch module: Four Ethernet ports.\n- Protection fuse (at supply voltage height).\n\nRequired elements of the \u201cAE-PLC-AB-UB\u201d base unit (Not included):\n\nAB-PLC-K1. ALLEN BRADLEY PLC Kit 1.\n\nN-MT. Test Module.\n\n- Supply voltage (single-phase).\n- Twenty digital signal generators:\n\n- Ten toggle switches.\n- Ten push-buttons.\n- Each digital signal generator is linked to a green LED.\n- Output voltage levels of 0 VDC and 24 VDC.\n\n- Six analog signal generators:\n\n- Six potentiometers.\n- Output voltage range from -10 V to +10 V\n\n- Protection fuses (at supply voltage height).\n\nAdditional recommended elements of the \u201cAE-PLC-AB-UB\u201d base unit (Not included):\n\nAB-PLC-K2. ALLEN BRADLEY PLC Kit 2.\n\nN-ESA-AB. ALLEN BRADLEY Analog I\/O Module\n\n- Supply voltage (single-phase).\n- Expansion unit for analog inputs:\n\n- Input voltage range from 0 V to +10 V.\n- Four analog inputs.\n- Resolution: 16 bits.\n- Input conversion sigma-delta.\n\n- Expansion unit for analog outputs:\n\n- Output voltage range from 0 V to +10 V.\n- Four analog outputs.\n- Resolution: 16 bits.\n- Accuracy: 0.1% full scale.\n\n- Connector for the analog input and output signals.\n- Connector for the Ethernet switch module.\n\nAB-PLC-K3. ALLEN BRADLEY PLC Kit 3.\n\nN-HMIB-AB. ALLEN BRADLEY Small HMI Module.\n\n- Supply voltage (single-phase).\n- HMI device:\n\n- Touch screen.\n- TFT screen of 65536 colors.\n- 800 MHz CPU processor.\n- Screen size: 95 mm (width) x 53.9 mm (height) (4 inches).\n- Screen resolution: 480 x 272 pixels.\n- Backlight: white LED.\n- SD memory card compatible.\n\n- Connector for the Ethernet switch module.\n\nAB-PLC-K4. ALLEN BRADLEY PLC Kit 4.\n\nN-HMIA-AB. ALLEN BRADLEY Large HMI Module.\n\n- Supply voltage (single-phase): 230 VAC.\n- HMI device:\n\n- Touch screen.\n- TFT screen of 65536 colors.\n- 800 MHz CPU processor with 256 MB memory.\n- Screen size: 153.6 mm (width) x 86.6 mm (height).\n- Screen resolution: 800 x 480 pixels.\n- Backlight: white LED.\n- SD memory card compatible.\n\n- Connector for the Ethernet switch module\n\nAB-PLC-K5. ALLEN BRADLEY PLC Kit 5.\n\nN-MOD. Modem Communication Module.\n\n- Supply voltage (single-phase): 230 VAC.\n- Router-switch Ethernet network.\n- Wifi system to allow a wireless connection of devices (smartphone, tablet or PC).\n- Internet router with RJ-11 socket to connect the phone line.\n- Conjunction of practical exercises to perform a web server application.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs.\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (AB-PLC-K1 and AB-PLC-K2).\n- Using analog signals II (AB-PLC-K1 and AB-PLC-K2).\n- Square wave generator.\n- HMI simple program (AB-PLC-K3 or AB-PLC-K4).\n- Using digital outputs with HMI device I (AB-PLC-K3 or ABPLC-K4).\n- Using digital outputs with HMI device II (AB-PLC-K3 or ABPLC-K4).\n- Reading data from a register with the HMI device (AB-PLC-K3 or AB-PLC-K4).\n- Writing data to a register with the HMI device (AB-PLC-K3 or AB-PLC-K4).\n- Switching screens of the HMI device (AB-PLC-K3 or ABPLC-K4).\n- Internet connection of the PLC unit (AB-PLC-K5).\n- Control digital inputs with a web server application (ABPLC-K5).\n- Control digital outputs with a web server application (ABPLC-K5).\n- Control analog inputs with a web server application (ABPLC-K5).\n- Control analog outputs with a web server application (ABPLC-K5).",
        "Url": "edquip.co\/en\/edibon\/allen-bradley-plc-application",
        "Page title": "ALLEN BRADLEY PLC Application",
        "Page description": "ALLEN BRADLEY PLC Application for technical training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "640 x 320 x 920 mm approx.  (25.19 x 12.59 x 36.22 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "60 Kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/ALLEN BRADLEY PLC Application\/1755586299_AE-PLC-AB.png",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-892626",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "TGDEPC",
        "Content languages": "en, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "Live online",
            "In person",
            "Webinars",
            "Documentation"
        ],
        "Name": "Computer Controlled Two-Shaft Gas Turbine - Jet Engine",
        "Description": "Key features:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board (250 KS\/s, kilo samples per second).\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic & Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user's knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\nThe Computer Controlled Two-Shaft Gas Turbine\/Jet Engine, \u201cTGDEPC\u201d, developed by EDIBON, is a teaching unit for the operation demonstration of a Double Shaft Gas Turbine for electric generation and for other uses too. Moreover, the unit can be configured as a Jet Engine. A Gas Turbine is an internal combustion rotating motor. Its name is due to its working fluid being a gas, generally air. Basically, it consists of a compressor, where the inlet air pressure is increased and goes to a combustion chamber where a thermal energy input is carried out, and a turbine, where the hot gas expands. The turbine and the compressor are placed on the same axis, so a part of the energy generated in the turbine is used by the compressor to compress the air. The importance of studying the gas turbine is given by its great field of application, among its uses we can mention: Gas turbine for electricity generation. Combined cycle together with vapour turbine. Cogeneration: It is a combined cycle of electric power and thermal power. Reactor: in aviation field applications. The gas turbine as jet engine. Turboprops: unlike the turbojet the turbine is designed to obtain the maximum mechanic energy possible, which is used to move a propeller.\n\nThe main element of the Computer Controlled Two-Shaft Gas Turbine\/ Jet Engine, \u201cTGDEPC\u201d, is the High Pressure Turbine, which is also called Gas Generative Turbine. It consists of: - Radial compressor, which is feeded by atmospheric air to compress it. - Tubular combustion chamber. In every combustion there is a fuel (propane gas); a comburent, which in this case is compressed air received from the compressor, and the activation energy which will cause the ignition of the mix. - Expansion turbine: The inflamed gases of the combustion chamber transfer a part of the thermal energy that they have in the turbine blades. Compressor and turbine are mounted on the same shaft, so, when we have the system self sustaining, part of the thermal energy of the combustion gases is used to move the compressor. The extra thermal energy of the combustion gases is driven to the Low Pressure Turbine, or also called Power Turbine. In it, the rest of the combustion gases energy is transformed in mechanic energy, which is transformed in electric energy through a generator coupled to the turbine shaft. The second possibility of the \u201cTGDEPC\u201d unit operation is as a single shaft jet engine. The nozzle accessory is assembled to the Generative Turbine, what will cause an exhaust gases acceleration with the consequential reaction, which will be measured by a force sensor (load cell). The TGDEPC unit also includes: Start system: It consists of a centrifugal fan driven by an electrical motor. Air provided by this fan acts on the blades of the compressor, causing the rotation of the high pressure turbine. Fuel system: The line of fuel gas consists of a ball valve to open or close the feeding, a pressure regulation valve, a safety solenoid valve and an injector. It includes a flow sensor to measure de gas consumption. Ignition system: The activation energy of the air-fuel mix will cause the flame ignition. It consists of an ignition electrode or spark plug feeded by an ignition transformer. An ionization electrode detects that the flame is ignited. Lubrication system: It consists of an oil tank of 5 l. From this tank, we dispose of a gear pump to impulse the oil to the bearings of both turbine shafts. The system is completed with a filtration unit and two regulation valves to select the oil quantity to feed to each turbine. Refrigeration system: It consists of a plate heat exchanger and a tubular heat exchanger through which the oil transfers its heat to the refrigeration water. This Computer Controlled Unit is supplied with the EDIBON Computer Control System (SCADA), and includes: The unit itself + a Control Interface Box + a Data Acquisition Board +Computer Control, Data Acquisition and Data Management Software Packages, for controlling the process and all parameters involved in the process.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study of a gas turbine operation.\n- Determination of the gas turbine efficiency.\n- Determination of the compressor operation point.\n- Study of a gas turbine operation as a jet engine.\n- Operation with power turbine.\n- Determination of fuel consumption.\n- Thermal efficiency.\n- Air standard cycle.\n- Heat balance.\n- Work ratio.\n- Pressure ratio.\n- Pressure loss.\n- Air and fuel ratio.\n- Combustion efficiency.\n- Recording the turbine characteristic curve.\n- Determination of the efficiency of the compressor.\n- Determination of the efficiency of high pressure turbine.\n- Determination of the efficiency of output turbine (low pressure).\n- Temperatures measurements.\n- Effective turbine output power.\n- Safety systems in the operation of a gas turbine.\n- Thrust measurement.\n- Sensors calibration.\n- Many students view results simultaneously. To view all results in real time in the classroom by means of a projector or an electronic whiteboard.\n- Open Control, Multicontrol and Real Time Control. This unit allows intrinsically and\/or extrinsically to change the span, gains; proportional, integral, derivative parameters; etc, in real time.\n- The Computer Control System with SCADA allows a real industrial simulation.\n- This unit is totally safe as uses mechanical, electrical\/electronic, and software safety devices.\n- This unit can be used for doing applied research.\n- This unit can be used for giving training courses to Industries even to other Technical Education Institutions. 30.-Control of the TGDEPC unit process through the control interface box without the computer. 31.-Visualization of all the sensors values used in the TGDEPC unit process.\n\n- Several other exercises can be done and designed by the user",
        "Specs": "TGDEPC. Unit: Anodized aluminum frame and panels made of painted steel. The unit includes wheels to facilitate its mobility. Main metallic elements made of stainless steel. Diagram in the front panel with distribution of the elements similar to the real one. Using this unit the operation of both a two shaft gas turbine system for electric generation and a jet engine can be study and investigate. High Pressure Turbine, that it is the Gas Generative Turbine. It consists of: Radial compressor. Tubular type combustion chamber. Expansion turbine. Operation speed range: 70000 \u2013 90000 rpm. Max. compression ratio: 2:1. Max. fuel consumption: 20 kg\/hour. Low Pressure Turbine (Power Turbine): Speed range (r. p. M.): 15000 \u2013 25000 rpm. Electrical power: Measurement range: 0 \u2013 500 W. Asynchronous (motor) generator; computer controlled; speed range: 1500 \u2013 3000 rpm. Power: 1.5 kW. Power turbine connection and generator by means of adjustable belt drive. Operation as a jet engine: Turbine speed range: 60000 \u2013 160000 rpm. Trust nozzle, with force sensor (load cell). Trust measuring range: 0 \u2013 50 N. Start fan, driven by an electrical motor, for starting the turbine and gas sweep. This fan is automatically computer controlled and it is used to refrigerate. Aspiration muffler. Line of fuel gas, consists of: Valve to open or to close the feeding. Pressure regulation valve. Flow sensor, range: 12 - 80 l\/min. Solenoid valve, automatically computer controlled. Gas injector. Computer controlled proportional solenoid valve to control fuel flow. Spark plug, automatically computer controlled, powered by an ignition transformer. Ionization electrode, automatically computer controlled, to detect that the flame is ignited, as security system. Lubrication system, consists of: Oil tank of 5 l. Gear pump, automatically computer controlled, to impulse the oil to the bearings of both turbine shafts. Filtration unit. Two valves for regulating the oil feed to the turbine. Plate heat exchanger to cool the oil leaving the turbines. Tubular heat exchanger to cool the oil entering the turbines. Water supply connections. Exhaust gas outlet and exhaust muffler. Adjustable electrical resistance (Resistance 1000 W, 40 Ohm) as a charging element.\n\nSensors and instrumentation: Eight temperature sensors, \u201cK\u201d type, placed in the different process stages (temperature range: 0 \u2013 1100 \u00b0C): Temperature of the inlet air to the compressor. Temperature of the inlet air to the combustion chamber. Temperature of the inlet gases to the gas generative turbine. Temperature of the inlet gases to power turbine. Temperature of the exhaust gases. Temperature of the bearing lubrication oil. Temperature of the inlet refrigeration water. Temperature of the outlet refrigeration water. Two speed sensors to measure the rpm of each turbine, measurement range: 0 \u2013 200000 rpm. Five pressure sensors, for measuring: Fuel (propane gas) pressure at the combustion chamber inlet, range: 0 \u2013 2 bar. Pressure in the combustion chamber, range: 0 \u2013 2 bar. Pressure at the turbine outlet, range: 0 \u2013 2 bar. Compressor outlet, range: 0 \u2013 2 bar. Compressor inlet, range: 0 \u2013 100 mbar. Three flow sensors: Inlet air, range: 0 \u2013 3000 m\u00b3\/h. Outlet gases, range: 0 \u2013 3000 m\u00b3\/h. Fuel gas, range: 12 - 80 l\/min. Force sensor (load cell) of the generator. Force sensor (load cell), thrust measuring: 0 \u2013 50 N. Four manometers, range: 0 \u2013 2 bar. Three pressure switches to control air and oil circuits. ATEX flowmeter for measuring the gas consumption at any moment. Current and voltage measurement. Handling box with PLC, which includes: Front panel with LEDs indicating the unit status. Oil temperature control display. Safety system to prevent faults. Operation with propane. The complete unit includes as well:\n\nAdvanced Real-Time SCADA. Open Control + Multicontrol + Real-Time Control. Specialized EDIBON Control Software based on LabVIEW. National Instruments Data Acquisition board (250 KS\/s, kilo samples per second). Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements. Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time. Capable of doing applied research, real industrial simulation, training courses, etc. Remote operation and control by the user and remote control for EDIBON technical support, are always included. Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic & Software). Designed and manufactured under several quality standards. Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user's knowledge and progress reached. This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\nTGDEPC\/CIB. Control Interface Box: The Control Interface Box is part of the SCADA system. Control interface box with process diagram in the front panel and with the same distribution that the different elements located in the unit, for an easy understanding by the student. All sensors, with their respective signals, are properly manipulated from -10V. to +10V. computer output. Sensors connectors in the interface have different pines numbers (from 2 to 16), to avoid connection errors. Single cable between the control interface box and computer. The unit control elements are permanently computer controlled, without necessity of changes or connections during the whole process test procedure. Simultaneous visualization in the computer of all parameters involved in the process. Calibration of all sensors involved in the process. Real time curves representation about system responses. Storage of all the process data and results in a file. Graphic representation, in real time, of all the process\/system responses. All the actuators\u2019 values can be changed at any time from the keyboard allowing the analysis about curves and responses of the whole process. All the actuators and sensors values and their responses are displayed on only one screen in the computer. Shield and filtered signals to avoid external interferences. Real time computer control with flexibility of modifications from the computer keyboard of the parameters, at any moment during the process. Real time computer control for pumps, compressors, heating elements, control valves, etc. Real time computer control for parameters involved in the process simultaneously. Open control allowing modifications, at any moment and in real time, of parameters involved in the process simultaneously. Three safety levels, one mechanical in the unit, another electronic in the control interface and the third one in the control software.\n\nDAB. Data Acquisition Board: The Data Acquisition board is part of the SCADA system. PCI Express Data acquisition board (National Instruments) to be placed in a computer slot. Bus PCI Express. Analog input: Number of channels= 16 single-ended or 8 differential. Resolution=16 bits, 1 in 65536. Sampling rate up to: 250 KS\/s (kilo samples per second). Input range (V)=\u00b110 V. Data transfers=DMA, interrupts, programmed I\/0. DMA channels=6. Analog output: Number of channels=2. Resolution=16 bits, 1 in 65536. Maximum output rate up to: 900 KS\/s. Output range (V)=\u00b110 V. Data transfers=DMA, interrupts, programmed I\/0. Digital Input\/Output: Number of channels=24 inputs\/outputs. D0 or DI Sample Clock frequency: 0 to 100 MHz. Timing: Number of Counter\/timers=4. Resolution: Counter\/timers: 32 bits. The Data Acquisition board model may change at any moment, providing the same or better features than those required for the unit.\n\nTGDEPC\/CCSOF. Computer Control + Data Acquisition + Data Management Software: The three softwares are part of the SCADA system. Compatible with actual Windows operating systems. Graphic and intuitive simulation of the process in screen. Compatible with the industry standards. Registration and visualization of all process variables in an automatic and simultaneous way. Flexible, open and multicontrol software, developed with actual windows graphic systems, acting simultaneously on all process parameters. Management, processing, comparison and storage of data. Sampling velocity up to 250 KS\/s (kilo samples per second). Calibration system for the sensors involved in the process. It allows the registration of the alarms state and the graphic representation in real time. Comparative analysis of the obtained data, after the process and modification of the conditions during the process. Open software, allowing the teacher to modify texts, instructions. Teacher\u2019s and student\u2019s passwords to facilitate the teacher\u2019s control on the student, and allowing the access to different work levels. This unit allows the 30 students of the classroom to visualize simultaneously all the results and the manipulation of the unit, during the process, by using a projector or an electronic whiteboard.\n\nCables and Accessories, for normal operation. Manuals: This unit is supplied with 8 manuals: Required Services, Assembly and Installation, Interface and Control Software, Starting-up, Safety, Maintenance, Calibration & Practices Manuals. References 1 to 6 are the main items: TGDEPC + TGDEPC\/CIB + DAB + TGDEPC\/CCSOF + Cables and Accessories + Manuals are included in the minimum supply for enabling normal and full operation.\n\nREQUIRED SERVICES\n\n- Electrical supply: single-phase 200 VAC \u2013 240 VAC\/50 Hz or 110 VAC \u2013 127 VAC\/60 Hz. - Water supply (min. 3 l\/min.) and drain. - Exhaust gases extractor. - Computer.\n\nREQUIRED CONSUMABLES (Not included)\n\n- Propane 1.5 \u2013 2.5 bar.\n\nDIMENSIONS AND WEIGHTS\n\nTGDEPC: Unit: -Dimensions: 2000 x 700 x 1900 mm approx. (78.73 x 27.55 x 74.80 inches approx.) -Weight: 150 Kg approx. (330 pounds approx.). Control Interface Box: -Dimensions: 490 x 330 x 310 mm approx. (19.29 x 12.99 x 12.20 inches approx.) -Weight: 10 kg approx. (22 pounds approx",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-two-shaft-gas-turbine-jet-engine",
        "Page title": "Computer Controlled Two-Shaft Gas Turbine - Jet Engine",
        "Page description": "Computer Controlled Two-Shaft Gas Turbine. Request quotation today! Free price estimations, hands-on learning, suitable for technical colleges & universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
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    {
        "Edquip ID": "PL-981903",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "TPTV\/1.5kW\/CTS",
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        "Name": "Computer Controlled and Touch Screen 1.5 kW Steam Power Plant",
        "Description": "The Computer Controlled and Touch Screen 1.5 kW Steam Power Plant,\"TPTV\/1.5kW\/CTS\", allows the detailed study of the power generation cycle using steam as process fluid.\n\nIn addition to the main TPTV unit, the unit has three required units, Water Softener for TPTV\/1.5kW\/CTS, \"TPTV\/1.5kW-WS\", Cooling Tower for TPTV\/1.5kW\/CTS, \"TPTV\/1.5kW-CT\", and Water-tube Steam Generator for TPTV\/1.5kW\/CTS, \"TPTV\/1.5kW-SGA\" or Water-tube Steam Generator for TPTV\/1.5kW\/CTS, \"TPTV\/1.5kW-SGP\", which allow optimization of the unit and increase the degree of similarity of the 1.5 kW Steam Power Plant with a real steam power generation plant.\n\nThe incorporation of the Water Softener for TPTV\/1.5kW\/CTS, \"TPTV\/1.5kW-WS\" makes it possible to eliminate the hardness of the mains water by incorporating a 40 l column of ion exchange resin, which retains the lime present in the water, exchanging the calcium cations for sodium cations. The decalcified water can flow into the Cooling Tower for TPTV\/1.5kW\/CTS, \"TPTV\/1.5kW-CT\", or into the intake tank and, subsequently, into the Steam Generator of choice, (\"TPTV\/1.5kW-SGA\" or \"TPTV\/1.5kW-SGP\"), tank.\n\nThe decalcified water is stored in the Cooling Tower for TPTV\/1.5kW\/CTS, \"TPTV\/1.5kW-CT\". If the water level is below the level switch AN-6, the unit will automatically fill the unit by opening the automatic valve AVS-4 until the level switch AN-7 is reached.\n\nIn case the water level is correct, the water is pumped to the condenser of the Steam Power Plant, \"TPTV\", to condense the expanded steam in the turbine, thus allowing the condensate to be returned to the intake tank. The refrigeration tower tank can be emptied manually by means of valves V-3 and V-16.\n\nThe inlet tank can therefore be filled directly with decalcified water at the start-up of the unit or it can be filled with the condensate return. In both cases, the purge valve V-13 must remain open to remove air from the tank and facilitate filling. If there is no water available, the AVS-3 valve will be opened, allowing the tank to be filled up to the level switch AN-5. The tank can be emptied manually by means of valves V-9 and V-10.\n\nIf the liquid level is sufficient, the water is pumped to the boiler. In the boiler, the water is progressively heated and pressurised by the diesel combustion process until the desired vapour conditions are obtained.\n\nOnce the process conditions are obtained, the steam passes through a liquid separator to remove any suspended droplets present in the steam generated in the Steam Generator of choice, (\"TPTV\/1.5kW-SGA\" or \"TPTV\/1.5kW-SGP\"). Once dry, the steam is reheated by passing through the installation\u2019s resistance to obtain superheated steam.\n\nTo regulate the steam flow rate of the circuit, the installation has a proportional valve that throttles the flow rate of the installation, allowing it to operate in a wide range of steam flow rates. After passing through the proportional valve, the steam can take two different paths.\n\nThe first path allows the turbine to be bypassed by opening the AVS-2 valve, thus ensuring the integrity of the turbine until the desired process conditions are obtained. This bypass flows into the condenser where the steam is condensed, closing the cycle.\n\nThe second path allows the turbine to extract thermal energy from the steam, converting it into mechanical energy, which is converted into electrical energy by the generator. The rotational speed of the turbine, as well as the torque and the power generated are measured by different sensors in the turbine.\n\nIn order to optimize the rotation of the turbine, the turbine is equipped with a lubrication reservoir. In order to remove any condensation that may occur during the first moments of contact between the steam and the cold blades of the turbine, the turbine is equipped with a drain valve.\n\nThis computer controlled unit is supplied with the EDIBON Control System (SCADA), and includes: The unit itself + CTS + Control, Data Acquisition and Data Management Software Packages, for controlling the process and all parameters involved in the process.\n\nGUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL\n\n- Study and analysis of the unit prior to its commissioning.\n- Study, analysis and testing of the water softener.\n- Study, analysis and testing of the boiler.\n- Study, analysis of the Rankine cycle.\n- Calibration of sensors.\n\nMORE PRACTICAL EXERCISES TO BE DONE WITH THE UNIT\n\n- Study, analysis and test of pressure in the circuit.\n- Study of pressure and temperature control techniques in a steam thermal power plant.\n- Study and analysis of the appropriate maintenance in a steam thermal power plant.\n- Shutdown of a steam thermal power station.\n- Determination of the water-steam ratio required by the plant.\n- Study of the relationship between the powers delivered to the electricity grid and the steam flow rate.\n- Study of the relationship between the powers delivered to the electrical grid and the steam pressure.\n- Study of the ratio of the active power of the generator as a function of the steam flow rate in an isolated circuit (isolated mode).\n- Study of the ratio of the active power of the generator as a function of the vapor pressure in an isolated circuit.\n- Study of the relationship of the active power generation of the generator as a function of the vacuum pressure at the turbine outlet in an isolated circuit (isolated mode).\n- Study of heat losses in pipes.",
        "Specs": "1 TPTV\/1.5kW\/CTS. Unit:\n\nAnodized aluminum frame and panels made of painted steel.\n\nThe unit includes wheels to facilitate its mobility.\n\nMain metallic elements made of stainless steel.\n\nDiagram in the front panel with distribution of the elements similar to the real one.\n\nTransparent panels to protect the unit that allows the user to observe the operation of the unit.\n\nTransparent panels for the protection of the unit against steam leaks that allow the visualisation of the operation of the unit.\n\nLocal control of the plant by PLC-HMI system using a 10.1'' touch screen, allowing users to have an overview of the plant and operating conditions.\n\nThermally insulated units and piping with temperatures above 60 \u00b0C.\n\nIntake tank in stainless steel or similar.\n\nTurbine:\n\nPower: 0.5 - 1.5 kWe.\n\nInlet conditions: superheated steam: 11 bar; temperature: 200 - 250 \u00b0C.\n\nOutlet conditions: steam: 1 bar; temperature: 95 - 100 \u00b0C.\n\nCondenser:\n\n80 - 100 kW.\n\nRefrigeration water: temperatura < 35 \u00b0C.\n\nWork pressure: 1 bar.\n\nRelief valve: 12 bar.\n\nProportional valve to control the working speed.\n\nSolenoid valves to control the inlets and outlets of the unit.\n\nRelief valve in the steam circuit.\n\nInstrumentation:\n\nFour pressure sensor, range 0 - 16 bar.\n\nSeven \u201cJ\u201d type temperature sensors, range: 0 - 500 \u00b0C.\n\nVortex type flow sensor for steam flow measurement, range: 0 - 200 kg\/h.\n\nSpeed sensor.\n\nWattmeter.\n\nThe complete unit includes as well:\n\nAdvanced Real-Time SCADA.\n\nOpen Control + Multicontrol + Real-Time Control.\n\nSpecialized EDIBON Control Software.\n\nCalibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n\nProjector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n\nCapable of doing applied research, real industrial simulation, training courses, etc.\n\nRemote operation and control by the user and remote control for EDIBON technical support, are always included.\n\nTotally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic & Software).\n\nDesigned and manufactured under several quality standards.\n\nRequired elements (Not included):\n\nRequired: \u201cTPTV\/1.5kW-WS\u201d and \u201cTPTV\/1.5kW-CT\u201d. Of the rest of the elements, additionally, only one is required:\n\n- TPTV\/1.5kW-WS. Water Softener for TPTV\/1.5kW\/CTS.\n\nUnit for treating hardness in water.\n\nIon exchange resin.\n\nSalt tank for the regeneration of the ion exchange resin.\n\nWorking pressure from 2 - 8 bar.\n\nWorking temperature of 10 - 40 \u00b0C.\n\nValve system that allows modulating the hardness of the output water.\n\nWater hardness kit included.\n\nSolenoid valves to control the inlet and outlet of the unit.\n\nDrain valves.\n\nDimensions: 1000 x 1000 x 1000 mm approx. (39.37 x 39.37 x 39.37 inches approx.)\n\nWeight: 50 kg approx. (110 pounds approx.)\n\n- TPTV\/1.5kW-CT. Cooling Tower for TPTV\/1.5kW\/CTS.\n\nRefrigeration unit made of fiberglass or similar.\n\nWater tank included.\n\nCooling capacity 80 - 100 kW.\n\nFan to force air into the cooling tower.\n\nAntibacterial filling material.\n\nWater pumping system.\n\nSolenoid valves to control the inlet and outlet of the unit.\n\nDrain valves.\n\nInstrumentation:\n\nCooling water flow sensor, range 0 - 1000 l\/min.\n\nTemperature sensor type \u201cJ\u201d, measuring range up to 500 \u00b0C.\n\nFlow sensors.\n\nDimensions: 1600 x 1000 x 3000 mm approx. (62.99 x 39.37 x 118.11 inches approx.)\n\nWeight: 200 kg approx. (440 pounds approx.)\n\n- TPTV\/1.5kW-SGA. Water-tube Steam Generator for TPTV\/1.5kW\/CTS.\n\nWater-tube high energy efficiency and easy maintenance steam generator.\n\nInstantaneous steam generation.\n\nTransparent panels to protect the unit against steam leaks, allowing the operation of the unit to be visualised.\n\nThermally insulated unit and piping with temperatures above 60 \u00b0C.\n\nDrainage at the bottom to allow the tank to be completely emptied.\n\nExternal insulation.\n\nDesign pressure: 12 bar.\n\nDesign temperature: 180 - 210 \u00baC.\n\nPower: 120 - 180 kW approx.\n\nIncludes pumping system for water transfer.\n\nLiquid separator.\n\nReheater: 10 kW.\n\nIncludes liquid and\/or gaseous fuel burner.\n\nOperating and safety pressure switch.\n\nControl, programming and monitoring of operating variables.\n\nPressure safety valve.\n\nSolenoid valves to control the inputs and outputs of the unit.\n\nInstrumentation:\n\nPressure sensor, range: 0 - 16 bar.\n\n\u201cJ\u201d type temperature sensors, range: 0 - 500 \u00b0C.\n\nFuel flow sensor, range 40 - 500 ml\/min.\n\nDimensions: 1200 x 1200 x 1800 mm approx. (47.24 x 47.24 x 70.86 inches approx.)\n\nWeight: 500 kg approx. (1102 pounds approx.)\n\n- TPTV\/1.5kW-SGP. Water-tube Steam Generator for TPTV\/1.5kW\/CTS.\n\nPirotubular high energy efficiency and easy maintenance steam generator.\n\n300 l aprox tank for steam storage.\n\nTransparent panels to protect the unit against steam leaks, allowing the operation of the unit to be visualised.\n\nThermally insulated unit and piping with temperatures above 60 \u00b0C.\n\nDrainage at the bottom to allow the tank to be completely emptied.\n\nExternal insulation.\n\nDesign pressure: 12 bar.\n\nDesign temperature: 180 - 210 \u00b0C.\n\nPower: 120 - 180 kW approx.\n\nIncludes pumping system for water transfer.\n\nLiquid separator.\n\nReheater: 10 kW.\n\nIncludes liquid and\/or gaseous fuel burner.\n\nOperating and safety pressure switch.\n\nControl, programming and monitoring of operating variables.\n\nPressure safety valve.\n\nSolenoid valves to control the inputs and outputs of the unit.\n\nInstrumentation:\n\nPressure sensor, range: 0 - 16 bar.\n\n\u201cJ\u201d type temperature sensors, range: 0 - 500 \u00b0C.\n\nFuel flow sensor, range 40 - 360 ml\/min.\n\nDimensions: 2500 x 1250 x 4250 mm approx. (98.42 x 49.21 x 167.32 inches approx.)\n\nWeight: 1200 kg approx. (2645 pounds approx.)\n\n2 TPTV\/1.5kW\/CTS\/PLC. Control and Monitoring:\n\nIt is a system composed of an interface that includes PLC modules such as CPU, digital I\/O module, analog I\/O module, communications module, etc. and a control box with HMI display.\n\nPLC interface:\n\nPLC controller.\n\nDigital I\/O modules:\n\nDigital inputs; input range 0 V to 24 V.\n\nDigital outputs; relay output.\n\nAnalogue I\/O modules:\n\nAnalog inputs; 16-bit resolution. Input range -10 V to +10 V.\n\nAnalog outputs; 16-bit resolution. Output range -10 V to +10 V.\n\nConnectors and Communication Ports:\n\nEthernet connector.\n\nUSB connector.\n\nThe PLC interface may change at any moment, providing the same or better features than those required for the unit.\n\nHMI control box and display:\n\nHMI display:\n\nTouch Screen: Analog Resistive.\n\nSize: 10\u201d 16:9 TFT.\n\nResolution: 1024 x 600, WVGA.\n\nColors: 64 K.\n\nEthernet port.\n\n3 TPTV\/1.5kW\/CTS\/CCSOF. Supervision Software + Control Software + Data Acquisition Software + Data Management Software:\n\nSCADA System is composed of four software package with the following features:\n\nThe Supervision Software is in charge of monitoring in real time start and stop elements, unexpected conditions and process evolution. In case of being necessary, it actuates on the system and notifies the user the incorrect operations.\n\nThe Control Software allows to manage multiple process and variables in real time either a manual way or automatic way. Several type of algorithms of control such PID CONTROL are implemented depending on the field of study.\n\nThe Data Acquisition Software focus on measuring and processing signals from the process with very high accuracy getting a synchronized and fast response of the system. A calibration system is part of this software to adjust the sensor measurements.\n\nThe Data Management Software stores and represents, alarms, variables and process evolution in real time both in a graphic format and in a numeric format such time charts or process diagram. Printable reports can be generated or historian data can be loaded to study the experiments in detail.\n\nThe Software is open and flexible architecture that facilities to access different work levels both instructors and students. It is supported by current Windows operating system and industrial standards. The graphical user interface is intuitive and user- friendly.\n\n4 Cables and Accessories, for normal operation.\n\n5 Manuals:\n\nThis unit is supplied with 8 manuals: Required services, Assembly and Installation, Control software, Starting-up, Safety, Maintenance, Calibration & Practices manuals.\n\n* References 1 to 5 are the main items: TPTV\/1.5kW\/CTS + TPTV\/1.5kW\/CTS\/PLC + TPTV\/1.5kW\/CTS\/CCSOF + Cables and Accessories + Manuals are included in the minimum supply for enabling normal and full operation.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-touch-screen-1-5-kw-steam-power-plant",
        "Page title": "Computer Controlled and Touch Screen 1.5 kW Steam Power Plant",
        "Page description": "Computer Controlled and Touch Screen 1.5 kW Steam Power Plant. Request your quotation today! Free price estimations, suitable for colleges and universities.",
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        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-660871",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL AI-2.0",
        "Content languages": "en, fr_FR, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Laboratory For The Development Of Artificial Intelligence",
        "Description": "This didactic laboratory DL AI-2.0 for the development of Artificial Intelligence solutions is a state-of-the-art platform designed to provide practical and complete experience in the development of Artificial Intelligence solutions. With software and hardware that allow students to illustrate real-life scenarios, they will develop a comprehensive understanding of problem-solving from an AI perspective.\n\nThe laboratory DL AI-2.0 is mainly composed of a system with hardware modules with the support of a Server on which all the software related to AI field is installed. Three students can work on it performing all the experiments and the proposed training objectives with the help of the provided software\u2019s as listed at the end of this catalogue in \u201cSOFTWARE APPLICATIONS\u201d & \u201cTRAINING OBJECTIVES\u201d. Even the three students who work with the HW need their own PC.\n\nThis lab also allows to increase the student\u2019s number, up to 17 (becoming 20 students total), to work on it at the same time (with access to the Server from their own PCs) by providing a single license each. This additional license (when and if needed) has the following code DL AI-2.0SW. Please refer to other suggested configurations at the end of this catalogue.\n\nPEDAGOGICAL APPROACH\n\nIn the didactic laboratory for the development of Artificial Intelligence solutions, the challenge-based learning (CBL) approach focuses on providing students with practical, real-world challenges that allow them to apply theoretical knowledge in specific situations. Rather than simply presenting information passively, this approach engages students in solving problems and creating innovative solutions. Students are faced with challenges that simulate real-life and industry problems, such as process optimization, anomaly detection or efficiency improvement. Using the hardware and software available in the lab, as well as artificial intelligence tools, students work in teams to develop practical solutions that address these challenges.\n\nMAIN CHARACTERISTICS\n\n-  Multidisciplinary: Useful for the study of software development, artificial intelligence.\n-  Economic: By involving several disciplines, the cost of the product can be divided among different departments.\n-  Open: Provides the architecture to implement standard and new solutions, allowing the use of the product in professional and research activities.\n-  State-of-the-art: The product provides a descriptive view of software architecture for development using artificial intelligence.\n\nMAIN DIDACTIC CONCEPTS\n\n-  AI basics.\n-  Machine Learning (ML).\n-  Sensors and actuators as data sources.\n-  Data processing and analysis.\n-  Programming and AI tools.\n-  Industrial applications.\n\nSIMULATED INDUSTRIAL CHALLENGES\n\n-  Lighting management.\n-  Quality control.\n-  Process automation.\n-  Detection.\n-  Predictive maintenance.\n-  Condition monitoring.\n-  Optimization.\n\nWHO IS IT FOR?\n\nSchools, Academia and Industry (to validate theory and test concepts):\n\n-  Automation Engineer\n-  Software Engineer\n-  Mechatronics Engineering\n-  Process Engineering\n-  Information Technology\n-  Technical and Vocational Education and Training (TVET)",
        "Specs": "ELEMENTS THAT COMPOSE IT\n\nIoT MODULE (NodeMCU)\n\n-  They promote learning of key concepts of electronics, IoT, automation, and embedded programming and AI.\n-  They facilitate the connection and testing of analog and digital sensors (temperature, humidity, light, proximity, etc.).\n-  They use banana terminal blocks to facilitate wiring without the need for soldering.\n-  They provide learning about ADC\/DAC converters.\n-  They provide knowledge on Microcontroller programming.\n-  They us GPIO control for reading inputs and outputs.\n-  They use PWM signal generation.\n-  They use interrupts for real-time events.\n-  They use MQTT and HTTP protocols for communication.\n-  They create Wi-Fi sensors.\n-  They use actuator control.\n-  They facilitate interaction with Node-Red environment.\n-  They facilitate implementation of AI models.\n\nAI DEVELOPMENT MODULE (Jetson NANO NVIDIA)\n\n-  They promote learning of key concepts of electronics, IoT, automation, and embedded programming and AI.\n-  They facilitate the connection and testing of digital sensors (temperature, humidity, light, proximity, etc.).\n-  They use banana terminal blocks to facilitate wiring without the need for soldering.\n-  They provide learning about DAC converters.\n-  They support for I2C, SPI, and UART protocols.\n-  They support development in Python.\n-  They us GPIO control.\n-  They use PWM signals control.\n-  They support real-time event and outage handling.\n-  They support real-time image processing.\n-  They facilitate implementation of neural networks.\n-  They support computer vision.\n-  They support HTTP integration.\n-  They support interaction with Node-Red.\n-  They support interaction with DC Motor Control, Servos and Stepper Motor.\n-  They facilitate the use of LIDAR.\n\nEMBEDDED DEVELOPMENT MODULE (ARDUINO MEGA)\n\n-  They promote learning of key concepts of electronics, IoT, automation, and embedded programming and AI.\n-  They facilitate the connection and testing of analog and digital sensors (temperature, humidity, light, proximity, etc.).\n-  They use banana terminal blocks to facilitate wiring without the need for soldering.\n-  They use Arduino IDE and C++.\n-  They us GPIO control.\n-  They use PWM signals control.\n-  They facilitate Interruptions for real-time events.\n-  They support for I2C and SPI.\n-  They facilitate communication with other microcontrollers.\n-  They facilitate actuator control and automation.\n-  They facilitate interaction with LCD and OLED screens.\n-  They use with matrix keypads and LED matrices.\n\nUDP SENSOR MODULE\n\n-  They collect essential data to train AI models.\n-  They provide real-time information for decision making.\n-  They simulate real-world conditions to solve practical problems.\n-  They connect the physical world with AI applications.\n-  They facilitate experimentation with different types of data.\n-  They allow to measure, monitor environmental variables.\n-  They help to understand the impact of AI on physical systems.\n-  They promote the integration of hardware and software in educational projects.\n-  They promote active learning through direct manipulation.\n-  They foster innovation by exploring new AI applications.\n-  They constantly feed the information into the database to perform exercises with historical information.\n-  They provide real-time information to students who are not directly working in the device.\n-  They allow multiple exercises to be performed from an external computer.\n\nDISPLAY MODULE\n\n-  They receive and deploy real-time information from UDP sensors.\n-  They allows the connection of multiple workstations for running software experiments.\n-  They keep the communication between the various environments synchronized.\n\nSENSOR MODULE\n\n-  They collect essential data to train AI models.\n-  They provide real-time information for decision making.\n-  They simulate real-world conditions to solve practical problems.\n-  They connect the physical world with AI applications.\n-  They facilitate experimentation with different types of data.\n-  They allow us to measure, monitor and control environmental variables.\n-  They help to understand the impact of AI on physical systems.\n-  They promote the integration of hardware and software in educational projects.\n-  They promote active learning through direct manipulation.\n-  They foster innovation by exploring new AI applications.\n\nACTUATOR MODULE\n\n-  They transform AI decisions into physical actions.\n-  They allow tangible interaction with the environment.\n-  They demonstrate the applicability of AI in real systems.\n-  They facilitate the validation of AI predictions and models.\n-  They teach how to automate processes through AI.\n-  They simulate practical solutions to industrial problems.\n-  They convert processed data into useful answers.\n-  They integrate theoretical learning with visible results.\n-  They encourage creativity in the design of intelligent systems.\n-  They drive understanding of the impact of AI on automation.\n\nPOWER SUPPLY MODULE\n\n-  Universal voltage input: Compatible with 110-240Vac and 50\/60Hz.\n-  Regulated outputs: Provides 5V and 3.3V DC simultaneously.\n-  Current capacity: Supports up to 2A per output.\n-  Overload protection: Prevents damage due to overcurrent or short circuits.\n-  Compact design: Easy integration into prototypes or assembled systems.\n-  Standard connectors: Screw terminals and pins for easy connections.\n-  LED indicators: Displays real-time power status.\n-  Energy efficiency: Reduces energy loss during conversion.\n-  Compatibility: Ideal for powering microcontrollers such as Arduino, NodeMCU and sensors.\n-  Easy mounting: Can be fixed to surfaces or educational racks.\n\nINTERACTION AND PROCESSING SOFTWARE\n\n-  User-friendly graphical interface: Makes it easy to read sensors and write to actuators.\n-  Integration with Python: Allows interaction of AI models in TensorFlow directly from the software.\n-  Real-time processing: Collects data from sensors and transmits it quickly to AI.\n-  Feedback system: Receives AI outputs and translates them into commands for actuators.\n-  Data logging: Saves information for further analysis or training of new models.\n-  Scalability: Supports multiple sensors and actuators for complex systems.\n-  They teach how to automate processes through AI.\n-  They simulate practical solutions to industrial problems.\n-  They convert processed data into useful answers.\n-  They integrate theoretical learning with visible results.\n-  They encourage creativity in the design of intelligent systems.\n-  They encourage he is understanding of the impact of AI on automation.\n\nSOFTWARE APPLICATIONS\n\n-  Path programming: This system allows for analyzing the behaviour of the A* algorithm, which is key to several industrial processes, such as:\n\n-  Route optimization.\n-  Robot movement with obstacle avoidance.\nIt is based on the management of Euclidean distances and is ideal for exploring intelligent algorithms. The application operates on the server and uses technology that students will review within the scope of the lab.\n\nAssociated knowledge areas:\n\n-  Route planning and optimization.\n-  Database construction.\n-  Information management (SQL).\n\nAssociated practices:\n\n-  Implementation of web services in Python.\n-  Algorithm programming in Python.\n-  Communications with external systems.\n-  Information management and IoT storage.\n-  Generation of information models for AI.\n-  ETL (Extraction, Transformation, and Loading) from applications built in the lab.\n-  Implementation of web services for information exchange.\n\n-  Web Server publisher: This system allows the generation of different web services to exploit the main database. It is a practical tool for exploring the extraction of information contained in a database, exemplifying what happens in a real-life industrial scenario. Customized web services are stored in the database to be exploited whenever required.\n\nAssociated knowledge areas:\n\n-  Data extraction and querying.\n-  Interacts with different platforms.\n\nAssociated practices:\n\n-  Information exploitation.\n-  Data management in JSON format.\n-  Development of communication interfaces for information reading (M2M).\n\n-  Data Base Cloning: This system allows for the creation of copies of the main database. Students can work with the information contained therein and modify it according to their needs to execute the various experiments carried out in the laboratory. Additionally, it provides the ability to develop knowledge of database management and is also an important tool for Information Technology Engineers. This system resides on the laboratory server.\n\nAssociated knowledge areas:\n\n-  Database design,\n-  Database construction,\n-  Information management (SQL).\n\nAssociated practices:\n\n-  Information management and IoT storage,\n-  Generation of information models for AI,\n-  ETL (Extraction, Transformation, and Loading) from applications built in the laboratory,\n-  Implementation of Web services for information exchange.\n\n-  Python: This environment allows for the development of applications using the Python programming language. Students can create custom scripts for task automation, data analysis, and interaction with sensors, actuators, or web services, depending on the requirements of each experiment conducted in the lab.\n\nAdditionally, Python provides a powerful and versatile platform for developing skills in structured and object-oriented programming, making it an essential tool for engineers in the fields of automation, artificial intelligence, and information technology. This environment is installed locally and can be integrated with other lab systems.\n\nAssociated knowledge areas:\n\n-  Programming logic.\n-  Data structures.\n-  Object-oriented programming.\n-  Process automation.\n\nAssociated practicals:\n\n-  Development of scripts for data acquisition and processing.\n-  Automation of tasks in the lab.\n-  Interaction with hardware through libraries such as pyserial, gpiozero, or RPi.GPIO.\n-  Implementation of machine learning algorithms and data analysis using pandas, numpy, and scikitlearn.\n-  Building applications with graphical interfaces or web servers using Flask.\n\n-  TensorFlow\n-  MySQL\n-  OpenCV\n\nMAIN BASIC CONFIGURATION (20 students)*\n\n-  1 x DL AI-2.0 \u2013 AI Main configuration (Hardware system, Server, Software\u2019s, and Applications) (for 3 students).\n-  17 x DL AI-2.0SW. (for 17 students)\n\nEXAMPLES FOR OTHER CONFIGURATIONS*\n\nIf the laboratory includes less than 20 students (i.e. 15 students), it will be necessary to have:\n\n-  1 x DL AI-2.0. (for 3 students)\n-  12 x DL AI-2.0SW. (for 12 students)\n\nIf it includes 30 students, it will be necessary to have:\n\n-  2 x DL AI-2.0. (for 6 students)\n-  24 x DL AI-2.0SW. (for 24 students)\n\nIf it includes 40 students, it will be necessary to have:\n\n-  2 x DL AI-2.0. (for 6 students)\n-  34 x DL AI-2.0SW. (for 34 students)\n\nIf it includes 50 students, it will be necessary to have:\n\n-  3 x DL AI-2.0. (for 9 students)\n-  41 x DL AI-2.0SW. (for 41 students)\n\nIf it includes 55 students, it will be necessary to have:\n\n-  3 x DL AI-2.0. (for 9 students)\n-  46 x DL AI-2.0SW. (for 46 students)\n\nIf it includes 60 students, it will be necessary to have:\n\n-  3 x DL AI-2.0. (for 9 students)\n-  51 x DL AI-2.0SW. (for 51 students)\n\n*: even the three students who work with the HW need their own PC, and DL AI-2.0SW is a single license for the expansion of the basic hardware configuration.",
        "Url": "edquip.co\/en\/de-lorenzo\/laboratory-for-the-development-of-artificial-intelligence",
        "Page title": "Laboratory For The Development Of Artificial Intelligence: De Lorenzo - EDQUIP",
        "Page description": "Laboratory For The Development Of Artificial Intelligence. Request your quotation today, free price estimations, suitable for technical colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 20,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "9023 0010",
        "Equipment dimensions": "115 x 35 x 110",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "30",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "62 x 121 x 84",
        "Packed dimensions unit": "cm",
        "Packed weight": "100",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/LABORATORY FOR THE DEVELOPMENT OF ARTIFICIAL INTELLIGENCE\/LABORATORY FOR THE DEVELOPMENT OF ARTIFICIAL INTELLIGENCE_DL AI-2.0_De Lorenzo_DL AI2.0.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/h0YJkVSkMRs",
        "Main category": "Technical Training Equipment"
    },
    {
        "Edquip ID": "PL-416415",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL AI-BASE",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Laboratory For The Development Of Artificial Intelligence  For Colleges",
        "Description": "This didactic laboratory DL AI-BASE is an introductory platform designed for technical and vocational education. It offers a practical and accessible approach to the fundamentals of Artificial Intelligence and the Internet of Things. With integrated hardware and software, students can explore real-life scenarios while developing basic skills in AI-based problem solving. The laboratory serves as a solid foundation for future studies in emerging technologies. The laboratory DL AI-BASE is mainly composed of a system with hardware modules with the support of a Server on which all the software related to AI field is installed. Three students can work on it performing all the experiments and the proposed training objectives with the help of the provided software\u2019s as listed at the end of this catalogue in \u201cSOFTWARE APPLICATIONS\u201d & \u201cTRAINING OBJECTIVES\u201d. Even the three students who work with the HW need their own PC. This lab also allows to increase the student\u2019s number, up to 17 (becoming 20 students total), to work on it at the same time (with access to the Server from their own PCs) by providing a single license each. This additional license (when and if needed) has the following code DL AI-BASESW. Please refer to other suggested configurations at the end of this catalogue.\n\nPEDAGOGICAL APPROACH\n\nIn the didactic laboratory for the development of Artificial Intelligence solutions, the challenge-based learning (CBL) approach focuses on providing students with practical, real-world challenges that allow them to apply theoretical knowledge in specific situations. Rather than simply presenting information passively, this approach engages students in solving problems and creating innovative solutions. Students are faced with challenges that simulate real-life and industry problems, such as process optimization, anomaly detection or efficiency improvement. Using the hardware and software available in the lab, as well as artificial intelligence tools, students work in teams to develop practical solutions that address these challenges.\n\nMAIN CHARACTERISTICS\n\n-  Multidisciplinary: Useful for the study of software development, artificial intelligence.\n-  Economic: By involving several disciplines, the cost of the product can be divided among different departments.\n-  Open: Provides the architecture to implement standard and new solutions, allowing the use of the product in professional and research activities.\n-  State-of-the-art: The product provides a descriptive view of software architecture for development using artificial intelligence.\n\nMAIN DIDACTIC CONCEPTS\n\n-  Embedded systems programming.\n-  Basic concepts of AI, Machine Learning (ML).\n-  Sensors and actuators as data sources.\n-  Data processing and analysis.\n-  AI programming and tools.\n-  Industrial applications.\n-  IoT systems design.\n\nSIMULATED INDUSTRIAL CHALLENGES\n\n-  Lighting management.\n-  Quality control.\n-  Process automation, Detection.\n-  Predictive maintenance.\n-  Condition monitoring.\n-  Optimization and IoT sensorics.\n\nWHO IS IT FOR?\n\nSchools and colleges (to validate theory and test concepts):\n\n-  Programming and Algorithmic Logic.\n-  Electronics and Embedded Systems.\n-  Computer Science.\n-  Artificial Intelligence and Machine Learning.\n-  Smart Systems and IoT.",
        "Specs": "ELEMENTS THAT COMPOSE IT\n\nSENSING MODULE - IT ALLOWS YOU TO:\n\n-  Collect essential data to train AI models.\n-  Provide real-time information for decision-making.\n-  Simulate real-world conditions to solve practical problems.\n-  Connect the physical world with AI applications.\n-  Facilitate experimentation with different types of data.\n-  Allow measuring, monitoring, and controlling environmental variables.\n-  Help understand the impact of AI on physical systems.\n-  Drive hardware and software integration in educational projects.\n-  Promote active learning through direct manipulation.\n-  Encourage innovation by exploring new AI applications.\n\nACTUATOR MODULE - IT ALLOWS YOU TO:\n\n-  Transform AI decisions into physical actions.\n-  Enable tangible interaction with the environment.\n-  Demonstrate the applicability of AI in real systems.\n-  Facilitate validation of AI predictions and models.\n-  Teach how to automate processes using AI.\n-  Simulate practical solutions for industrial problems.\n-  Convert processed data into useful responses.\n-  Integrate theoretical learning with visible results.\n-  Foster creativity in designing intelligent systems.\n-  Promote understanding of AI\u2019s impact on automation.\n\nPOWER SUPPLY MODULE\n\n-  Universal voltage input: Compatible with 110 - 240Vac.\n-  Regulated outputs: Provides 5V and 3.3Vdc simultaneously.\n-  Current capacity: Supports up to 2A per outp ut.\n-  Overload protection: Prevents damage from excess current or short circuits.\n-  Compact design: Easy integration into prototypes or mounted systems.\n-  Standard connectors: Screw terminals and pins for easy connections.\n-  LED indicators: Shows power status in real time.\n-  Energy efficiency: Reduces energy loss during conversion.\n-  Compatibility: Ideal for powering microcontrollers like Arduino, NodeMCU, and sensors.\n-  Easy mounting: Can be fixed to surfaces or educational racks.\n\nEMBEDDED PROGRAMMING MODULE - (ARDUINO MEGA)\n\n-  Basic Level \u2013 Fundamentals of Embedded Programming:\n\n-  Introduction to embedded systems and their applications.\n-  Configuration of digital inputs and outputs.\n-  Timing and control of simple events.\n-  Reading analog signals.\n-  Generation of pulse-width modulated (PWM) outputs.\n-  Use of conditional structures and control loops.\n-  Handling variables, constants, and data types.\n-  Introduction to using the serial monitor for debugging.\n\n-  Intermediate Level \u2013 Sensing and Basic Control:\n\n-  Reading physical environment variables through sensors.\n-  Implementation of conditional logic based on analog and digital inputs.\n-  Use of control structures to automate processes.\n-  Generation of visual, sound, or mechanical responses to events.\n-  Display of local data (screens or indicators).\n-  Use of interrupts for efficient event handling.\n-  Introduction to temporary data storage.\n-  Design of programs with basic proportional control.\n\n-  Advanced Level:\n\n-  Implementation of serial communication between devices.\n-  Transmission and reception of data for monitoring or remote control.\n-  Design of autonomous systems with decision-making.\n-  Reading and interpreting industrial signals (0 \u00f7 10 V, 4 \u00f7 20 mA).\n-  Design of control sequences for automated processes.\n-  Modularization of code and reuse of functions.\n-  Process control using timers and logical counters.\n-  Integration of multiple subsystems into a functional project.\n\n-  Intermediate Level \u2013 Sensing and Basic Control:\n\n-  Reading physical environment variables through sensors.\n-  Implementation of conditional logic based on analog and digital inputs.\n-  Use of control structures to automate processes.\n-  Generation of visual, sound, or mechanical responses to events.\n-  Display of local data (screens or indicators).\n-  Use of interrupts for efficient event handling.\n-  Introduction to temporary data storage.\n-  Design of programs with basic proportional control.\n\n-  Advanced Level:\n\n-  Implementation of serial communication between devices.\n-  Transmission and reception of data for monitoring or remote control.\n-  Design of autonomous systems with decision-making.\n-  Reading and interpreting industrial signals (0 \u00f7 10 V, 4 \u00f7 20 mA).\n-  Design of control sequences for automated processes.\n-  Modularization of code and reuse of functions.\n-  Process control using timers and logical counters.\n-  Integration of multiple subsystems into a functional project.\n\nINTERNET OF THINGS (IOT) MODULE - (NodeMCU)\n\n-  Basic Level \u2013 Fundamentals of IoT:\n\n-  Introduction to the Internet of Things concept.\n-  General architecture of an IoT system.\n-  Communication between local devices.\n-  Configuration of wireless networks.\n-  Sending and receiving data via Wi-Fi.\n-  Publishing data to local interfaces (serial monitor or console).\n-  Use of basic protocols for data transmission (HTTP).\n-  Programming periodic routines for data capture and sending.\n\n-  Intermediate Level \u2013 Interaction with Remote Services:\n\n-  Client-server structure in IoT.\n-  Sending data to remote databases.\n-  Displaying variables on web interfaces.\n-  Introduction to lightweight messaging protocols (Socket).\n-  Use of graphical interfaces for real-time monitoring.\n-  Storage and retrieval of historical records.\n-  Configuration of dashboards for remote visualization.\n-  Error handling and automatic network reconnection.\n\n-  Advanced Level \u2013 Distributed Automation and Decision Making:\n\n-  Implementation of cloud logic and remote control.\n-  Receiving commands from web or mobile interfaces.\n-  Event-driven programming for real-time response.\n-  Security in IoT systems (validation, basic encryption).\n-  Synchronization of states between devices.\n-  Development of integrative applications: monitoring, alert, automatic response.\n\nAI DEVELOPMENT MODULE - (Jetson NANO NVIDIA)\n\n-  Basic Level \u2013 Fundamentals of AI and Data Science:\n\n-  Difference between symbolic AI and machine learning.\n-  Introduction to supervised and unsupervised learning.\n-  Python fundamentals applied to AI (syntax, structures, libraries).\n-  Data representation: vectors, matrices, and normalization.\n-  Reading data from sensors or local files.\n-  Data visualization and exploratory data analysis (EDA).\n-  Building simple classification models with labelled data.\n\n-  Intermediate Level \u2013 Applied Machine Learning:\n\n-  Architecture of basic artificial neural networks.\n-  Preparation of custom datasets (physical sensors, CSV, images).\n-  Training, validation, and testing of models.\n-  Pattern detection in physical data (temperature, humidity, light, pressure).\n-  Application of regression and classification models with multiple inputs\n-  Introduction to specialized libraries: TensorFlow, scikit-learn, Keras.\n-  Exporting and inference of trained models on embedded systems.\n-  Logging and analyzing prediction results for decision-making.\n\n-  Advanced Level \u2013 Real-time AI and Physical Integration:\n\n-  Real-time image processing and computer vision.\n-  Object detection and classification using pre-trained models.\n-  Integration of AI with physical data acquisition systems.\n-  Model optimization for fast inference on embedded systems.\n-  Implementation of intelligent alerts for anomalous events.\n-  Design of autonomous AI-based solutions (quality, safety, maintenance).\n-  Intelligent decision-making in physical environments (IoT + AI).\n-  System performance evaluation: metrics, errors, accuracy, and continuous improvement.\n\nSOFTWARE APPLICATIONS\n\nINCLUDED SOFTWARE\n\n-  MySQL Database\n\n-  Logging and querying of sensed variables, events, and AI decisions.\n\n-  Database Cloning\n\n-  Students working in parallel.\n-  Provides knowledge of database administration.\n\n-  Block-based Programming\n\n-  Control and programming in a block-based environment to acquire knowledge in programming.\n\n-  Web Services\n\n-  Integration with external systems, dashboards, or remote AI.\n\nMAIN BASIC CONFIGURATION (20 students)*\n\n-  1 x DL AI-BASE \u2013 AI Main configuration (Hardware system, Server, Software\u2019s, and Applications) (for 3 students).\n-  17 x DL AI- BASESW. (for 17 students)\n\nEXAMPLES FOR OTHER CONFIGURATIONS*\n\nIf the laboratory includes less than 20 students (i.e. 15 students), it will be necessary to have:\n\n-  1 x DL AI- BASE. (for 3 students)\n-  12 x DL AI- BASESW. (for 12 students)\n\nIf it includes 30 students, it will be necessary to have:\n\n-  2 x DL AI- BASE. (for 6 students)\n-  24 x DL AI- BASESW. (for 24 students)\n\nIf it includes 40 students, it will be necessary to have:\n\n-  2 x DL AI- BASE. (for 6 students)\n-  34 x DL AI- BASESW. (for 34 students)\n\nIf it includes 50 students, it will be necessary to have:\n\n-  3 x DL AI- BASE. (for 9 students)\n-  41 x DL AI- BASESW. (for 41 students)\n\nIf it includes 55 students, it will be necessary to have:\n\n-  3 x DL AI- BASE. (for 9 students)\n-  46 x DL AI- BASESW. (for 46 students)\n\nIf it includes 60 students, it will be necessary to have:\n\n-  3 x DL AI- BASE. (for 9 students)\n-  51 x DL AI- BASESW. (for 51 students)\n\n*: even the three students who work with the HW need their own PC, and DL AI-BASESW is a single license for the expansion of the basic hardware configuration.",
        "Url": "edquip.co\/en\/de-lorenzo\/laboratory-for-the-development-of-artificial-intelligence--for-colleges",
        "Page title": "Laboratory For The Development Of Artificial Intelligence For Colleges: De Lorenzo - EDQUIP",
        "Page description": "Laboratory For The Development Of Artificial Intelligence  For Colleges. Request your quotation today, suitable for technical colleges & universities.",
        "Lowest number of students": 2,
        "Highest number of students": 20,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Engineering Undergraduate",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "115 x 35 x 110",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "30",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "62 x 121 x 84",
        "Packed dimensions unit": "cm",
        "Packed weight": "100",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/LABORATORY FOR THE DEVELOPMENT OF ARTIFICIAL INTELLIGENCE  FOR COLLEGES\/LABORATORY FOR THE DEVELOPMENT OF ARTIFICIAL INTELLIGENCE  FOR COLLEGES_DL AI-BASE_De Lorenzo_DL AI-BASE.png",
        "Video link": "",
        "Main category": "Technical Training Equipment"
    },
    {
        "Edquip ID": "PL-721838",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL I4.0 FACTORY-AI",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Equipment System For The Study Of Industry 4.0 \u201cSmart Factory\u201d Enhanced With Artificial Intelligence",
        "Description": "Industry 4.0 (I4.0) and Artificial Intelligence (AI) are revolutionizing the manufacturing sector by integrating advanced technologies to create \"smart factories\u201d.\n\nThe digitization of information, combined with high-performance hardware and AI technologies, enables the implementation of more flexible and optimized production architectures. The level of innovation is such that today, Industry 4.0 is synonymous with intelligent manufacturing, and the adjective \"smart\" refers to integrated information management, enhanced by AI and digital technology.\n\nThis proposed educational system reproduces a collaborative environment to study concepts related to Industry 4.0 enhanced with AI, integrating small-scale subsystems commonly found in a manufacturing plant. It is composed of a set of electronic boards, real hardware simulators and software to study the different subsystems that can be found in a real production line. The students, using an open-source microcontroller connected to SCADA (Supervisory Control And Data Acquisition) software for data acquisition, will be able to perform activities covering topics on introduction to automation and robotics, communication protocols (IoT), sensors and actuators and complete study of a productive system related to Industry 4.0.\n\nThe added DL AI-MODULE to this system uses the SCADA data to enhance operational efficiency across key areas. It predicts equipment failures with predictive maintenance, detects real-time anomalies, optimizes production processes, automates quality control, forecasts energy consumption, and improves supply chain management.\n\nIn today\u2019s rapidly evolving industrial landscape, leveraging data to enhance operational efficiency and predict potential issues is crucial for maintaining competitive advantage. The DL AI-MODULE focuses on the application of advanced data analytics and artificial intelligence (AI) to optimize various aspects of production and operational processes. By analyzing historical and real -time data, the module helps organizations reduce costs, minimize waste, and maintain high performance.",
        "Specs": "DL 3155BRS-RFID - RFID protocol study board\n\nThis board allows to study the properties of an RFID system and all components necessary to develop a door access control system. The students can interact with the hardware in a simple way through software explaining step-by-step the operation of the system. The integration of the RFID elements in an industrial process is possible using a SCADA software for the study of automation and industry 4.0 concepts. This base board includes built-in power supply, providing all the voltages necessary for its operation, with the following circuit mini boards: real time clock, LCD display, RFID reader\/writer, transponder, audio speaker, relay, tag receiver, keyboard, microcontroller.\n\nThe students can perform the following activities:\n\n-  Behaviour of the reader when a tag is identified.\n-  How to read data from proximity integrated circuit card using a RFID reader.\n-  How to read and write data blocks on a MIFARE proximity integrated circuit card.\n-  How to write and how to read personal data to a MIFARE proximity integrated circuit card using an RFID reader.\n-  How to activate a relay using the outputs of the microcontroller.\n-  How to control a display and a real time clock by using the microcontroller.\n-  How to connect a keypad to a microcontroller.\n-  Simulation of a door access control system.\n\nDL ROB-SIM - Kit for the study of a robotic arm\n\nConsisting of simulator and electronic boards, for the study of the properties and control techniques of a 5-axis robotic arm used in industrial environments. They include sensors and actuators so as to develop a complete course on robot control systems. The students can interact with the hardware in a simple way through software explaining step-by-step the operation of the system.\n\nIt is composed of the following:\n\n-  Collection of boards to study the hardware characteristics and the control techniques of a robotic system through an open-source microcontroller. The sub-boards include all the components, sensors and actuators needed to develop an educational robotic arm. It includes a base board with built-in power supply, providing all the voltages necessary for its operation with the following circuit mini boards: joystick, LCD display, servo-motor, ultrasonic sensor, flex sensor, gyroscope, Bluetooth, microcontroller.\n\nThe students can perform the following activities:\n\n\u00ad-  Characteristics of a joystick controller and interface with the microcontroller.\n\u00ad-  Study of a servomotor and its controller.\n\u00ad-  Introduction to the Bluetooth standard and implementation of a Bluetooth interface with the microcontroller.\n\u00ad-  Analysis of a flex sensor and its interfacing with the microcontroller.\n\u00ad-  Study of an ultrasonic proximity sensor.\n\u00ad-  How to control an LCD display through I2C communication interface.\n\u00ad-  How to measure orientation and angular velocity using a gyroscope.\n\u00ad-  Basic control techniques: controlling a servo using a joystick and displaying servo position on an LCD display.\n\n-  Real hardware simulator of a 5-axis robotic arm used in an industrial environment to learn how to operate a robotic arm through a programmed microcontroller. It allows the connection with the board kit components, making them compatible with each other.\n\nIt has the following technical characteristics:\n\n\u00ad-  Power supply: 90V-230V \u00b110%, 50\/60Hz.\n\u00ad-  Angle\/distance range: 1\u00b0 axis: 180\u00b0, 2\u00b0 axis: 180\u00b0, 3\u00b0 axis: 180\u00b0, 4\u00b0 axis: 180\u00b0, 5\u00b0 axis: 180\u00b0, 6\u00b0 axis: gripper opening (max. 55 mm).\n\u00ad-  Servo specifications: dimensions (approx.): 40 x 18 x 40 mm, operating speed (approx.): 0,17 \u00f7 0,13sec \/ 60 grades (4,8 \u00f7 6,0 V with no load), stall torque (approx.): 13 \u00f7 15 kg-cm a 4,8\/6 V, operating voltage: 4,8 \u00f7 7,2V.\n\u00ad-  Compatible with Arduino UNO boards, indicatively ATmega328 processor, 32KB flash memory, 1KB EEPROM memory, 2KB SRAM memory, 23 general purpose I\/O ports.\n\u00ad-  RFID detector.\n\u00ad-  Interfacing with SCADA monitoring software.\n\nThe students can perform the following activities:\n\n\u00ad -  Study of the robot components.\n\u00ad -  Arm control in real time using a joystick.\n\u00ad -  Step-by-step movement programming.\n\u00ad -  Movements recording.\n\u00ad -  Controlling position using a gyroscope.\n\u00ad -  Bluetooth communication for remote control.\n\nDL CIM-SIM - Kit for the study of a conveyor belt\n\nConsisting of simulator and electronic boards, for the study of the properties and operation of a conveyor belt used in industrial environments. They include sensors and actuators so as to develop a complete course on main features of conveyor systems and its applications. The students can interact with the hardware in a simple way through software explaining step-by-step the operation of the system.\n\nIt is composed of the following:\n\n-  Collection of boards to study the hardware characteristics and the control techniques of a conveyor belt. The sub-boards include all the components, sensors and actuators needed to understand and manage the operation of a conveyor belt. It includes a base board with built-in power supply, providing all the voltages necessary for its operation, with the following circuit mini boards: LCD display, DC driver motor, DC motor, BRS inputs, seven segment, stepper motor, IRD sensor, RGB sensor, microcontroller.\n-\n\nThe students can perform the following activities:\n\n\u00ad-  How to control an LCD display through a microcontroller.\n\u00ad-  Monitoring an infrared positioning system and of a RGB sensor.\n\u00ad-  How to control a DC motor through a power driver - a stepper motor - a seven segment LCD display.\n\n-  Real hardware simulator of a conveyor belt unit used in a real industrial environment to learn how to operate and to control production line by using a PLC (included in the system) and an open-source microcontroller.\n\nThe students can perform the following activities:\n\n\u00ad-  How to control a conveyor belt through a push button panel.\n\u00ad-  Using a PLC to control the conveyor belt movement.\n\u00ad-  How to control and identify a processed item on the conveyor belt.\n\u00ad-  How to monitor the position of an item placed on the conveyor belt.\n\u00ad-  Identifying and verifying the colour of an item.\n\u00ad-  Identifying a scrap part and placing it in the correct position.\n\u00ad-  Generating a process report.\n\u00ad-  Interfacing with SCADA monitoring software.\n\nDL WMS-SIM - Kit for the study of a warehouse\n\nConsisting of simulator and electronic boards, for the study of a semi-automatic warehouse found in industrial environments. They include sensors and actuators so as to develop a complete course on main features of a semi-automatic warehouse and its applications. The students can interact with the hardware in a simple way through software explaining step-by-step the operation of the system.\n\nIt is composed of the following:\n\n-  Collection of boards to study the hardware characteristics and the main features of a semi-automatic warehouse. The sub-boards include all the components, sensors and actuators needed to understand the operation of a semi-automatic warehouse. It includes a base board with built-in power supply, providing all the voltages necessary for its operation, with the following circuit mini boards: LCD display, weight sensor, distance sensor, temperature, and humidity sensor, PID controller, keypad, temperature-humidity cycle, EEPROM, microcontroller.\n\nThe students can perform the following activities:\n\n\u00ad-  How to control an LCD display through a microcontroller.\n\u00ad-  Monitoring a weight sensor, external temperature, external humidity, a distance sensor.\n\u00ad-  Implementing a closed loop ON-OFF controller and a closed loop PID controller for a temperature-humidity cycle.\n\u00ad-  Interfacing a keypad to a microcontroller.\n\u00ad-  Data storage on the external memory device.\n\n-  Real hardware simulator of a semi-automatic warehouse used in a real industrial environment to learn how to operate and control a semi-automatic warehouse. It allows the connection with the board kit components, making them compatible with each other.\n\nThe students can perform the following activities:\n\n\u00ad-  Identification and weight of an item.\n\u00ad-  Manually assign a position to an item.\n\u00ad-  Automatically assign a position to an item.\n\u00ad-  Automatic inventory update.\n-  Manually and automatically picking an item from warehouse.\n\u00ad-  Interfacing with SCADA monitoring software.\n\nSCADA software and connection kit\n\nIt controls the whole system, communicating with all the trainer subsystems and shows the data from the sensors, the status, and the system control, in real time. This software offers a structured learning platform where all the theoretical elements and practices necessary to address the proposed topics can be found. Open SCADA-WEB license allows the students to create their own projects and customize them showing the parameters of interest, generating automatic reports, and controlling the actuators for an \"intelligent\" management of a productive process. It is possible to use the software to remotely monitor the system from a local or remote PC using an internet connection.\n\nIt is composed of the following:\n\n-  USB\/RS485 serial Modbus RTU communication interface.\n-  SCADA software and license.\n\nThrough the supervision system, all the above sub-stations, composing the educational system for Industry 4.0 are able to exchange data and display information relevant to the process.\n\nThe software is structured to follow a simulated manufacturing process receiving input from the user and generating report files that are accessible remotely.\n\nThe processes implemented in the software include the following:\n\n\u00ad-  Processing an order from a client.\n\u00ad-  Generating a production order.\n\u00ad-  Generating a purchase order.\n\u00ad-  Manage and update different BOMs.\n\u00ad-  Supervise the production process.\n\u00ad-  Manage inventories.\n-  Creating packing lists.\n\nAll the historical data relevant to the production process is logged into the RFID tag of the manufactured object for product traceability.\n\nDL AI-MODULE \u2013 Artificial Intelligence and key benefits\n\nBy utilizing historical and real-time data gathered through SCADA systems, the following sections outline the key exercises.",
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        "Page title": "Equipment System For The Study Of Industry 4.0 \u201cSmart Factory\u201d Enhanced With Artificial Intelligence: De Lorenzo - EDQUIP",
        "Page description": "Equipment System For The Study Of Industry 4.0 \u201cSmart Factory\u201d Enhanced With Artificial Intelligence. Request quotations today! Free quick price estimations.",
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    {
        "Edquip ID": "PL-691139",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL OPENLAB-SA-AI",
        "Content languages": "en, fr, it_IT, es",
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        "Name": "Semi-Automatic Electric Machines Laboratory With Artificial Intelligence",
        "Description": "The DL OPENLAB-SA-AI offers a \u201cfirst glance\u201d at the vast and complex world of electric machines. The main characteristic of this laboratory is its \"open\" structure, where rotor windings, stator windings and brushes are completely exposed to perform didactic experiences such as the analysis of magnetic fluxes and magnetic fields. In this way, the students can learn in detail the internal construction and assembly of different types of electrical machines and carry out practical tests for the acquisition of their operating characteristics.\n\nThis modular system operates at low voltages providing a safe hands-on training environment with the addition of the plexiglass protection preventing direct contact with the rotating electrical machines to avoid injury. It includes software developed in LabVIEW that communicates with the main measuring modules in the system to acquire electrical and mechanical values.\n\nAI Module Integration: To enhance the learning experience, an AI module is incorporated to analyse data collected from the experiments. This module provides real-time feedback and simulations based on the students\u2019 inputs and experiments. By leveraging machine learning algorithms, the AI could identify patterns in the operating characteristics of different machines and suggest optimizations or troubleshooting techniques. This would not only deepen students\u2019 understanding of electrical machines but also equip them with modern tools used in industry for data analysis and predictive maintenance.\n\nIdeal for 4 students to work simultaneously, Vocational and technical schools. Applicable to courses in: Magnetism and Electromagnetism, Electromechanics, Electric machines, Power Engineering.\n\nDIDACTIC EXPERIENCES AND APPLICATIONS\n\nThe DL OPENLAB-SA-AI trainer is a hands-on learning platform that provides a comprehensive course on electrical machines. It introduces the basic concepts of electrical machines construction starting from the electromagnetism principles with the analysis of magnetic fields and fluxes, until more advanced experiments with the characterization and the efficiency analysis of rotating machines in different working conditions.\n\nThrough this system, it is possible to assemble the most common types of electrical machines found in the industry to carry out didactic experiences both with the basic configuration and with the one enhanced with ARTIFICIAL INTELLIGENCE.\n\nEXPERIMENTS FOR BASIC CONFIGURATION:\n\n-  Study of the magnetic field,\n-  Principles of the electromagnetic induction,\n-  Separately shunt, series and compound excited DC motors,\n-  Separately shunt, series and compound excited DC generators,\n-  DC motor and DC generator with permanent magnet stator,\n-  Induction motors: three-phase slip ring and squirrel cage, single-phase repulsion and with capacitor,\n-  DAHLANDER connection,\n-  Synchronous three-phase motor, induction regulator and phase shifter, alternator, and universal motor.\n\nEXPERIMENTS FOR CONFIGURATION ENHANCED WITH ARTIFICIAL INTELLIGENCE MODULE:\n\n-  Signal Processing,\n-  Predictive Analysis,\n-  Supervised Machine Learning (SML),\n-  Expert Systems,\n-  Neural Networks,\n-  Optimization through Genetic Algorithms,\n-  Reinforcement Learning,\n-  Internet of Things (IoT).",
        "Specs": "DATA ACQUISITION AND PROCESSING SOFTWARE (DL OPNLAB_DAS)\n\nThe DL OPENLAB_DAS is software developed for the acquisition and displays the data of the DL OPENLAB-SA-AI laboratory. It is developed in LabVIEW and communicates with the instruments (DL 10282NF and DL 10055NF) via serial port using the Modbus protocol and acquires mechanical data (speed and torque) as well as electrical data (AC and DC, Voltage, current and Power).\n\nSOME FEATURES OF DL OPENLAB_DAS\n\n-  For each experiment, acquiring data by setting number of measurements and accuracy.\n-  Tracing the characteristic curves of the elements under study using the acquired data.\n-  Exporting data in .xls file for further analysis.\n\nELECTRICAL MACHINES SMART SIMULATOR SOFTWARE (DL OPENLAB-SSEM)\n\nThe DL OPENLAB-SA-AI includes the smart simulator DL OPENLAB-SSEM. It is a performant new generations educational course that permits a complete and innovative didactic experience on electric machines in a virtual reality environment. It has been developed to reproduce the features and behaviours of the real electric machines\u2019 laboratory. The didactic experience includes electric machines assembly (rotos, stators, supports, couplers), wiring the machines following the software instructions, the students submit them to different working conditions and make measurements to study its behaviour.\n\nSOME FEATURES OF DL OPENLAB-SSEM\n\n-  VIRTUAL SIMULATION OF ELECTRIC MACHINE LABORATORY: Students can replicate experiments of the real system away from the classroom like a home environment.\n-  AUTOMATIC VALIDATION OF STUDENTS\u2019 TASKS: the software automatically verifies if the student has successfully completed each task to allow him\/her to go ahead with the next one.\n-  TRACKING OF STUDENTS\u2019 PROGRESS: the teacher can verify the students\u2019 progress any time consulting the specific summary in the software or exporting it to a spreadsheet.\n\nLABORATORY COMPOSITION (DL OPENLAB-SA-AI)\n\nCODE\n\n-  DL 10280 Set of assembled machines\n-  DL 10280MP Permanent magnet stator\n-  DL 10281 Power supply module\n-  DL 10282NF Electrical measurement module\n-  DL 10055NF Mechanical power digital measuring unit\n-  DL 2006D Load cell\n-  DL 10283 Loads and rheostat module\n-  DL 10284 Adapter bracket\n-  DL 10285 Locking and rotatable device\n-  DL 10185 Pole changing unit\n-  DL 10310NF Parallel board module\n-  DL 10300A Electromagnetic brake\n-  DL 10116 Star-delta starter\n-  DL 10125 Starting and synchronization unit\n-  DL AI-MODULE Artificial Intelligence module\n-  DL 2100-2L Two-level work frame\n-  DL OPENLAB_DAS Data acquisition and processing software\n-  DL OPENLAB-SSEM Electric machines smart simulator software\n\nEXPERIMENTS LIST OF THE ENHANCED CONFIGURATION (WITH DL AI-MODULE)\n\n-  Signal Processing: Voltage, current, and torque signal analysis to optimize the control of electrical machines.\n-  Predictive Analysis: Prediction of wear and failures in motors and generators.\n-  Supervised Machine Learning: Prediction of the behaviour of electrical machines under different load conditions.\n-  Expert Systems: Expert system for managing electrical machines and optimizing their performance.\n-  Neural Networks: Modelling the behaviour of motors and generators to predict performance.\n-  Optimization through Genetic Algorithms: Optimization of motor and generator efficiency under various conditions.\n-  Reinforcement Learning: Dynamic adjustment of operational parameters of electrical machines to optimize their performance.\n-  Internet of Things (IoT): Use of IoT sensors to monitor and adjust the parameters of electrical machines in real-time.\n\nDESCRIPTION OF SOME EXPERIMENTS OF THE PREVIOUS LIST\n\n-  Three-phase squirrel cage motor, 2 poles, 24 V\u0394: This experiment studies the behaviour of the three-phase squirrel cage motor in load condition with the stator windings connected in delta.\n-  Three-phase squirrel cage motor, 2 poles, 42 VY: The main objective of this experiment is to study the characteristic curve of a three-phase squirrel cage motor with the stator winding connected in star by performing a direct test using an electromagnetic brake.\n-  Three-phase squirrel cage motor, 2 poles, 24 V\u0394\u0394: Applying the same concepts studied up to this point, the students can plot the load characteristics of the three-phase squirrel cage motor connected in double delta.\n-  Three-phase squirrel cage motor, 2 poles, 42 VYY: Flowing the same procedure with the stator winding connected in double star, the student will trace the curves for the absorbed current I, the power factor cos\uf06a, the speed n and the efficiency \uf068 as a function of the output power P.\n-  Three-phase squirrel cage motor, 4 poles, 24 V\u0394: In addition to recording the operation characteristics of the motor, the students will learn how to start the motor using a star-delta starter.\n-  Three-phase squirrel cage motor, 4 poles, 42 VY: In this experiment, the student will learn the load operation of a three-phase motor with 4 poles.\n-  Three-phase DAHLANDER motor, 4\/2 poles, 42V\u0394 \/YY:In previous experiments, it has been demonstrated that by changing the number of poles it is possible to vary the speed of a squirrel cage motor. The students will learn about two-speed DAHLANDER motor configuration and its operation.\n-  Split phase motor: The split phase motor, also known as a resistance, start motor, has a single cage rotor and its stator has two windings known as main winding and started winding. The main objective of this experiment is to study the characteristics of the motor with the main winding only, and to draw the curves of current I, efficiency \u03b7, torque C, output power P and power factor.\n-  Capacitor start and run motor: The objective is to study the characteristics of the motor with permanently connected capacitor. The students will learn how to properly select and connect a capacitor to the auxiliary windings so that the current trough the main winding lags behind the current of auxiliary windings by an angle on 90\u00b0.\n-  Three-phase motor with wound rotor, 2 poles, 42 VYY: The student will record the load characteristics of the motor with a wound rotor and the stator connected in double star. With the knowledge acquired up to this point, it will be easy to draw the diagram of mechanical characteristic M = f(n) and to observe the behaviour of an induction motor with a different type of rotor.\n-  Phase shifter: The objective is to study how the phase between the stator and rotor voltages varies in function of the rotating angle and identify the null phase shift condition using Lissajous\u2019 ellipse by setting the oscilloscope to XY mode.\n-  Induction regulator: The objective is to study the operation of a three-phase voltage regulator. By using a locking and rotating module with a graduated disc, the rotor can be turned by means of the hand-wheel until the load current results null with minimum indication of the voltmeter. The student will measure the absorbed current at constant load and draw the current and voltage curves as a function of the angular phase shift.\n-  Three-phase synchronous induction motor, 2 poles, 42 V\u0394: This experiment studies how to start and synchronize the induction motor using the starting rheostat and study the load characteristics of the motor at synchronous speed.\n-  Three-phase synchronous induction motor, 2 poles, 24 V\u0394\u0394: Following the same procedure as in previous experiment, the diagram of the absorbed current I, the power factor cos\uf06a and the efficiency \uf068 as a function of the output torque c will be traced with the stator wired in delta-delta configuration.\n-  DC motor with separate excitation: Now is time to work with DC motors. First application refers to a separately excited DC motor, where the field winding is powered by an external independent source. The DC motor operation characteristics will be studied as a function of the excitation voltage.\n-  DC motor with shunt excitation: By performing this experiment, the student will learn how to connect that the armature and field windings in parallel and you compare the behaviour with the previous experiment.\n-  DC motor with series excitation: Unlike in the DC shunt motor, the DC series motor has very poor speed regulation. The main objective of the experiment is to draw the characteristics of the output power P, the speed n, and the efficiency \uf068 as a function of the absorbed current I.\n-  DC motor with compound excitation, long shunt: By combining the operational characteristic of both the shunt and series excited DC motor we obtain the one of the DC compound excitation motor. The operation of the motor is studied with cumulative and differential excitation.\n-  DC motor with compound excitation, short shunt: This experiment shows why the compound motor responds better to heavy load changes than a shunt motor.\n-  Study of single-phase series motor: Single phase series motor, also known as a universal motor, is a rotating machine similar to a DC motor but designed to operate either from DC or single-phase AC.\n-  Study of repulsion motor: The repulsion motor combines a stator of a single-phase motor with a rotor similar to that of a DC motor. The main benefit of the repulsion motor is that the armature is separated from the line. The main objective of this experiment is to record its operation characteristics.\n-  Measure the windings resistance of the alternator: This experiment calculates the voltage drops across the rotor winding resistance of an induction motor using Ohm\u2019s law. The winding resistance value of the alternator is useful to calculate the conventional efficiency.\n-  No-load test of the alternator: The main objective of this experiment is to determine the mechanical and iron losses of the alternator and to record its magnetization characteristic using a DC motor as prime mover.\n-  Short-circuit characteristic of the alternator: The short-circuit test of the synchronous generator provides information about its current capabilities. It is performed by driving the generator at its rated speed while the terminals of the armature winding are shorted. This characteristic diagram is essential for the application of the indirect testing method of the alternator.\n-  Load test of the alternator: This test compares the behaviour of a synchronous generator connected to a variable external load with its no-load operation.\n-  Conventional efficiency of the alternator: The conventional efficiency of a synchronous machine is determined by measuring the losses operating at different power factors, using the results from the previous experiments.\n-  Parallel connection of the alternator with the main: This experiment studies an operation which is frequently performed in a power station. The synchronization of a generator consists of electrically coupling the generator output to another source of electrical energy and operating the generator such that its output adds to the other source.\n-  Study the \u201cV\u201d curve of the synchronous motor: The V-curve of a synchronous machine shows its performance in terms of variation of the armature current with the field current when the load and the input voltage of the machine are maintained constant. The students will trace different V curves for particular resistant torque applied to the motor axis.\n-  Measure the windings resistance of the DC generator: This experiment demonstrates how measuring the internal resistance of a DC machine can be used to establish the integrity of the machine windings and internal connections.\n-  Test of the no-load motor (Swinburne): In order to design rotating DC machines with higher efficiency, it is important to study the losses occurring in them. Swinburne\u2019s method consists of operating a dynamo as a DC motor with no load to determine its mechanical and iron losses. This is done by increasing the armature voltage U while measuring the armature current Ia and the excitation current Ie.\n-  Magnetization characteristic of a DC Generator: This experiment studies the magnetization characteristic of a separately excited DC generator using a three-phase synchronous motor as prime mover.\n-  Study of separate excitation dynamo: The main objective of this experiment is to record of the external and regulation characteristics of a separate excitation generator to determine its conventional efficiency. This is done by measuring the output voltage U as a function of the load current, with constant excitation current Ie.\n-  Study of shunt excitation dynamo: The previous experiment is replicated with a different configuration of the DC generator. Using the results from the previous experiments, the student will plot the external and regulation characteristic of the generator connected in shunt.\n-  Study of series excitation dynamo: Determining the external characteristic of a DC generator connected in series is to observe how the voltage slightly drops as the load increases. Students will use these results to calculate the conventional efficiency of the dynamo.\n-  Study of compound excitation dynamo: This experiment follows the same procedure as the previous ones with the generator in compound excitation connection. After performing this last experiment, the students will be able to make comparative analyses between all the different DC generator configurations.",
        "Url": "edquip.co\/en\/de-lorenzo\/semi-automatic-electric-machines-laboratory-with-artificial-intelligence",
        "Page title": "Semi-Automatic Electric Machines Laboratory With Artificial Intelligence: De Lorenzo - EDQUIP",
        "Page description": "Semi-Automatic Electric Machines Laboratory With Artificial Intelligence. Request your quotation today! Free price estimations, suitable for technical education",
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    {
        "Edquip ID": "PL-591151",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SGWD-AI",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
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        "Name": "Smart Grid Enhanced With Artificial Intelligence",
        "Description": "WHY A SMART GRID ENHANCED WITH AI?\n\nSince the early 21st century, opportunities to take advantage of improvements in electronic communication technology to resolve the limitations and costs of the electrical grid have become apparent.\n\nTechnological limitations on metering no longer force peak power prices to be averaged out and passed on to all consumers equally. In parallel, growing concerns over environmental damage from fossil fuel-fired power stations have led to a desire to use large amounts of renewable energy.\n\nDominant forms such as wind power and solar power are highly variable, and so the need for more sophisticated control systems became apparent, to facilitate the connection of sources to the otherwise highly controllable grid. Power from photovoltaic cells (and to a lesser extent wind turbines) has also, significantly, called into question the imperative for large, centralized power stations. The rapidly falling costs point to a major change from the centralized grid topology to one that is highly distributed, with power being both generated and consumed right at the limits of the grid. Growing concern over terrorist attack in some countries has led to calls for a more robust energy grid that is less dependent on centralized power stations that were perceived to be potential attack targets. The integration of Artificial Intelligence (AI) module, such as DL AI-MODULE, plays a crucial role. Advanced AI algorithms can analyze vast amounts of data from distributed energy resources, optimizing energy production and consumption in real-time. By predicting demand patterns and integrating renewable sources effectively, AI can enhance grid stability and reduce reliance on fossil fuels. Furthermore, AI can facilitate proactive maintenance and fault detection, minimizing downtime and ensuring a more resilient energy infrastructure. It will enable personalized energy management solutions for consumers, promoting energy efficiency of the power system.\n\nWHAT IS A SMART GRID?\n\nThe Smart Grid is a system for an \"intelligent distribution\" of electricity, able to know the consumption of the various end users and to manage the generation and distribution of electricity according to demand. Simply put, if in each area we have a potential overload of energy, the excess energy can be redistributed to other areas that need it, based on the actual requests from end users. Furthermore, the software that runs the Smart Grid monitors the electrical flow of the system, integrates renewable energy into the network and activates\/suspends the industrial or domestic processes during periods when electricity costs less\/more. The smart grid knows our requirement of power consumption. When the demand for electricity is at its maximum, the smart grid automatically adapts to the demand by picking up excess energy from many sources to avoid overload problems or interruptions of power. It has, therefore, the function of sharing electricity that is generated from various sources, both public and private, traditional and renewable, and ensures that electrical devices use electricity as efficiently as possible.",
        "Specs": "OPEN SCADA-WEB\n\nThe full system is integrated by an industrial Supervision and Control Data Acquisition (SCADA) software that communicates with all the active devices in the trainer and performs the following actions:\n\n-  Acquisition and measurements of the physical quantities of the system;\n-  Control of the system\u2019s operation;\n-  Visual supervision of the system (also in remote mode), using synoptic diagrams: operational status, alarms, etc.\n\nThrough the SCADA software, the operator can monitor the electric flow in the system to manage and optimize the power requirements based on the consumption, through the acquisition of real-time data from the measuring devices and protection relays and the control of actuators for an \u201cintelligent\u201d management of the whole electrical system.\n\nThe different sections of the trainer communicate through dedicated serial RS485 buses using standard industrial communication protocols such as MODBUS RTU.\n\nThe SCADA project is divided into templates each one corresponding to a particular exercise. The open SCADA-WEB developers license provided with the trainer allows the teachers to fully customize the existing templates or create new ones that can be used to monitor the system from a local workstation.\n\n\u2003\n\nSCADA main features\n\nThe software is structured following a didactic approach, dividing each study unit into single exercises.\n\nThe open SCADA-WEB license gives the teachers the possibility to create their own projects and fully customize the experiments by displaying the parameters of interest and controlling the actuators for an \u201cintelligent\u201d power management.\n\nDE LORENZO\u2019s SOLUTION\n\nThe smart grid system developed by De Lorenzo can be organized in eight subsystems, each comprised of several modules. The first four subsystems are simulations of energy sources; the first one is the main power supply of the grid with a three-phase supply unit that represents a coal plant.\n\nThe other three subsystems correspond to alternative sources of energy: wind, hydroelectric and solar. The wind plant simulation is made with a three-phase induction motor acting as a generator while the hydroelectric plant simulation is made with a three-phase synchronous machine, additionally with a generator synchronizing relay module to make possible the connection to the grid. Finally, the solar energy part of the system is generated with a solar panel and twelve dimmable lamps simulating the sun, which is connected to an inverter module that allows the energy generated to be transferred to the grid.\n\nA fifth subsystem in the smart grid consists of modules for fault protection; the modules are a feeder manager relay that measures in real time voltages and currents to detect faults in the grid and four power circuit breakers controlled by the previous module to disconnect faulty lines.\n\nThe sixth subsystem refers to modules for measuring; it has three maximum demand meters that measure AC voltages, currents, frequencies, active power, reactive power, apparent power, power factor and THD for each of the three available phases in the grid and two electrical power digital measuring units that, besides measuring the same as the previous module, make measurements of DC voltage, current, power and energy.\n\nThe seventh subsystem is for power factor control with 2 modules, the first one is a switchable capacitor battery with four different values of capacitors and the second one is a reactive power controller that activates the capacitors of the previous module to make a power factor correction.\n\nThe last subsystem is composed of passive elements; three modules with different kind of loads (capacitive, inductive, resistive) that simulate the loads in a house or factory and two modules with impedances simulating the losses generated in transmission lines, specifically in lines of 10 and 100 km length.\n\nA SCADA software provides to the acquisition and storage of the data coming from the measurement instruments and to the control of the actuators for an \u201cintelligent\u201d management of the whole electrical system. The SCADA software can also be supplied on request in an OPEN version, so that the teacher can implement his own project and select modes and procedure for visualizing the parameters and controlling the actuators. Artificial Intelligence plays a crucial role, it influences various techniques to enhance the efficiency and reliability of the electrical grid. By applying supervised learning, reinforcement learning, and anomaly detection, these experiments optimize energy consumption, predict renewable energy generation, and improve grid stability. AI enables fault detection, proactive maintenance, and intelligent load control, reducing downtime and enhancing resilience. At the end of the Experiments section, you will find detailed descriptions of each experiment, including their AI area and machine learning category. The system described above represents the basic configuration of our laboratory (DL SGWD-AI).\n\nOptionally, it is also possible to add an additional wind energy small scale generation system, with a real wind turbine connected to an inverter module to make the connection to the grid (DL SGWD-W-AI).\n\n\u2003\n\nTRAINING OBJECTIVES The Smart Grid trainer can be considered a multidisciplinary laboratory, it allows studying and exercising different technical subjects, that are then integrated into a full Smart Grid system setup.\n\nThe Smart Grid trainer is an integrated laboratory that can be useful for a huge number of undergraduate and graduate courses in the engineering school. The laboratory equipment can be configured to create different exercises, which reinforce basic and advanced concepts in electric energy. The equipment can be interconnected to form a full smart grid system. However, as you can see from the list of experiments in the next paragraph, conventional topics, such as electric machines, distribution systems and so on, could be covered by the Smart Grid trainer; this innovative laboratory can include class demonstrations and laboratory experiments under regular laboratory classes.\n\nThere are fundamental topics that are needed for understanding the smart grid concept and they must relate to real life situations, yet a set of different topics could be added to get a special curriculum. The core topics include electric circuits, electric machinery, hydroelectricity, wind energy, photovoltaic solar energy, renewable energies, power transmission, power distribution.\n\nFurthermore, additional courses can benefit from the smart grid trainer, such as, for example: power system engineering & analysis, electric machines, linear control systems, electrical distribution engineering and smart grids automation, power generation operation and control, power electronics, cost and construction of electrical supply, power system stability, optimization methods, stochastic processes, embedded systems.\n\nThe smart grid system can be used by mechanical and electrical engineering students as a longtime project as it comprises enough elements to cover most of the topics listed above.\n\nElectric circuits\u2019 particular subjects can be studied through load modules, enabling the full understanding of resistive, capacitive and inductive loads, fed by AC or DC supply. Protected equipment permits the application of domestic and industrial rated electric magnitudes as well as their instrumentation. Effects of inductive loads and power factor correction are issues which can also be addressed.\n\nThe study of AC electric machinery can also be complemented with the practical insight provided by the induction and synchronous generators used to emulate a wind and a hydro-electrical power plant respectively.\n\nSynchronization methods, power and instrumentation transformers, and the inner physical phenomena can be measured and studied as individual elements or as part of the whole power distribution system.\n\nThe entire system can be tested under many considerations as it is configurable, so different experiments can be driven based on the same principles. When analyzing distribution systems and fault schemes, the instrumentation and logical equipment can provide enough flexibility to understand the process between power generation and usage, together with abnormal events and their respective protective relaying issues. In this way, the topics added in the curricula which regard power management and distribution can also find room in the integrated smart grid project, which can be also evaluated under efficiency concerns depending on load conditions or generators\u2019 states.\n\nIn this way, the smart grid as a set of individual modules or, enables the student to move towards a single objective necessarily going through each individual area, making possible the full understanding of smart grid theory, application, and capabilities, as well as the concerning steps of its integration.\n\nThe Smart Grid trainer also allows us to understand advanced topics like energy production in wind plants that are connected to the main electric grid, or they can be isolated as micro-grids, so the students can comprehend real problems in engineering which are imperative in the energy progress; thus, the basic and advanced courses can be combined in the wind turbine system. For example, wind generators include a pitch controller that increases energy efficiency, and the energy generated is sent to the central electric grid; hence, the students must use several topics such as control systems, digital control, electric machines, and so on.\n\nAs an additional example, a combination of 3 energy sources can be studied when they are providing energy to the load. If the conventional source is combined with wind and hydro energy, the student will be able to understand in a clear manner the process of providing energy to the load by alternative energy. Moreover, environmental questions can be included in the exercise (carbon footprint).\n\nThe number of exercises and topics can be expanded, and the student is able to propose novel ideas about how to solve problems that affect society; hence, the motivation of student can be increased.\n\nIn conclusion, engineering courses need to cover experimental concepts that increase the engineering knowledge of students, but it is not easy to find experimental systems that allow them to combine those concepts.\n\nAlthough Smart Grid is a quite complex problem that is impacting electrical energy, it could be used for leaning basic concepts like electric circuits; hence, this system includes all the elements for providing real experience in the mechanical and electrical engineering curricula and impact the advanced and basic topics in the curricula. Smart Grid is a perfect system for teaching and involving students in experimental engineering problems. Besides, the student can deal with ecological and economic problems. The experimental use of solar and wind energy provides information about how the alternative sources of electrical energy can be used in large and low scale.\n\nOur proposal includes exercises with Smart Grid on different topics; thus, this system is the conductor for connecting theoretical and practical concepts.\n\nLIST OF EXPERIMENTS\n\nHYDROELECTRICAL SYSTEM\n\nBrushless\n\nGenerator no load characteristic Generator load characteristic Regulation performances characteristics Automatic synchronization\n\nOvercurrent protection\n\nOver-voltage or under-voltage protection\n\nOver-frequency or under-frequency protection\n\nWIND SYSTEM\n\nRelation between a pitch control system and wind\n\nAnalysis of the mechanical parameters within an induction generator Analysis of electrical parameters within an induction generator\n\nPHOTOVOLTAIC SYSTEM\n\nCharacterization of a photovoltaic panel without a load Characterization of a photovoltaic panel with a load\n\nConnecting a photovoltaic system to the real network by using an inverter grid system mono phase.\n\nTRANSFORMER\n\nVector group\n\nNo load performance Load performance\n\nAsymmetrical performance Regulation performance\n\nTRANSMISSION\n\nNo-load performances Matched-load performances Ohmic-inductive load\n\nOhmic-capacitive load Automatic compensator Transmission line radial network\n\nTransmission line meshed network Transmission line: fault-to-earth and protection Transmission line: earth fault protection Transmission line:\n\nunder voltage protection Transmission line: over voltage protection\n\nSMART GRID\n\nSMART GRID\n\nContribution of solar energy Contribution of hydropower Contribution of wind plant\n\nSMART GRID ENHANCED WITH ARTIFICIAL INTELLIGENCE\n\nEnergy Consumption Prediction\n\nFault Detection in the Grid\n\nOptimization of Renewable Energy Usage\n\nPower System Stability Analysis\n\nIntelligent Load Control\n\nWind Power Generation Prediction\n\nSolar Power Generation Prediction\n\nTransformer Anomaly Detection\n\nPower Quality Classification\n\nAI-Based Microgrid Simulation\n\nSMART GRID ENHANCED WITH AI\n\nAI is revolutionizing the energy sector by improving efficiency, reliability, and sustainability. This study presents a series of AI-driven experiments focused on key challenges, such as energy consumption prediction, fault detection, renewable energy optimization, and grid stability. Using advanced techniques including supervised learning, reinforcement learning, and anomaly detection. Below, you will find the full descriptions of each experiment, along with their AI area and ML category.\n\nMANUALS\n\nThe system includes an experiment manual with a detailed description of all the experiments that we suggest for the system.\n\nFurthermore, the system is supplied complete with a book of approximately 300 pages \u201cEXPERIMENTAL CONCEPTS OF SMART GRID TECHNOLOGY BASED ON DELORENZO SMART GRID\u201d, written by Dr. Pedro Ponce and Dr. Arturo Molina, from the Tecnol\u00f3gico de Monterrey (Mexico).\n\nSAMPLE EXERCISE\n\nCONTRIBUTION OF SOLAR ENERGY\n\nAssume that there is demand for energy from a distant point and there is solar energy to be able to be exploited. In this exercise, the student will intervene by reducing the consumption of energy from a plant of old generation, using the surplus energy produced by solar photovoltaic systems.\n\nThe reduction of even a minimum of energy absorbed will certainly have an impact on the environmental pollution produced by a plant of the old generation.\n\n-  Set the load DL 1017R to position 2 and close the relay R2 to supply energy coming from the coal plant.\n-  Close the relay R4 to transfer energy coming from the plant to the load and observe the power consumption on the module DL 2109T29. In this situation you can see the active power required from the resistive load (DL 1017R) and a few of reactive power required from the primary of the step down transformer.\n-  Observe the active power consumption indicated by the red arrow after the step-down secondary transformer. In this situation, the total energy coming from the coal plant and directed to the load, crossing the long distance, produces a power loss in the transmission line.\n-  Increment the sun energy and check the contribution of energy coming from the photovoltaic system plant. (with light at 100% and panel in 90\u00b0)\n\nThe active power coming from the coal plant is going to be reduced and as well then, the reduction of pollution in terms of CO2. If you convert the reduction of power into a pollution on a large scale, we can make a big contribution to environment. The reduction of the energy is less if you use artificial lights, but if you orient the photovoltaic panel to the real sun the contribution would be higher.\n\nDL SGWD-AI - LIST OF MODULES\n\nDL 2108T26 Brushless Controller with Motor\n\nDL 1021\/4 Squirrel cage three phase asynchronous motor\n\nDL 1013A Base\n\nDL 1026P4 Three-Phase Synchronous Machine\n\nDL 1017R Resistive Load\n\nDL 1017L Inductive Load\n\nDL 1017C Capacitive Load\n\nDL 2108TAL\u2010CP Three Phase Supply Unit\n\nDL 1067S Motor Driven Power Supply\n\nDL 7901TT Overhead Line Model \u2013 360 Km\n\nDL 7901TTS Overhead Line Model \u2013 110 Km\n\nDL 10065N Electrical Power Digital Measuring Unit\n\nDL 2109T29 Three\u2010Phase Power Meter\n\nDL 2108T25 Generator Synchronizing Relay\n\nDL 2108T23 Feeder Manager Relay\n\nDL 2108T02 Power Circuit Breaker\n\nDL 2108T02A Power Circuit Breaker\n\nDL 2108T19 Reactive Power Controller\n\nDL 2108T20 Switchable Capacitor Battery\n\nDL 9031 Circuit Breaker\n\nDL 9013G Inverter Grid\n\nPFS-85 Photovoltaic Solar Panel\n\nDL SIMSUN Lamps For the Photovoltaic Solar Panel\n\nDL WINDSIM Wind Simulator\n\nDL HUBRS485F Modbus Communication Hub\n\nDL SCADA3+ Software Scada\n\nDL AI-MODULE Artificial intelligence module\n\nDL 1080TT Three\u2010Phase Transformer\n\nDL 1155SGWD Kit Of Connecting Leads\n\nDL T12090 120x90 Working Bench\n\nDL T06090 60x90 Working Bench\n\nDL A120-3M-LED Frame\n\nDL PCGRID All-In-One Personal Computer\n\nDL 2100TTI Three-Phase Transformer\n\nDL 1196 Holder For Leads\n\nOPTIONS:\n\n-  Microgrid wind energy - It allows adding a microgrid wind energy system in parallel to the photovoltaic solar system at the user end of the system \u2013 ordering code: DL SGWD-W-AI\n\n-  A micro-grid wind turbine powered by a servo-motor simulating the action of the wind.\n-  A single phase grid-tie inverter that feeds power from the turbine into the mains\n-  Dedicated instrument provide the information needed for the characterization of the wind system.\n\nAdditional modules for DL SGWD-AI-W, with Microgrid wind plant\n\nDL T12090_SK Multipurpose table (120x90x80cm) basic version with Shuko socket\n\nDL A120-3M-LED Frame with 3 levels version with led lamps\n\nDL 9030 Energy measurement module\n\nDL 9032 Network distributor module\n\nDL WTS-CTRL750 Control module for brushless motor 750W\n\nANEMOMETER Anemometer module\n\nDL WTS-3 Wind Turbine Simulator\n\nDL 9017 Lamps module\n\nDL 9013G3D Inverter grid module 300W IN 3ph. 12Vac with braking resistance\n\nDL 9027 Measurement module for wind generator\n\nDL 9031 Circuit Breaker",
        "Url": "edquip.co\/en\/de-lorenzo\/smart-grid-enhanced-with-artificial-intelligence",
        "Page title": "Smart Grid Enhanced With Artificial Intelligence",
        "Page description": "Smart Grid Enhanced With Artificial Intelligence. Free and quick price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 2,
        "Highest number of students": 20,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "380\u2013400V"
        ],
        "Other requirements": [
            "Internet",
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "620 x 90 x 185",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "500",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 112 x 224",
        "Packed dimensions unit": "cm",
        "Packed weight": "859",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/SMART GRID ENHANCED WITH ARTIFICIAL INTELLIGENCE\/SMART GRID ENHANCED WITH ARTIFICIAL INTELLIGENCE_DL SGWD-AI_De Lorenzo_DL-SGWD-AI.jpg",
        "Video link": "",
        "Main category": "Smart Grid Lab"
    },
    {
        "Edquip ID": "PL-148022",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL CH21",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Milk Sterilization Pilot Plant",
        "Description": "The DL CH21 Pilot Milk Sterilization Plant is a didactic and industrial system specially designed for educational institutions and research centers. Its objective is to simulate at full scale the sterilization process of dairy products, allowing the study of critical parameters such as temperature, exposure time and feed flow. The equipment integrates advanced control technology (PID), precision instrumentation and supervision software for real-time and historical monitoring and analysis of the process. Its robust stainless steel construction guarantees durability, hygiene and compliance with industrial standards. Thanks to its structure mounted on wheels, the plant can be easily moved within the laboratory, facilitating its installation and operation.",
        "Specs": "-  Control of product quality by varying sterilization time and temperature.\n-  PID temperature control with microprocessor controller.\n-  Wheel-mounted structure.\n-  Cylindrical tank for feeding and collection of sterilized product, made of steel, 80 l.\n-  Pumps with electronic flow rate variator 20 l\/h.\n-  Electronic frequency inverter for the feed pump.\n-  Feed flow meter, scale from 0 to 100 l\/h, accuracy \u00b10.5%.\n-  Stainless Steel Milk Preheater.\n-  Sterilization chamber, stainless Steel.\n-  Vacuum chamber and liquid ring vacuum pump.\n-  Plate heat exchanger for milk cooling, made of stainless steel.\n-  Connection lines and valves in stainless steel 304 and 316.\n-  Sensors and valves essential for the operation of the equipment.\n-  Supervision software: works in the Windows operating environment and allows monitoring ON-OFF signals, analog signals coming from the controller, real-time trend and historical trend.\n-  Electrical panel in compliance with CE standards, IP55 protection, synoptic diagram of the plant and differential circuit breaker.\n\nACCESSORIES INCLUDED\n\n-  Hot water generator.\n-  Steam generator.\n-  Computer, cabinet, ergonomic chair.\n-  Detailed practical manual.\n\nThe system is powered by three-phase voltage from the grid with 3kW of power.",
        "Url": "edquip.co\/en\/de-lorenzo\/milk-sterilization-pilot-plant",
        "Page title": "Milk Sterilization Pilot Plant: De Lorenzo - EDQUIP",
        "Page description": "Milk Distillation Pilot Plant for technical training purposes. Request quotation today, free price estimations, suitable for tech colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply",
            "Gases"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Milk Sterilization Pilot Plant\/Milk Sterilization Pilot Plant_DL CH21_De Lorenzo_DL CH21.jpg",
        "Video link": null,
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-525877",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL CH22",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Continuous Distillation Pilot Plant",
        "Description": "The Continuous Distillation Pilot Plant DL CH22 is a system designed for teaching, research and development in processes of separation of liquid mixtures by distillation. Its borosilicate glass design allows direct visualization of the process, facilitating the understanding of the principles of mass and heat transfer involved in fractional distillation. This equipment is ideal for use in laboratories of universities, research centers and companies that require a flexible platform for the optimization and control of industrial processes. Its modular configuration allows to study key operating variables, evaluate column performance and test different mixtures of chemical compounds.",
        "Specs": "-  Steel structure with wheels.\n-  Borosilicate glass distillation column.\n-  Distillation kettle.\n-  Borosilicate glass condenser.\n-  Feed tank.\n-  Distillate and residue collection tank.\n-  Cooling water flow regulation valve.\n-  Emergency push button.\n-  IP55 electrical panel.\n-  Variable area flowmeter in glass and steel.\n-  3 stainless steel tube-to-tube heat exchangers.\n-  Dosing pump with stainless steel head.\n-  SCR unit to regulate the power of the kettle's heating resistor.\n-  2 programmable timers for backflow ratio control.\n-  Vacuum circuit with trap, made of stainless steel.\n-  Stainless steel valves and connection lines.\n\nACCESSORIES INCLUDED\n\n-  Computer with Windows operating system.\n-  Data acquisition software.\n-  Furniture, ergonomic chair.\n-  Detailed practical manual.\n\nThe system is powered by single-phase voltage from the network.",
        "Url": "edquip.co\/en\/de-lorenzo\/continuous-distillation-pilot-plant",
        "Page title": "Continuous Distillation Pilot Plant: De Lorenzo - EDQUIP",
        "Page description": "Continuous Distillation Pilot Plant for technical training purposes. Request quotation today, free price estimations, suitable for tech colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Internet",
            "Water supply"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "220 x 100 x 200",
        "Packed dimensions unit": "cm",
        "Packed weight": "900",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Continuous Distillation Pilot Plant\/Continuous Distillation Pilot Plant_DL CH22_De Lorenzo_DL CH22.jpg",
        "Video link": null,
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-554674",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL CH23",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Pilot Plant For Solid-Liquid Extraction Including Solvent Recovery Unit",
        "Description": "The solid-liquid extraction pilot plant DL CH23 is designed to perform various extraction processes by different methods, adapting to a wide range of substances, this equipment allows experimentation, development and optimization of processes at pilot scale before their implementation at industrial level, equipped with a solvent recovery system, this plant not only ensures high extraction efficiency, but also promotes sustainability by minimizing solvent waste, providing flexibility and precision in laboratory or industrial environments.",
        "Specs": "-  Steel structure with wheels.\n-  Extractor made of borosilicate glass.\n-  Stainless steel condenser.\n-  Piping and fittings made of stainless steel.\n-  PT-100 Temperature Sensors.\n-  Electronic digital temperature indicators.\n-  Emergency push button.\n-  Stainless steel solid storage Hopper.\n-  Geared motor for the solid feeding auger.\n-  Geared motor for the extractor screw.\n-  Programmable timers for adjusting the starting and stopping times of the auger feed screw.\n-  Borosilicate glass solvent storage tank.\n-  Borosilicate glass extracted phase storage tank.\n-  Borosilicate glass depleted phase storage tank.\n-  SCR unit for heating power regulation.\n-  Electrical solvent preheating resistance.\n-  Stainless steel solvent dosing pump.\n-  Stainless steel valves and connection lines.\n\nACCESSORIES INCLUDED\n\n-  Computer with Windows operating system.\n-  Data Acquisition Software.\n-  Furniture, ergonomic chair.\n-  Detailed practical manual.\n\nThe system is powered by single-phase voltage from the network.",
        "Url": "edquip.co\/en\/de-lorenzo\/pilot-plant-for-solid-liquid-extraction-including-solvent-recovery-unit",
        "Page title": "Pilot Plant For Solid-Liquid Extraction Including Solvent Recovery Unit: De Lorenzo - EDQUIP",
        "Page description": "Pilot Plant For Solid-Liquid Extraction Including Solvent Recovery. Request quotation today, free price estimations, suitable for tech colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "190\u2013240V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "220 x 100 x 200",
        "Packed dimensions unit": "cm",
        "Packed weight": "900",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Pilot Plant For Solid-Liquid Extraction Including Solvent Recovery Unit\/Pilot Plant For Solid-Liquid Extraction Including Solvent Recovery Unit_DL CH23_De Lorenzo_DL CH23.jpg",
        "Video link": null,
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-480970",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL CH24",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Multipurpose Freeze-Drying Pilot Plant",
        "Description": "The DL CH24 Freeze Drying Pilot Plant, an equipment designed for laboratory testing. With state-of-the-art technology, this plant allows for small-scale freeze-drying processes, ensuring accurate and efficient results. Our pilot plant is equipped with a wheel-mounted structure, freeze-drying and condensation chamber, two-stage vacuum pump, refrigeration compressor and high-precision temperature sensors. In addition, it has a data acquisition system, which allows monitoring and analysis of the process, this equipment has been developed to meet the highest standards of quality and safety, ensuring optimum performance in research, development and small-scale production environments. Its compact design and ease of use make it an essential tool for universities; this pilot plant allows freeze-drying tests on small quantities of food products.",
        "Specs": "-  Wheel-mounted structure.\n-  Freeze-drying and condensation chamber.\n-  Two-stage vacuum pump.\n-  Refrigeration compressor.\n-  Capacitor.\n-  Pressure gauges.\n-  PT-100 Temperature Sensors.\n-  Electronic temperature indicator.\n\nACCESSORIES INCLUDED\n\n-  Computer with Windows operating system.\n-  Data acquisition software.\n-  Computer cabinet and chair.\n-  Detailed practical manual.\n\nThe system is powered by single-phase voltage from the network.",
        "Url": "edquip.co\/en\/de-lorenzo\/multipurpose-freeze-drying-pilot-plant",
        "Page title": "Multipurpose Freeze-Drying Pilot Plant: De Lorenzo - EDQUIP",
        "Page description": "Multipurpose Freeze-Drying Pilot Plant. Request quotation today, free price estimations, suitable for technical colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "2,20 x 1,00 x 2,00",
        "Packed dimensions unit": "cm",
        "Packed weight": "900",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/MULTIPURPOSE FREEZE-DRYING PILOT PLANT\/MULTIPURPOSE FREEZE-DRYING PILOT PLANT_DL CH24_De Lorenzo_DL-CH24-1.jpg",
        "Video link": "",
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-850910",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL CH25",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Essential Oil Extraction Pilot Plant",
        "Description": "The Essential Oil Extraction Pilot Plant DL CH25 has been designed to offer a complete, safe and efficient solution for steam distillation processes, adapted to both educational environments and research and development applications, built with high quality materials such as stainless steel AISI 304\/306 and borosilicate glass, this plant allows visualization of the extraction process, guaranteeing precision, instruments such as pressure gauges, as well as an integrated safety system with emergency button, thanks to its compact, modular and mobile design, ideal for demonstrating principles of chemical engineering, unit operations and extraction technologies of natural products.",
        "Specs": "-  Stainless steel structure with wheels.\n-  Borosilicate glass boiler.\n-  Borosilicate glass collection tanks.\n-  Bourdon spring pressure gauge.\n-  PT-100 Temperature Sensors.\n-  AISI 304 and 306 stainless steel connection lines and valves.\n-  Pressure reducer for compressed air.\n-  Emergency push button.\n-  Variable area flowmeter.\n-  Pneumatic valve for steam flow regulation to the boiler, made of stainless steel.\n-  Calibrated stainless steel diaphragm.\n-  Stainless steel electronic differential pressure transmitter.\n\nACCESSORIES INCLUDED\n\n-  Computer with Windows operating system.\n-  Data Acquisition Software.\n-  Computer cabinet and chair.\n-  Steam generator.\n-  Detailed practical manual.\n\nThe system is powered by single-phase voltage from the network.",
        "Url": "edquip.co\/en\/de-lorenzo\/essential-oil-extraction-pilot-plant",
        "Page title": "Essential Oil Extraction Pilot Plant: De Lorenzo - EDQUIP",
        "Page description": "Essential Oil Extraction Pilot Plant. Request quotation today, free price estimations, suitable for technical colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "220 x 100 x 200",
        "Packed dimensions unit": "cm",
        "Packed weight": "350",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Essential Oil Extraction Pilot Plant\/Essential Oil Extraction Pilot Plant_DL CH25_De Lorenzo_DL CH25.jpg",
        "Video link": null,
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-420281",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL 2598SC",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Satellite Communication Network Technology Trainer",
        "Description": "This trainer is mainly designed for \"Satellite Communications\", \"Mobile Communications Engineering\", \"Microwave Technology and Antennas\", \"Microwave Electronics\" and other topics in microwave and satellite communications, electronic information engineering, military communication network and command in major technical secondary schools, including the latest products developed for graduation projects. The satellite communication is a method that uses electromagnetic waves in space as a carrier to transmit information. It is not subject to geophysical interference. Therefore, satellite communication is one of the other wireless communication methods in aerospace communications, navigation, and personal remote area communications, especially in military communications. This equipment adopts a fully open microstrip circuit design concept, allowing students to more intuitively understand and master the design methods of microstrip active and passive circuits, and can directly train students\u2019 hands-on, thinking, and innovation abilities. It lays a practical foundation for future practical work, and it can also be used for scientific research experiments, e.g. to do simulated self-loop communication experiments.",
        "Specs": "According to the different orbits of communication satellites above the earth, they can be divided into synchronous and non-synchronous satellite communication systems. This equipment is a geosynchronous satellite communication system. In addition, there are several frequency band allocations for satellite communications. Among them are L-band, C-band, Ku-band, and Ka-band. This equipment uses the C-band, which is the earliest and most widely used.\n\nIt has the following features in C-band:\n\n-  5.925 \u00f7 6.425GHz for transmission,\n-  3.7 \u00f7 4.2GHz for reception,\n-  500MHz for sending bandwidth,\n-  500MHz for receiving bandwidth.\n\nIt adopts a modular structure, and all microwave circuits are open and visible to facilitate students' intuitive learning. It is designed and manufactured according to the secondary frequency conversion scheme common to industrial products, to facilitate the students to integrate with reality. It can be flexibly combined to be configured for simplex or duplex communication and, depending on the terminal equipment, Frequency Division Multiple Access (FDMA), Time Division Multiple Access (TDMA), Code Division Multiple Access (CDMA), or Hybrid Multiple Access (HMA) can be used. The experimental box in this equipment takes FDMA as an example.\n\nPERFORMANCE PARAMETERS\n\nMain performance indicators of sending equipment\n\n-  Transmission frequency: 5.925 \u00f7 6.425GHz,\n-  Emission level: 0dBm \u00f7 10dBm (1 \u00f7 10mW), 1dB step,\n-  System gain: \u2265 50dB,\n-  First IF (low IF): 140MHz,\n-  Second IF (High-mid frequency): 1.06GHz,\n-  Bandwidth (per band): 20 \u00f7 40Mhz,\n-  Video and Audio modulation methods: QAM,\n-  Modular output level: -5dBm \u00b1 2dB.\n\nMain performance indicators of receiving equipment\n\n-  Working frequency: 3.7 \u00f7 4.2GHz,\n-  Receiver sensitivity: -80 \u00f7 -50dBm,\n-  System gain: \u2265 60dB,\n-  First IF (low IF): 140MHz,\n-  Second IF (High-mid frequency): 1.165GHz,\n-  Gain control range (MGC, AGC): \u2265 31.5dB,\n-  Video and Audio demodulation methods: QAM.\n\nLocal oscillator frequency combiner\n\n-  L band frequency range,\n\n-  Receive: 1235 \u00f7 1305MHz,\n-  Send: 920 \u00f7 990MHz,\n-  Step: 1MHz.\n\n-  C-band frequency range,\n\n-  4.8 \u00f7 5.5GHz,\n-  Step: 20MHz.\n\n-  Frequency stability: \u00b1 5ppm or (1 \u00f7 2) x 10-5,\n-  Local oscillator combiner phase noise: -80dBc\/Hz@10k, -90dBc\/Hz@100k (typical value),\n-  Spurious output: 50dBc (typical value).\n\nAnalog satellite transponder\n\n-  Uplink receiving frequency range: 5.925 \u00f7 6.425GHz,\n-  Downlink transmission frequency range: 3.7 \u00f7 4.2GHz,\n-  Communication satellite transponder local oscillator frequency: 2 \u00f7 2.25GHz,\n-  System gain: 40 \u00f7 70dB,\n-  Receive sensitivity: -70 \u00f7 -30dBm,\n-  Frequency stability: \u00b1 5ppm or (1 \u00f7 2) x 10-5,\n-  Phase noise: -80dBc\/Hz@10k, -90dBc\/Hz@100k (typical value).\n\nEXPERIMENTAL FUNCTIONS\n\n-  Can transmit colour image signals and voice signals at the same time,\n-  Frequency shift repeater for mobile communications,\n-  Microwave components and microwave circuit system testing,\n-  Microwave Antenna Test Experiment,\n-  Can provide practical microwave circuit design models (including amplifiers, various filters, mixers, and power dividers among others).\n\nEXPERIMENTAL CONTENT\n\nOverview of satellite communications\n\n-  Main features of satellite communications,\n-  Composition of satellite communication network,\n-  FDMA in satellite communication.\n\nSystem principles, features, and functional technical indicators\n\n-  Main technical indicators and functions of the transceiver system,\n-  Experimental system principal composition,\n-  Experimental system characteristics.\n\nSatellite communication and networking experiment\n\n-  Peer-to-peer communication,\n-  Network duplex communication (optional),\n-  Connection between satellite communication network, microwave communication and mobile communication network (optional),\n-  Satellite broadcasting network (optional).\n\nExtended experiments in the experimental box\n\n-  Experiments for additional circuits in the experimental box,\n-  Microwave antenna test experiment.\n\nMicrowave and satellite communication system components and unit circuit testing experiments\n\n-  IF Image Modulator Experiment,\n-  IF Image Demodulator Experiment,\n-  Experiments on IF amplifier, bandpass filter, and gain control functions,\n-  Bandpass, bandstop filters and amplifier experiments for high and medium frequency division systems,\n-  Frequency synthesizer experiment,\n-  Experiments on C-band up and down-conversion systems,\n-  Test experiment of C-band receiving system,\n-  Test experiment of C-band transmitting system,\n-  Test experiment of C-band communication satellite transponder.\n\nCONFIGURATION LIST\n\n-  Satellite communication network technology training platform (uplink)\/1 set,\n-  Satellite communication network technology training platform (downstream)\/1 set,\n-  Satellite transponder\/1 set,\n-  4G antenna\/1 pair,\n-  6G antenna\/1 pair,\n-  Power cables and auxiliary cables.\n-  Detailed theoretical and practical manual.\n\nPower supply: single-phase from the mains.\n\n\u2003\n\nSUGGESTED NECESSARY INSTRUMENT (NOT INCLUDED)\n\nA spectrum analyzer with functions such as real-time spectrum, scanned spectrum, vector network analysis, antenna feeder measurement, field strength measurement, interference positioning, power measurement, signal modulation analysis, etc.\n\n-  For real time spectrum analysis:\n\n-  Frequency range: 5kHz \u00f7 8GHz,\n-  Real time analysis bandwidth: \u2265 40MHz,\n-  Maximum sampling rate: 51.2MHz,\n-  Display mode: density spectrum, waterfall plot, power vs. time,\n-  Trigger modes: External Trigger, Intermediate Frequency Power, PPS Second Pulse, Gate Control Scan, Frequency Template.\n\n-  For scanning frequency spectrum analysis:\n\n-  Resolution bandwidth: 1Hz \u00f7 5MHz,\n-  Noise level: -165dBm,\n-  Scanning time: 20\u03bcs \u00f7 3000s (non-zero scanning width), 5ms \u00f7 3000s (zero scanning width),\n-  Comprehensive amplitude accuracy: \u00b1 1.5dB.\n\n-  For vector network analysis:\n\n-  Frequency range: 100kHz \u00f7 8GHz,\n-  Measurement parameters: S11, S21,\n-  RF output power: 0dBm, 30dB adjustable,\n-  Display modes: echo\/Standing Wave Ratio (SWR), insertion loss, Smith chart, phase, group delay,\n-  Effective directionality: \u2265 38dB (1MHz \u00f7 8GHz),\n-  Dynamic range: 80dB (S21, 10kHz RBW, Log mag, Average = 50, >10MHz).",
        "Url": "edquip.co\/en\/de-lorenzo\/satellite-communication-network-technology-trainer",
        "Page title": "Satellite Communication Network Technology Trainer: De Lorenzo - EDQUIP",
        "Page description": "Satellite Communication Network Technology Trainer. Request your quotation today! Free price estimations, suitable for technical  colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "113 x 82 x 30",
        "Packed dimensions unit": "cm",
        "Packed weight": "12,9",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/SATELLITE COMMUNICATION NETWORK TECHNOLOGY TRAINER\/SATELLITE COMMUNICATION NETWORK TECHNOLOGY TRAINER_DL 2598SC_De Lorenzo_DL-2598SC.jpg",
        "Video link": "",
        "Main category": "Technical Training Equipment"
    },
    {
        "Edquip ID": "PL-626808",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL ARM32BIT",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Open Microprocessor Trainer",
        "Description": "The Open Microprocessor Trainer is designed to teach the basics of working with a 32-bit industrial microprocessor based on the flexible architecture of a Dual Arm\u00ae Cortex\u00ae-A7 core and\/or Cortex\u00ae-M4. It is ideal for learning software and hardware development for industrial control systems. It helps students understanding ARM Cortex microprocessors and becoming familiar with their programming and components.\n\nThe trainer consists of a main module with power supply, with the possibility of choosing one of the three proposed systems:\n\n-  DL ARM32BIT-HP (with Cortes-A7 operating at 650 MHZ and Cortex-M4 operating at 209 MHZ)\n-  DL ARM32BIT-UL (with Cortex-M4 operating at 80 MHZ)\n-  DL ARM32BIT-MS (with Cortex-M4 operating at 168 MHZ)\n\naccording to the end user's needs, with different interfaces and a set of software application each.\n\nThe Cortex family is divided into the A-series (Application), the R-series (Realtime), the M-series (Microcontroller), and the SecureCore series.\n\n-  The A series is aimed at computers, advanced mobile phones and more generally applications that require computing power and flexibility.\n-  The R series is developed for real-time applications.\n-  The M series is the smallest series, developed for use in microcontrollers.\n-  The SecureCore series is derived from the M series and used for security applications, such as Smart cards.\n\nThis trainer is robust and suitable for both beginners and advanced learners.",
        "Specs": "DL ARM32BIT-HP\n\nThis processor helps deepen the understanding of STM32MP1 peripherals and the Linux operating system, while enhancing the programming ability of microprocessors and the Linux environment.\n\n-  Development software:\n\n-  Ubuntu, FileZilla, Visual Studio Code, CH340 driver.\n\n-  Windows support:\n\n-  Windows 10 64bit Professional,\n-  Windows 11 64bit.\n\nTECHNICAL FEATURES\n\nThe STM32MP1 series is a general purpose and multimarket microprocessor (MPU) class of products, targeting a wide range of applications in industrial, in Smart city, in Smart home, in Medical and health care, and in IoT.\n\nThe STM32MP157 is a high-performance heterogeneous multi-core processor, integrating a dual-core Cortex-A7 application processor with a main frequency of 650 MHz and a Cortex-M4 single-core real-time controller with a main frequency of 209 MHz, and supporting the complex Linux operating system.\n\nPERIPHERAL INTERFACES RESOURCES ON THE BOARD\n\n-  Onboard 1GB DDR3L memory and 8GB EMMC.\n-  General inputs and outputs with at least 44 ports.\n-  Keyboard with hexadecimal keys.\n-  Interfaces: CAN BUS, RS232 BUS, 485 BUS, TCP\/IP, SD Card, JTAG, IIS, LCD and screen, USB.\n-  Peripheral: Light environment sensor, 6-axis motion tracking sensor.\n-  Expansion bus for connecting external applications.\n\nTRANING OBJECTIVES\n\nWith this board it is possible to perform experiments on the following subjects:\n\n-  Linux C Programming experiment,\n-  TF-A transplantation experiment,\n-  Uboot transplantation experiment,\n-  Linux Kernel transplantation experiment,\n-  Root file system construction experiment,\n-  Linux LED Driver experiment,\n-  Linux Key Input experiment,\n-  Linux Kernel Timer experiment,\n-  Linux Interrupt experiment,\n-  Linux LCD Driver experiment,\n-  Linux IIC Driver experiment,\n-  Linux RTC Driver experiment,\n-  Linux SPI Driver experiment,\n-  Linux RS232\/485 Driver experiment,\n-  Linux USB Driver experiment,\n-  Linux Audio Driver experiment,\n-  Linux Network Device Driver experiment,\n-  Linux ADC Driver experiment,\n-  Linux DAC Driver experiment.\n\nACCESSORIES\n\nThe trainer is supplied with the following elements:\n\n-  DC12V\/2A power adapter,\n-  SD Card,\n-  Ethernet cable,\n-  USB Type A-B cable,\n-  RS232\/RS485 cable.\n\nAnd complete with technical documentation, practical manual and software.\n\n\u2003\n\nDL ARM32BIT-UL\n\nThis processor helps deepen the understanding of STM32L4 peripherals and low-power implementation, while strengthening programming skills for microprocessors and their components.\n\n-  Development software:\n\n-  Keil MDK-ARM V5.15 with STM32L4 device package.\n-  STM32CubeMX.\n-  JLink V7.82.\n\n-  Windows support:\n\n-  Windows 10 64bit Professional,\n-  Windows 11 64bit.\n\nTECHNICAL FEATURES\n\nThe STM32L496 device is ultra-low-power microcontrollers based on the high-performance Arm\u00ae Cortex\u00ae-M4 32-bit RISC core operating at a frequency of up to 80 MHz. The low power consumption feature enables dynamic voltage scaling (range 1 & 2) in stop mode current (~1\u03bcA with SRAM retention) and standby mode current (~0.4\u03bcA with RTC).\n\nPERIPHERAL INTERFACES RESOURCES ON THE BOARD\n\n-  General inputs and outputs with at least 18 ports.\n-  Keyboard with hexadecimal keys.\n-  Interfaces: RS232, JTAG, IIS, TFTLCD, 7-segment LCD.\n-  Peripheral: Light environment sensor, Infrared receiver, Infrared receiving and transmitting peripheral, 6-axis sensor, Temperature and humidity sensor.\n-  Expansion bus for connecting external applications.\n\nTRANING OBJECTIVES\n\nWith this board it is possible to perform experiments on the following subjects:\n\n-  LED Running Light experiment,\n-  Button Input experiment,\n-  External Interrupt experiment,\n-  Serial Communication experiment,\n-  Timer interrupt experiment,\n-  TFT LCD Display experiment,\n-  RTC (Real-Time Clock) experiment,\n-  Ambient Light Sensor experiment,\n-  IMU (Inertial Measurement Unit) test experiment,\n-  Infrared (IR) Transmitter & Receiver experiment,\n-  Music Player experiment,\n-  Temperature & Humidity Sensor experiment,\n-  Low-power voltage and current detection experiment,\n-  7-segment LCD Display experiment,\n-  Ultra-low power consumption experiment.\n\nACCESSORIES\n\nThe trainer is supplied with the following elements:\n\n-  DC5V\/2A power adapter,\n-  USB \u2013 RS232 cable,\n-  JLink Debugger,\n-  Wires.\n\nAnd complete with technical documentation, practical manual and software.\n\n\u2003\n\nDL ARM32BIT-MS\n\nThis processor helps deepen the understanding of STM32F4 peripherals, as well as the FreeRTOS operating systems, while enhancing the programming skills of microprocessors and their components.\n\n-  Development software:\n\n-  Keil MDK-ARM V5.15 with STM32F4 device package.\n-  STM32CubeMX.\n-  JLink V7.82.\n-  ST-Link debug.\n\n-  Windows support:\n\n-  Windows 10 64bit Professional,\n-  Windows 11 64bit.\n\nTECHNICAL FEATURES\n\nThe STM32F407 is a high-performance Cortex-M4 MCU with FPU and DSP instructions, operating at 168 MHZ, supporting operating systems such as FreeRTOS.\n\nThe STM32F407 is designed for medical, industrial and consumer applications where the high level of integration and performance is required, embedded memories and rich peripheral set are required.\n\nPERIPHERAL INTERFACES RESOURCES ON THE BOARD\n\n-  Onboard 1MB SRAM.\n-  General inputs and outputs with at least 24 ports.\n-  Keyboard with hexadecimal keys.\n-  Interfaces: CAN, RS232, 485 BUS, TCP\/IP, SD Card, JTAG, IIS, LCD and touch screen.\n-  Peripheral: Photosensitive sensor, Infrared receiver, Three-axis magnetometer, Temperature and humidity sensor.\n-  Expansion bus for connecting external applications.\n\nTRANING OBJECTIVES\n\nWith this board it is possible to perform experiments on the following subjects:\n\n-  LED Running Light experiment,\n-  Button Input experiment,\n-  External Interrupt experiment,\n-  IWDG (Independent Watchdog) experiment,\n-  Serial Communication experiment,\n-  Timer interrupt experiment,\n-  TFT LCD Display experiment,\n-  RTC (Real-Time Clock) experiment,\n-  SD Card & SRAM experiment,\n-  485 & CAN communication experiment,\n-  Light Sensor experiment,\n-  PFU\/DSP experiment,\n-  Infrared Remote-control experiment,\n-  ADC & DAC experiment,\n-  Music & Video Player experiment,\n-  Temperature & Humidity Sensor experiment,\n-  Audio Recorder experiment,\n-  Magnetometer experiment,\n-  Network communication experiment,\n-  FreeRTOS Task Scheduling experiment,\n-  FreeRTOS queue operation experiment,\n-  FreeRTOS semaphore experiment\n\nACCESSORIES\n\nThe trainer is supplied with the following elements:\n\n-  DC12V\/2A power adapter,\n-  SD Card,\n-  Ethernet cable,\n-  USB Type A-B cable,\n-  RS232\/RS485 cable,\n-  Touch pen.\n\nAnd complete with technical documentation, practical manual and software.",
        "Url": "edquip.co\/en\/de-lorenzo\/open-microprocessor-trainer",
        "Page title": "Open Microprocessor Trainer: De Lorenzo - EDQUIP",
        "Page description": "Open Microprocessor Trainer for hands-on training. Request your quotation today! Free price estimations, suitable for technical colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "48 x 37 x 18",
        "Packed dimensions unit": "cm",
        "Packed weight": "7,5",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/OPEN MICROPROCESSOR TRAINER\/OPEN MICROPROCESSOR TRAINER_DL ARM32BIT_De Lorenzo_DL-ARM32BIT.jpg",
        "Video link": "",
        "Main category": "Vocational Training Equipment"
    },
    {
        "Edquip ID": "PL-914669",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL DHD011",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Demonstrator For Infiltration Into Soils",
        "Description": "The DL DHD011 trainer makes it possible to determine the ease with which a soil lets water pass through it by calculating the permeability coefficient k, applying Darcy's Law.\n\nThe experiment is carried out by pumping a stream of water into a small tank at constant load, from which the water flows to a cylinder open at both ends, containing the soil to be analysed.\n\nOnce equilibrium is established between the inflow and outflow (overflow), the pressures of the water at the top and bottom of the soil are measured to determine the pressure drop.\n\nKnowing the cylinder cross section, flow rate and pressure drop, Darcy's Law is applied to derive the permeability coefficient of the soil being analysed.",
        "Specs": "-  Understand the concept of permeability of a soil and determine its coefficient k through the application of Darcy's Law.\n-  Determine the void index and porosity of the soil contained within the cylinder before weighing to analyse its physical and structural characteristics.\n\nCharacteristics of the flow pump for pumping water into the soil:\n\n-  Flow rate: 3800 l\/h.\n-  Maximum lifting height: 3,10 m.\n-  Interchangeable cylinder - 500 mm.\n-  Water column pressure gauge - 1000 mm.\n-  Sample collection container - 500 ml.\n-  Flow opening\/closing valve.\n-  Lower graduated receptacle for determination of flow rate by volumetric method.\n-  Power supply: single-phase from the mains.",
        "Url": "edquip.co\/en\/de-lorenzo\/demonstrator-for-infiltration-into-soils",
        "Page title": "Demonstrator For Infiltration Into Soils: De Lorenzo - EDQUIP",
        "Page description": "Demonstrator For Infiltration Into Soils, for hands-on training. Request your quotation today! Free price estimations, suitable for technical  universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "140 x 70 x 70",
        "Packed dimensions unit": "cm",
        "Packed weight": "76",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/DEMONSTRATOR FOR INFILTRATION INTO SOILS\/DEMONSTRATOR FOR INFILTRATION INTO SOILS_DL DHD011_De Lorenzo_DL-DHD011-2.jpg",
        "Video link": "",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-446702",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL LIFT2.0",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Single Elevator Model",
        "Description": "This equipment mainly trains installation, commissioning, and maintenance talents engaged in the elevator industry.\n\nIt focuses on mechanical and electronic control systems, process flows, and on cultivating students\u2019 practical ability to solve problems and achieve the effect of drawing inferences from an example, to also find out the cause of faults quickly and accurately and eliminate them in actual work improving students\u2019 thinking and analytical abilities.\n\nThere is an increasing demand for technical talents in related fields.\n\nWhether it is elevator design or elevator maintenance, students or related workers need to understand the basic working principles of elevators, and in order to help students and related workers learn elevators faster, we have designed and produced the single DL LIFT2.0 elevator model.\n\nIt consists of a real elevator in small scale with four floors and four-stop allowing an innovative approach to PLC control and management of the control elevator training device understanding its principal and real use.\n\nIt shows an elevator with external call buttons and status displays for each floor.\n\nIt can simulate most of the building elevators encountered in daily life and its functions can basically restore the actual working scenes of most elevators.\n\nA multiplicity of sensors and motors control the presence of the cabin on each floor and the opening of both the floor and cabin doors, as in real installations, by command of the buttons inside the cabin and on the floors.\n\nAt the front of the elevator there are four automatic doors to the floors, with the relative floor call buttons and the elevator indicator lights.\n\nMAIN FEATURES\n\n-  Safer - The model fully considers the user's safety at the beginning of the design and adopts excellent electrical layout reliability solutions.\n-  Easier to use - The structure and principle are clear and can be more convenient for users to use. It is small and has very rich functions.\n-  More durable - The model uses more solid and corrosion-resistant materials, which can greatly extend the service life of the equipment.\n\nWHO IS IT FOR?\n\n-  Automation & Control Engineering,\n-  Mechatronics Engineering,\n-  Automation Technicians,\n-  Automatic Systems Maintenance Technicians,\n-  Mechatronics Technicians,\n-  Elevator maintenance Technicians.",
        "Specs": "This proposed DL LIFT2.0 model has its own independent electrical control system, drive system and car door control system including:\n\n-  Siemens PLC control operation system with possibility to communicate with a central laboratory PC,\n-  External call buttons,\n-  Four floors numbered from 1 to 4,\n-  Basic usage of DC drive,\n-  LED digital displays,\n-  Analog potentiometer command,\n-  Sensor detection,\n-  Positioning with photoelectric encoder,\n-  Automatic door opening and closing control,\n-  Operation as real elevator with simulation of call status and motor drive,\n-  Scada software to realize remote control function via web server.\n\nThe mechanical part consists of a frame, guide rail, real car, counterweight, and call box with internal call buttons.\n\nThe detection signals are divided into outbound call signal, internal selection signal, levelling signal, position detection signal, door opening and closing position signal, door anti-pinch protection signal, upper and lower limit position protection signals.\n\nThe elevator has protection functions such as switch and limit and displays the current floor position, the running direction, and the response of the outgoing call\/internal call signal.\n\nThe main drive of the elevator has a DC-driven speed controlled motor simulating the actual running speed of the elevator.\n\nThe encoder of the elevator has position detection to accurately detect the position, as well as to control the acceleration and deceleration process of the elevator.\n\nThe programmable controller transmits the signals of the elevator to the central computer for control through network communication.\n\nIt also allows the operation and the remote control of the lift model to ensure that the operator of the system has various industrial tools available to shorten operation times like in a real elevator.\n\nIt has \u201cmaintenance station\u201d function to stop the elevator, to protect the technician during maintenance, as well as \u201cfire station\u201d function, to simulate the operation of the elevator in the event of a fire.\n\nMAIN PARTS DESCRIPTION AND FUNCTION\n\n-  Outbound call display and button function board; For external display and control of floor position\n-  Internal call display function panel; Used to display the real-time floor location of internal calls\n-  Internal call button function board; Function button for internal calling\n-  External door of the floor elevator; Perform the opening and closing of floor elevator doors\n-  PLC external expansion port; Port for expanding PLC\n-  Circuit breaker with leakage protection device; Used to control the on and off of the circuit\n-  Siemens PLC and expansion module; Elevator control centre\n-  Manual up button; Button for manually controlling the elevator to ascend\n-  Manual down button; Button for manually controlling the descent of the elevator\n-  Manual\/automatic switch knob; Knob for switching between manual and automatic\n-  Maintenance mode knob; Knob for entering maintenance mode\n-  Fire mode knob; Knob for entering fire mode\n-  Emergency stop switch; Used to stop the operation of the equipment in an emergency\n-  Elevator speed knob; Used to adjust the speed of the elevator car\n-  Network communication port; Port used for network communication\n-  Elevator car door opening and closing motor; Used to control the opening and closing of elevator car doors\n-  Car levelling switch; Device for detecting whether the car is aligned with the floor\n-  Elevator car limit switch; Limits used to limit the up and down movement of the elevator car\n-  Car module; Device for carrying passengers\n-  Elevator outer door mechanical interlock device; Device for controlling the opening and closing of elevator outer doors\n-  Steel cable; Steel wire rope used to pull the car\n-  Counterweight block; Device for balancing the weight of the car\n-  Encoder; Used to read the rotation parameters of the motor\n-  Steel cable drive fixed pulley; Pulley device for pulling the cable\n-  Car lift motor; Power used to control the lift\n\nEQUIPMENT COMPONENT LIST\n\n-  Siemens S7-1200 (Control centre for elevator operation) and Expansion module.\n\n-  Siemens S7-1215C:\n\n-  DC\/DC\/Rly\n-  14 inputs\/10 outputs\n-  Integrated 2AI\/2AO\n\n-  Expansion digital input and output module:\n\n-  SM 1223\n-  DI 16\u00d724 Vdc\n-  DQ 16\u00d7RELAY.\n\n-  Circuit breaker with leakage protection device (Used to control the on\/off of the circuit) C-type circuit breaker, suitable for circuits with single-phase AC voltage below AC 400V, rated current of 16A. It is triggered when the leakage current reaches 30mA.\n-  Elevator car lifting motor\n-  Elevator car door opening and closing motor\n-  Elevator car lift motor position encoder\n-  Elevator car position lower limit switch\n-  Elevator car position upper limit switch\n-  Elevator car door opening and closing interlock kit\n-  Elevator Counterweight\n-  Elevator floor call function panel (including buttons)\n-  Elevator car call button function panel\n-  Elevator car call display function board\n-  Elevator manual mode control button (buttons for controlling the elevator up and down)\n-  Elevator emergency stop button (for cutting off the circuit in an emergency)\n-  Elevator manual\/automatic switch knob (used to switch between manual and automatic modes)\n-  Elevator operation adjustment knob (for adjusting the running speed)\n-  Elevator Network Communication Network\n-  Elevator maintenance mode switch knob\n-  Elevator fire mode switch knob\n\nEXPERIMENTAL TOPICS\n\nWith this equipment, the students can perform the following experiments:\n\n-  Understand the basic structure and operation of elevator model.\n-  Demonstrate the operation of elevator model in manual mode.\n-  Demonstrate the operation of elevator model in automatic mode.\n-  Demonstrate the operation of elevator model in maintenance mode.\n-  Demonstrate the operation of elevator model in fire mode.\n-  Demonstrate the operation speed regulation function of elevator model.\n-  Demonstrate the remote control and data acquisition function of elevator model.\n\nSUPPLIED ACCESSORIES\n\n-  Siemens programming software\n-  Spare limit switch\n-  Applications software\n-  Network communication cable\n-  Power supply cable\n\nTECHNICAL PARAMETERS\n\n-  Input power: single-phase from mains.\n-  Dimensions: approx. 500mm x 610mm x 1200mm (LxDxH).\n-  Weight: approx. 80kg.\n-  Working conditions:\n\n-  Ambient temperature: -10\u00b0C \u00f7 +40\u00b0C,\n-  Relative humidity: < 85% (@25\u00b0C).\n\nComplete with a set of practical manual and Software.",
        "Url": "edquip.co\/en\/de-lorenzo\/single-elevator-model",
        "Page title": "Single Elevator Model: De Lorenzo - EDQUIP",
        "Page description": "Single Elevator Model for hands on training. Request your quotation today! Quick price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "104 x 074 x 141",
        "Packed dimensions unit": "cm",
        "Packed weight": "152",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/SINGLE ELEVATOR MODEL\/SINGLE ELEVATOR MODEL_DL LIFT2.0_De Lorenzo_DL-LIFT2.0.jpg",
        "Video link": "",
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-819305",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL LIFT4.0",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Double Elevator Model",
        "Description": "This equipment mainly trains installation, commissioning, and maintenance talents engaged in the elevator industry.\n\nIt focuses on mechanical and electronic control systems, process flows, and on cultivating students\u2019 practical ability to solve problems and achieve the effect of drawing inferences from an example, to also find out the cause of faults quickly and accurately and eliminate them in actual work improving students\u2019 thinking and analytical abilities.\n\nThere is an increasing demand for technical talents in related fields.\n\nWhether it is elevator design or elevator maintenance, students or related workers need to understand the basic working principles of elevators, and in order to help students and related workers learn elevators faster, we have designed and produced the double DL LIFT4.0 elevator model.\n\nIt consists of two real elevators in small scale, each with four floors and with four-stop allowing an innovative approach to PLC control and management of the multi elevator control training device understanding its principal and real use.\n\nIt shows for each elevator and for each floor with external call buttons and status displays.\n\nIt can simulate most of the building elevators encountered in daily life and its functions can basically restore the actual working scenes of most elevators.\n\nIt incorporates the logic on the PLC system to function as real common dual elevator systems like in hotels or municipal buildings and once the call button is pushed the logic on the PLC calls back the closest elevator available to the active user.\n\nA multiplicity of sensors and motors control the presence of the cabins on each floor and the opening of both the floor and cabin doors, as in real installations, by command of the buttons inside the cabins and on the floors.\n\nAt the front of the elevator there are four automatic doors to the floors for each, with the relative floor call buttons and the elevator indicator lights.\n\nMAIN FEATURES\n\n-  Safer - The model fully considers the user's safety at the beginning of the design and adopts excellent electrical layout reliability solutions.\n-  Easier to use - The structure and principle are clear and can be more convenient for users to use. It is small and has very rich functions.\n-  More durable - The model uses more solid and corrosion-resistant materials, which can greatly extend the service life of the equipment.\n\nWHO IS IT FOR?\n\n-  Automation & Control Engineering,\n-  Mechatronics Engineering,\n-  Automation Technicians,\n-  Automatic Systems Maintenance Technicians,\n-  Mechatronics Technicians,\n-  Elevator maintenance Technicians.",
        "Specs": "In this proposed DL LIFT4.0 model, each elevator has its own independent electrical control system, drive system and car door control system including:\n\n-  Siemens PLC control operation system with possibility to communicate with a central laboratory PC,\n-  External call buttons,\n-  Four floors numbered from 1 to 4,\n-  Basic usage of DC drive,\n-  LED digital displays,\n-  Analog potentiometer command,\n-  Sensor detection,\n-  Positioning with photoelectric encoder,\n-  Automatic door opening and closing control,\n-  Operation as real elevator with simulation of call status and motor drive,\n-  Two elevator linkage operation control,\n-  Scada software to realize remote control function via web server.\n\nThe mechanical part of each elevator consists of a frame, guide rail, real car, counterweight, and call box with internal call buttons.\n\nThe detection signals are divided into outbound call signal, internal selection signal, levelling signal, position detection signal, door opening and closing position signal, door anti-pinch protection signal, upper and lower limit position protection signals.\n\nEach elevator has protection functions such as switch and limit and displays the current floor position for each floor, the running direction, and the response of the outgoing call\/internal call signal.\n\nThe main drive of the elevator has a DC-driven speed controlled motor simulating the actual running speed of the elevator.\n\nThe encoder of the elevator has position detection to accurately detect the position, as well as to control the acceleration and deceleration process of the elevator.\n\nThe programmable controller transmits the signals of the two elevators to the central computer for control through network communication.\n\nIt also allows the operation and the remote control of the elevators to ensure that the operator of the system has various industrial tools available to shorten operation times like in a real elevator.\n\nIt has \u201cmaintenance station\u201d function to stop the elevator, to protect the technician during maintenance, as well as \u201cfire station\u201d function, to simulate the operation of the elevator in the event of a fire.\n\nMAIN PARTS DESCRIPTION AND FUNCTION OF EACH ELEVATOR\n\n-  Outbound call display and button function board; For external display and control of floor position\n-  Internal call display function panel; Used to display the real-time floor location of internal calls\n-  Internal call button function board; Function button for internal calling\n-  External door of the floor elevator; Perform the opening and closing of floor elevator doors\n-  PLC external expansion port; Port for expanding PLC\n-  Circuit breaker with leakage protection device; Used to control the on and off of the circuit\n-  Siemens PLC and expansion module; Elevator control centre\n-  Manual up button; Button for manually controlling the elevator to ascend\n-  Manual down button; Button for manually controlling the descent of the elevator\n-  Manual\/automatic switch knob; Knob for switching between manual and automatic\n-  Maintenance mode knob; Knob for entering maintenance mode\n- Fire mode knob; Knob for entering fire mode\n-  Emergency stop switch; Used to stop the operation of the equipment in an emergency\n-  Elevator speed knob; Used to adjust the speed of the elevator car\n-  Network communication port; Port used for network communication\n-  Elevator car door opening and closing motor; Used to control the opening and closing of elevator car doors\n-  Car levelling switch; Device for detecting whether the car is aligned with the floor\n-  Elevator car limit switch; Limits used to limit the up and down movement of the elevator car\n-  Car module; Device for carrying passengers\n-  Elevator outer door mechanical interlock device; Device for controlling the opening and closing of elevator outer doors\n-  Steel cable; Steel wire rope used to pull the car\n-  Counterweight block; Device for balancing the weight of the car\n-  Encoder; Used to read the rotation parameters of the motor\n-  Steel cable drive fixed pulley; Pulley device for pulling the cable\n-  Car lift motor; Power used to control the lift\n\nEQUIPMENT COMPONENT LIST\n\n-  Siemens S7-1200 (Control centre for elevator operation) and Expansion module.\n\n-  Siemens S7-1215C:\n\n-  DC\/DC\/Rly\n-  14 inputs\/10 outputs\n-  Integrated 2AI\/2AO\n\n-  Expansion digital input and output module:\n\n-  SM 1223\n-  DI 16\u00d724 Vdc\n-  DQ 16\u00d7RELAY.\n\n-  Circuit breaker with leakage protection device (Used to control the on\/off of the circuit) C-type circuit breaker, suitable for circuits with single-phase AC voltage below AC 400V, rated current of 16A. It is triggered when the leakage current reaches 30mA.\n-  Elevator car lifting motor\n-  Elevator car door opening and closing motor\n-  Elevator car lift motor position encoder\n-  Elevator car position lower limit switch\n-  Elevator car position upper limit switch\n-  Elevator car door opening and closing interlock kit\n-  Elevator Counterweight\n-  Elevator floor call function panel (including buttons)\n-  Elevator car call button function panel\n-  Elevator car call display function board\n-  Elevator manual mode control button (buttons for controlling the elevator up and down)\n-  Elevator emergency stop button (for cutting off the circuit in an emergency)\n-  Elevator manual\/automatic switch knob (used to switch between manual and automatic modes)\n-  Elevator operation adjustment knob (for adjusting the running speed)\n-  Elevators Network Communication Network (one for both elevators)\n-  Elevator maintenance mode switch knob\n-  Elevator fire mode switch knob\n\nEXPERIMENTAL TOPICS\n\nWith this equipment, the students can perform the following experiments:\n\n-  Understand the basic structure and operation of dual elevator dynamic scheduling model.\n-  Demonstrate the operation of dual elevator dynamic scheduling model in manual mode.\n-  Demonstrate the operation of dual elevator dynamic scheduling elevator model in automatic mode.\n-  Demonstrate the operation of dual elevator dynamic scheduling elevator model in maintenance mode.\n-  Demonstrate the operation of dual elevator dynamic scheduling elevator model in fire mode.\n-  Demonstrate the operation speed regulation function of elevator model.\n-  Demonstrate the remote control and data acquisition function of dual elevator dynamic scheduling elevator model.\n\nSUPPLIED ACCESSORIES\n\n-  Siemens programming software\n-  Spare limit switch\n-  Applications software\n-  Network communication cable\n-  Power supply cable\n\nTECHNICAL PARAMETERS\n\n-  Input power: single-phase from mains.\n-  Dimensions: approx. 800mm x 610mm x 1200mm (LxDxH).\n-  Weight: approx. 140kg.\n-  Working conditions:\n\n-  Ambient temperature: -10\u00b0C \u00f7 +40\u00b0C,\n-  Relative humidity: < 85% (@25\u00b0C).\n\nComplete with a set of practical manual and Software.",
        "Url": "edquip.co\/en\/de-lorenzo\/double-elevator-model",
        "Page title": "Double Elevator Model: De Lorenzo - EDQUIP",
        "Page description": "Double Elevator Model for hands on training. Request your quotation today! Quick price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "52 x 74 x 141",
        "Packed dimensions unit": "cm",
        "Packed weight": "100",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/DOUBLE ELEVATOR MODEL\/DOUBLE ELEVATOR MODEL_DL LIFT4.0_De Lorenzo_DL-LIFT4.0-1.jpg",
        "Video link": "",
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-123010",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL MICROWAVE-2.0",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Microwaves Trainer",
        "Description": "The trainer DL MICROWAVE-2.0 has been designed to introduce students to microwave technology. It consists of a set of components, accessories and instruments and can be used as a laboratory test bench to experiment with the microwaves components as well as to study the aspects of wave propagation.\n\nThe didactic approach of this trainer is to investigate behavior and to prove the physical concepts related to microwave engineering. The microwave technique, as a subdomain of electronics, presents particularities both in theoretical methods and in the experimental apparatuses and procedures used.\n\nFor this reason, in a microwave laboratory, besides general-purpose electronic devices, there are also specific devices needed to measure signals and microwave networks. The components of this trainer are easy to install, using screws, nuts and supporting waveguides.\n\nOur 3 cm. waveguide trainer provides users with in-depth training on frequency transmission characteristics and gives students the possibility to perform all the main exercises in this field. The trainer is provided complete with a detailed educational manual.\n\nOperating frequency: 8.2 \u00f7 12 GHz.",
        "Specs": "-  The trainer has been designed to start with a few related concepts providing in-depth coverage of the basic topics related to the propagation of the microwaves through rectangular metal guides.\n-  As an open system, multiple components can be chosen to form a customized transmission system freely.\n-  The trainer includes a detailed didactic manual.\n\nCOMPONENTS INCLUDED\n\nThe microwave trainer consists of a set of components, accessories and instruments. It can be used as a laboratory test bench to experiment with the components of the microwave as well as to study the aspects of wave propagation.\n\nThe trainer includes the following:\n\n-  1 Power meter\n-  1 SWR METER\n-  1 Function Generator\n-  1 Frequency Meter\n-  1 Variable Attenuator\n-  1 Slotted line\n-  1 Hybrid Tee\n-  2 Crystal Detector\n-  1 Waveguide\n-  2 Matched Termination\n-  1 Slide Screw Tuner\n-  2 Horn Antenna\n-  2 Coaxial Adapter\n-  1 Fixed Attenuator 6dB\n-  1 Directional Coupler\n-  4 Waveguide Stands 1 support\n-  2 Waveguide Stands 2 support\n-  1 Shorting plate\n-  1 Reflecting plate\n-  1 set Screws and nuts\n-  1 set Tools\n\nDIDACTIC EXPERIENCE\n\n-  Propagation modes, wavelength and phase velocity in a waveguide.\n-  Q and bandwidth of a resonance cavity.\n-  Power measurement.\n-  Standing wave ratio (SWR) measurement.\n-  Impedance measurement.\n-  Basic properties of a directional coupler.\n-  Attenuation measurement.\n-  Study of a waveguide Hybrid-T.\n\nEXPERIMENTS DESCRIPTION\n\n1. Measurement of the attenuation in a microwave system The measurement of the microwave attenuation is a rather complex subject. However, the first experiment will help you become familiar with the trainer. With this experiment, you will also learn to calibrate and to read the measuring instruments correctly. The step-by-step procedure will show how to measure the microwave power signal and how it is affected by different types of attenuators.\n\n2. Crystal detector You will learn about the basics of the crystal detector, including the crystal detector circuit, the characteristics of the crystal detector, and the characteristics of the square law of a crystal detector. The square law characteristic means that the output voltage is proportional to the square of the input voltage in the first experiment the microwave source and the power meter are used, in this experiment, the SWR meter is used. You will see how easy it is to set up the microwave source to generate a modulated signal that will be applied to the crystal detector. The crystal detector output signal will be measured with the SWR meter.\n\n3. Propagation modes, wavelength and phase velocity in the waveguide You will gain knowledge about the propagation modes, the cut-off frequency of the waveguide, the guide wavelength, the phase velocity, the group velocity, and the propagation constant. The students can very easily calculate the wavelength of the TE10 as the dominant mode of a rectangular waveguide. In addition, the wavelength can be measured experimentally using the slotted line included in the trainer.\n\n4. Determining the Quality Factor and Bandwidth of a Resonance Cavity To be able to study the frequency meter, first, you need to understand that it has the same behaviour as a microwave resonance cavity. The cavity is a metal box with a cylindrical shape attached to a waveguide and has a simplified scale ruler to measure the frequency. Following an easy procedure, the students will measure the power drop in the cavity and identify the corresponding frequency. It is then very easy to calculate the quality factor and bandwidth of a resonance cavity.\n\n5.Power measurement and transmission losses in microwaves systems The major issue in microwaves systems is the losses that occur during the transmission. This experiment will show how impedance mismatch will influence the reflection of the signal. The impedance mismatch will be created using the slide screw tuner included in the trainer. The major objective of this experiment is the calculation of the return loss and mismatch loss.\n\n6. Measuring the standing wave ratio and reflection coefficient in microwave systems Because it is easier to detect the voltage standing waves, the term VSWR is more often used then SWR, especially within radio frequency (RF) systems. But what does it SWR mean? Following this experiment, you will understand what SWR is and how it can be measured or calculated. To determine how much of the signal propagating on a waveguide is reflected to the source, you will learn how to calculate the reflection coefficient (\u0393).\n\n7. Determining the waveguide impedance using the Smith chart In this experiment, you will use your accumulated knowledge regarding the standing waves (from the previous experiments) to determine the impedance of a waveguide mismatched terminating line. We can call this experiment \u201cunderstanding Smith chart by experimenting\u201d where you to read the standing waves using the slotted waveguide line, and to determine the impedance of the unknown load using the slide screw tuner.\n\n8. Study the characteristics of directional coupler How to determine the characteristics used to define the performance of a directional coupler? You will be able to respond to this question after performing this experiment where you calculate the coupling coefficient, the insertion loss, and the directivity of a directional coupler.\n\n9. The study of the isolation and coupling coefficient in a Hybrid Tee Working with this module gives the basic know-how regarding you will learn about the insulation and coupling coefficient of a Hybrid T. First, the student will measure the input power as a reference power of the Hybrid Tee. By measuring the E-arm power and H-arm power, you will be able to calculate the isolation factor (I) and coupling factor (C).\n\n10.Microwave communication using a horn antenna system Students will perform a practical study of horn antenna for the transmission and reception of a microwave signal in free space. The microwave signal used in the previous experiments has now been adapted and sent to in free space by using a specific antenna \u2013 the horn antenna. The radiation pattern of a horn antenna will be plotted based on the propagation microwaves in the free space.\n\nOPTIONAL VERSION WITH SOFTWARE\n\nDL MICROWAVE-2.0SW\n\nThis trainer can also be supplied in another version DL MICROWAVE-2.0SW including a software and a device that replaces some modules of the previous version and especially instruments such as function generator, power meter, and SWR meter.\n\nIn this case, this version will include the following elements:\n\n-  1 Microwave comprehensive tester\n-  1 Frequency Meter\n-  1 Variable Attenuator\n-  1 Slotted line\n-  1 Hybrid Tee\n-  2 Crystal Detector\n-  1 Waveguide\n-  2 Matched Termination\n-  1 Slide Screw Tuner\n-  2 Horn Antenna\n-  2 Coaxial Adapter\n-  1 Fixed Attenuator 6dB\n-  1 Directional Coupler\n-  4 Waveguide Stands 1 support\n-  2 Waveguide Stands 2 support\n-  1 Shorting plate\n-  1 Reflecting plate\n-  1 set Screws and nuts\n-  1 set Tools\n\nThe main unit adopts a 15 inch LCD display and a Windows operating system. It supports keyboard and mouse operations and can be connected to the internet for remote file transfer and browsing of related resource libraries and can also copy files to install commonly used software.\n\nIt has 2 USB interfaces, 1 LAN interface, and 1 HDMI interface to support connection with the projection device, making it convenient for demonstration and teaching.\n\nThe system includes microwave signal source, power meter, frequency selective amplifier, human-machine interaction system (microwave signal source, power meter). The software operation interface can touch and adjust the source parameters and collect power meter data.",
        "Url": "edquip.co\/en\/de-lorenzo\/microwaves-trainer",
        "Page title": "Microwaves Trainer: De Lorenzo - EDQUIP",
        "Page description": "Microwaves Trainer for hands-on training. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Introductory Technical Education"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "109 x 45 x 48",
        "Packed dimensions unit": "cm",
        "Packed weight": "31",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/MICROWAVES TRAINER\/MICROWAVES TRAINER_DL MICROWAVE-2.0_De Lorenzo_DL-2594N.jpg",
        "Video link": "",
        "Main category": "Vocational Training Equipment"
    },
    {
        "Edquip ID": "PL-148933",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SMART-DALI",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Smart Lighting Trainer",
        "Description": "Smart building technology is revolutionizing the way we design, manage, and experience buildings. By integrating advanced systems, smart buildings offer enhanced efficiency, sustainability, and safety. The cutting-edge technologies enable seamless control of lighting, HVAC systems, fire safety, and security, while promoting energy optimization and user comfort.\n\nThe \u201csmart building\u201d concept refers to a structure that uses advanced technologies such as sensors, actuators, and automation systems to monitor and control building operations and the goal is to improve energy efficiency, comfort, safety, and overall building performance.\n\nThis specific lighting system is a cutting-edge training center dedicated to advancing lighting technology studies. It uses DALI (Digital Addressable Lighting Interface) technology as the protocol for digital lighting control. It is specialized in DALI fundamentals, installation and troubleshooting, control and automation, system monitoring and integration, and AI-driven lighting solutions. Its mission is to cultivate skilled engineers and technicians for the smart building industry's lighting sector.\n\nDALI is a standardized lighting control system that enables flexible, precise management and communication between lighting devices in smart building environments.\n\nIt allows for flexible, digital control of lighting systems, making it ideal for modern smart buildings such as:\n\n-  Office buildings with dynamic lighting needs,\n-  Smart homes with automated lighting scenes,\n-  Hospitals and schools for energy-efficient lighting control,\n-  Street lighting systems.\n\nRegarding \u201chow it works\u201d, a DALI controller sends digital signals over the DALI bus, each DALI device listens for commands addressed to it, and the devices can respond with status information or execute commands like dimming, switching, or scene recall.",
        "Specs": "This trainer DL SMART-DALI is designed to equip users with comprehensive knowledge and hands-on skills in DALI lighting field. It is aimed at a wide audience, including non-experts, highly intuitive and simple to use through a user-friendly interface.\n\nIt is flexible enough to meet every need, from the simplest to the most complex, helping the user by simplifying and speeding up many of the most common everyday tasks.\n\nIt requires no special care and even in case of failure, it is able to provide the service for which it was designed, or a similar one in the case of reduced operation.\n\nIt can be fully configured quickly and intuitively using a software and the system can be accessible from any device connected to the same LAN.\n\nBy the end of the training, the users will be able to:\n\n-  Understand the Fundamentals of DALI Lighting.\n-  Master DALI System Installation and Troubleshooting.\n-  Develop Skills in DALI Control and Automation.\n-  Gain Proficiency in DALI System Monitoring and Integration.\n-  Apply AI in Lighting Control.\n\nLABORATORY\u2019S COMPOSITION\n\nThis trainer is composed of a main panel on which all DALI devices (sensors and control gear) are placed. Through this panel, the user will perform the DALI configuration, interfacing input devices with DALI devices, integrating luminaires into DALI control gear, and accessing the DALI system using the software.\n\nOn this front panel and where the manual settings are made during the installation phase, the users gain hands-on experience with real industrial equipment thanks to direct interaction with DALI devices.\n\nIn addition to the operation panel, the system offers a visualization space to better observe the automation performance. There is a showroom where the main parts of DALI sensors and luminaires are installed to simulate various environments, such as parking lots, outdoor areas, offices, meeting rooms, corridors among others.\n\nUnlike conventional installations where all devices are placed on the same 2D panel, sensors and luminaires in the showroom are positioned in a more realistic setting. This enhances the natural occurrence of automation and makes its visualization more intuitive.\n\nThe input devices include DALI control panels such as an 8-key push-button panel and a DT8 touch panel to enhance the manual control experience. The sensors consist of motion sensors and illuminance sensors. The luminaires include single-color LEDs, CCT LEDs, and RGBW LEDs.\n\nSCADA IN DALI LIGHTING\n\nSCADA (Supervisory Control And Data Acquisition) is an industrial control system that monitors, gathers, and processes real-time data to manage and control equipment and processes across various industries.\n\nIn smart buildings, the BMS (Building Management System) manages and supervises all functional modules. When we focus on one functional module, such as the DALI Lighting system, we move to a lower level of management and supervision, dealing with critical statuses and decision-making controls of the DALI system.\n\nIn the process of using SCADA, smart building operations management specialists will gain an understanding of the key elements they need to monitor within the smart building and its various functional departments, enabling them to respond promptly in emergency situations.\n\nTHEORETICAL & EXPERIMENTAL TOPICS\n\nThe lab covers the following topics:\n\n-  DALI Fundamentals:\n\n-  Introduction, Components, and Wiring.\n-  Communication and Configuration.\n\n-  Installation and Troubleshooting:\n\n-  System Installation & Pre-Commissioning Checks.\n-  Device Addressing and Basic Commissioning.\n-  Common DALI Faults.\n\n-  Control and Automation:\n\n-  Manual Device & Group Control, Scene Configuration.\n-  Color Temperature & Dynamic Color Control.\n-  Automated Control, Scheduling & Event-Triggered Automation.\n-  Smart Lighting & Circadian Lighting Design.\n\n-  DALI System Monitoring and Integration:\n\n-  DALI Monitoring in SCADA & Smart Buildings.\n\n-  AI-driven Lighting Solutions:\n\n-  AI-Based Analysis of User lighting Patterns for Predictive Control.",
        "Url": "edquip.co\/en\/de-lorenzo\/smart-lighting-trainer",
        "Page title": "Smart Lighting Trainer",
        "Page description": "Smart Lighting Trainer for hands-on training. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/SMART LIGHTING TRAINER\/SMART LIGHTING TRAINER_DL SMART-DALI_De Lorenzo_DL-SMART-DALI.jpg",
        "Video link": "",
        "Main category": "Vocational Training Equipment"
    },
    {
        "Edquip ID": "PL-676752",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL TMACM-AC",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Module For The Study Of Domestic Air-Conditioning",
        "Description": "This trainer is designed to emphasize the hydraulic, mechanical and thermodynamic aspects of split-type domestic air conditioners.\n\nThe trainer includes the following components:\n\n-  Tabletop aluminium structure,\n-  Wall-mounted split-type evaporating unit including:\n\n-  heat exchange battery,\n-  tangential fan,\n-  motor-driven baffle,\n-  remote control.\n\n-  Temperature and relative humidity sensor,\n-  Internal thermal load,\n-  Colour printed schematic diagram of the hydraulic circuit,\n-  Capillary tube for the refrigerant expansion,\n-  Cocks for an easy connection (with the basic trainer DL TMACM-RS),\n-  Specific supervision software.",
        "Specs": "With this trainer, the students can perform the following practices:\n\n-  Basic concepts and relevant terminology of air-conditioning thermodynamics,\n-  Operating principles of split-type air conditioners,\n-  Cooling and phase change processes,\n-  The air psychrometric chart, transformation of cooling and dehumidification,\n-  How heat flows through the system components,\n-  How the variation of thermal load can affect the operation of evaporator and of condenser,\n-  The gas expansion via capillary tube,\n-  Dehumidification and cooling capacity,\n-  Servicing air-conditioning system,\n-  Calculation of the thermal power extracted from the room,\n-  Calculation of the thermal power of Coefficient Of Performance (COP) heat balances,\n-  Calculation of heat exchange coefficients,\n-  Exercises concerning the fault insertion (with the basic trainer DL TMACM-RS).",
        "Url": "edquip.co\/en\/de-lorenzo\/module-for-the-study-of-domestic-air-conditioning",
        "Page title": "Module For The Study Of Domestic Air-Conditioning: De Lorenzo - EDQUIP",
        "Page description": "Module For The Study Of Domestic Air-Conditioning. Request your quotation today, free and quick price estimations. Suitable for tech colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "74 x 64 x 54",
        "Packed dimensions unit": "cm",
        "Packed weight": "50",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/MODULE FOR THE STUDY OF DOMESTIC AIR-CONDITIONING\/MODULE FOR THE STUDY OF DOMESTIC AIR-CONDITIONING_DL TMACM-AC_De Lorenzo_DL-TMACM-AC-1-scaled.jpg",
        "Video link": "",
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-240187",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL TMACM-CR",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Module For The Study Of Domestic Refrigeration",
        "Description": "This trainer is designed so that students can acquire the data characterizing the refrigeration cycle and relate them with the thermal characteristics of the products to be stored at a temperature of approximately 0 \u00b0C.\n\nThe trainer includes the following components:\n\n-  Tabletop aluminium structure,\n-  Small cold room with door,\n-  Static Roll-bond evaporator,\n-  Temperature and relative humidity sensor,\n-  Internal thermal load,\n-  Colour printed schematic diagram of the hydraulic circuit,\n-  Capillary tube and automatic valve for gas expansion,\n-  Solenoid valves for selecting the expansion device,\n-  Cocks for an easy connection (with the basic trainer DL TMACM-RS),\n-  Specific supervision software.",
        "Specs": "With this trainer, the students can perform the following practices:\n\n-  Basic concepts of thermodynamics and relevant terms,\n-  Refrigerant pressure-enthalpy diagram,\n-  Domestic refrigeration operating principles,\n-  Acknowledgment of the main components of domestic refrigeration:\n\n-  hermetic compressor,\n-  condenser,\n-  evaporator,\n-  filter.\n\n-  The different devices for flow control such as capillary tubes and automatic valves,\n-  System operation with automatic valve or capillary tube,\n-  Assessing the parameters of the refrigeration cycle and plotting them onto P-h diagram,\n-  The differences between actual and ideal cycles seen on P-h diagram,\n-  Assessing the system Energy Efficiency Ratio (EER) and the compressor volumetric efficiency,\n-  Checking the intervention of safety devices,\n-  Heat balances of compressor, evaporator, condenser,\n-  Adjusting the automatic valve versus the characteristics of the product to be stored,\n-  Fault insertion tests included (with the basic trainer DL TMACM-RS).",
        "Url": "edquip.co\/en\/de-lorenzo\/module-for-the-study-of-domestic-refrigeration",
        "Page title": "Module For The Study Of Domestic Refrigeration: De Lorenzo - EDQUIP",
        "Page description": "Module For The Study Of Domestic Refrigeration. Request your quotation today, free and quick price estimations. Suitable for tech colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "74 x 64 x 40",
        "Packed dimensions unit": "cm",
        "Packed weight": "50",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/MODULE FOR THE STUDY OF DOMESTIC REFRIGERATION\/MODULE FOR THE STUDY OF DOMESTIC REFRIGERATION_DL TMACM-CR_De Lorenzo_DL-TMAC-CR-scaled.jpg",
        "Video link": "",
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-903080",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL TMACM-IAC",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Module For The Study Of Industrial Air-Conditioning",
        "Description": "This trainer is designed for the complete and exhaustive study of thermodynamic transformations the air undergoes when crossing a three-section central air-conditioning unit.\n\nThe trainer includes the following components:\n\n-  Tabletop aluminium structure,\n-  Air conditioning unit including:\n\n-  duct with transparent walls,\n-  variable speed axial fan,\n-  cooling and dehumidification battery,\n-  humidifying section,\n-  heating battery,\n-  temperature and relative humidity sensors,\n-  anemometric sensor.\n\n-  Colour printed schematic diagram of the hydraulic circuit,\n-  Thermostatic expansion valve,\n-  Cocks for an easy connection (with the basic trainer DL TMACM-RS),\n-  Specific supervision software.",
        "Specs": "With this trainer, the students can perform the following practices:\n\n-  The air psychrometric chart:\n\n-  determination of absolute humidity,\n-  enthalpy,\n-  specific volume,\n-  dew point.\n\n-  Transformations of the air due to variations of temperature and\/or of relative humidity,\n-  Heating, humidification, cooling and dehumidification processes and heat balances,\n-  Using the air recirculation to save energy,\n-  Air quality and Air handling with mixing and filtration,\n-  Thermohygrometric comfort conditions of room occupants,\n-  System performances far from design conditions,\n-  Determining the airflow in ducts as speed varies,\n-  Fault insertion tests included (with the basic trainer DL TMACM-RS).",
        "Url": "edquip.co\/en\/de-lorenzo\/module-for-the-study-of-industrial-air-conditioning",
        "Page title": "Module For The Study Of Industrial Air-Conditioning: De Lorenzo - EDQUIP",
        "Page description": "Module For The Study Of Industrial Air-Conditioning. Request your quotation today, free and quick price estimations. Suitable for tech colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "74 x 64 x 46",
        "Packed dimensions unit": "cm",
        "Packed weight": "60",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/MODULE FOR THE STUDY OF INDUSTRIAL AIR-CONDITIONING\/MODULE FOR THE STUDY OF INDUSTRIAL AIR-CONDITIONING_DL TMACM-IAC_De Lorenzo_DL-TMACM-IAC-1.jpg",
        "Video link": "",
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-294850",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL TMACM-ICR",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Module For The Study Of Industrial Refrigeration",
        "Description": "This trainer is designed to show the different modes of variation of temperature and relative humidity in cold rooms to protect the goods being stored from the activity of microorganisms growing at ambient temperature.\n\nIt includes two cold rooms for food preservation:\n\n-  a low-temperature room (for frozen food) and,\n-  a positive temperature and high relative humidity room (for fresh food).\n\nThe trainer includes the following components:\n\n-  Tabletop aluminium structure,\n-  Two small cold rooms each with:\n\n-  door,\n-  forced air evaporator,\n-  internal thermal load,\n-  temperature and relative humidity sensor.\n\n-  Colour printed schematic diagram of the hydraulic circuit,\n-  Thermostatic and automatic valves for gas expansion,\n-  Solenoid valves for selecting the cold room to be examined,\n-  Cocks for an easy connection (with the basic trainer DL TMACM-RS),\n-  Specific supervision software.",
        "Specs": "With this trainer, the students can perform the following practices:\n\n-  Basic concepts of industrial refrigeration,\n-  Differences between actual and ideal cycles seen on P-h diagram,\n-  System efficiency, heat flows,\n-  Pressure-enthalpy diagrams of refrigerants for industrial refrigeration,\n-  Defrosting,\n-  Connecting evaporators in series and in parallel,\n-  Design parameter and how thermal loads affect design conditions,\n-  Servicing industrial refrigeration systems,\n-  Tests concerning:\n\n-  heat exchanges,\n-  assessment of the parameters of the refrigeration cycle and their plotting onto P-h diagram,\n-  heat balances of compressor, evaporator, condenser.\n\n-  Assessing the system Energy Efficiency Ratio (EER) and the compressor volumetric efficiency,\n-  Checking the relative humidity inside the cold room for a correct preservation of fresh food,\n-  Adjusting the automatic valve versus the characteristics of the product to be stored,\n-  Analysis of the operation of a thermostatic expansion valve,\n-  Fault insertion tests included (with the basic trainer DL TMACM-RS).",
        "Url": "edquip.co\/en\/de-lorenzo\/module-for-the-study-of-industrial-refrigeration",
        "Page title": "Module For The Study Of Industrial Refrigeration: De Lorenzo - EDQUIP",
        "Page description": "Module For The Study Of Industrial Refrigeration. Request your quotation today, free and quick price estimations. Suitable for tech colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "74 x 64 x 66",
        "Packed dimensions unit": "cm",
        "Packed weight": "50",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/MODULE FOR THE STUDY OF INDUSTRIAL REFRIGERATION\/MODULE FOR THE STUDY OF INDUSTRIAL REFRIGERATION_DL TMACM-ICR_De Lorenzo_DL-TMAC-ICR-scaled.jpg",
        "Video link": "",
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-803291",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL TMACM-RS",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Smart System For The Study Of Refrigeration And Air-Conditioning",
        "Description": "This smart system for the study of refrigeration and air conditioning integrates the most advanced components to control and optimize the systems in an efficient and sustainable way. It uses sensors, transducers, measurement devices and management and supervision software to monitor and collect real-time data on critical parameters such as pressure, humidity, flow and temperature.\n\nIt offers numerous advantages, including:\n\n-  Energy efficiency with the ability to continuously monitor and adjust operating parameters thus reducing energy consumption,\n-  Integration with other devices for centralized and optimized management,\n-  Improved air quality by including sensors that activate filtering and purification functions when necessary.\n\nThe system includes connectors and taps for the necessary electrical and hydraulic connections (via flexible pipes) with the experimental module under examination. In this way, it is possible to prepare different configurations that represent various aspects of refrigeration and air conditioning techniques.\n\nIt includes a display for viewing data, and it is controlled via PC with the help of a specific software, different for each operation module, and some non-destructive failures can be inserted into the system.",
        "Specs": "The trainer is composed of a tabletop unit mounted on an aluminium structure including the following components:\n\n-  Hermetic compressor,\n-  High and low pressure gauges,\n-  Sight glass, dehydrator filter, liquid separator,\n-  Variable speed fan air condenser,\n-  Voltage, current and power transducers,\n-  2 temperature sensors to be applied onto different points of the hydraulic circuit,\n-  High and low pressure transducers,\n-  Electronic flowmeter,\n-  Double pressure switch,\n-  Solenoid valves for inserting faults,\n-  Operating valve for filling and bleeding the refrigerant,\n-  Cocks and flexible pipes with valve for the connection with the experimental module.\n\nThe Switchboard includes:\n\n-  Start button with pilot lamp,\n-  Emergency button,\n-  Thermomagnetic - earth leakage control button,\n-  Power cord.\n\nAnd the data acquisition and control system have the following characteristics:\n\n-  Remote Control (via PC, not included in the equipment),\n-  Display for viewing the acquired data such as: temperature, pressure, relative humidity, volume flow rate, air speed, voltage, current, electric power,\n-  USB interface for connection with PC,\n-  Fault insertion according to the experimental module in use.\n\nPower supply: Single-phase 230Vac\/50Hz\/350VA.\n\nIT IS REQUIRED AT LEAST ONE OF THE FOLLOWING MODULES:\n\n-  DL TMACM-CR \u2013 MODULE FOR THE STUDY OF DOMESTIC REFRIGERATION\n-  DL TMACM-AC \u2013 MODULE FOR THE STUDY OF DOMESTIC AIR-CONDITIONING\n-  DL TMACM-ICR \u2013 MODULE FOR THE STUDY OF INDUSTRIAL REFRIGERATION\n-  DL TMACM-IAC \u2013 MODULE FOR THE STUDY OF INDUSTRIAL AIR-CONDITIONING\n\nSOFTWARE'S VIEW\n\nThe supervision software allows to control analogue and digital inputs and outputs, the state of solenoid valves, of compressor, of fan, of heating, cooling, humidification and dehumidification, among others. It is different for each experimental module and designed to study and verify the laws of thermodynamics and their actual applications to refrigeration and to air conditioning. Each program enables to acquire and process the values of input variables and to control the output variables manually or automatically (for the modules that offers this option) according to the logics of industrial processes. They also allow to send the control signals to the actuators for the management of the selected Experimental Module. The teacher, through this software, can also insert some non-destructive faults into the system, or modify some operating parameters and consequently the analysis results.\n\nSome features:\n\n-  Automatic calculation of the heat balances at the compressor, at the evaporator and at the condenser,\n-  Displaying of the volumetric efficiency of the compressor, the Coefficient Of Performance (COP) or the Energy Efficiency Ratio (EER),\n-  Determination of parameters of the air such as temperature, relative and specific humidity, and enthalpy.",
        "Url": "edquip.co\/en\/de-lorenzo\/smart-system-for-the-study-of-refrigeration-and-air-conditioning",
        "Page title": "Smart System For The Study Of Refrigeration And Air-Conditioning: De Lorenzo - EDQUIP",
        "Page description": "Smart System For The Study Of Refrigeration And Air-Conditioning. Request your quotations today, quick price estimations. Suitable for colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "89 x 85 x 52",
        "Packed dimensions unit": "cm",
        "Packed weight": "90",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/SMART SYSTEM FOR THE STUDY OF REFRIGERATION AND AIR-CONDITIONING\/SMART SYSTEM FOR THE STUDY OF REFRIGERATION AND AIR-CONDITIONING_DL TMACM-RS_De Lorenzo_DL-TMACM-RS-1-scaled.jpg",
        "Video link": "",
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-689990",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL FPGA",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Field Programmable Gate Array Trainer",
        "Description": "FPGA (Field Programmable Gate Array) is a type of Integrated Circuit that can be programmed after manufacturing to perform specific logic functions. Unlike fixed-function chips, FPGAs offer incredible flexibility and are widely used in industries like aerospace, telecommunications, automotive, and AI.\n\nWhat makes FPGA special are:\n\n-  Reprogrammable Hardware: the logic gates can be reconfigured to suit different tasks.\n-  Parallel Processing: unlike CPUs that execute instructions sequentially, FPGAs can perform many operations simultaneously.\n-  Applications: ideal for real-time applications like Signal processing (e.g., audio, video), Cryptography and secure communications, Robotics and automation, AI acceleration and neural networks, and Prototyping custom chips before mass production.\n-  Customizable Architecture: engineers can tailor the chip\u2019s behaviour using hardware description languages like Verilog or VHDL.\n\nThe proposed DL FPGA training kit is one kind of multi-function teaching and development equipment with high configuration and high quality.\n\nIt is suitable for EDA (Electronic Design Automation) teaching, course design and graduation design of different college, and also suitable for project development.\n\nThe trainer adopts unique double board structure \u201cmain board + core board\u201d and all of the I\/O pins can be set, so DL FPGA can meet the requirements from simple digital circuit experiment to the complicated one. Adopting the EDA technology, the circuit revise become simple, shorten the development cycle, reduce the chip quantity and system volume, design become more flexible, and enhance the system reliability. The experiment method is updated from traditional hardware overlap joint mode to the software design, simulation debugging circuit system.\n\nThe trainer consists of a main module with power supply, with the possibility of choosing one of the two proposed systems:\n\n-  DL FPGA-ALTERA [with Altera (Intel) FPGA].\n-  DL FPGA-XILINX [with Xilinx (AMD) FPGA].\n\nALTERA and XILINX are two of the leading names in the FPGA world. Both offer powerful platforms, but they differ in architecture, tools, and performance focus.",
        "Specs": "DL FPGA-ALTERA\n\n-  Main board with:\n\n-  1 x Potentiometer with 0 \u00f7 3.3V voltage signal.\n-  8 x LEDs.\n-  4 x 7-segment LEDs.\n-  1 x Buzzer.\n-  8 x Bit switches.\n-  1 x 4x4 keyboard.\n-  1 x IIC series EEPROM (24C04).\n-  1 x 16bit VGA interface.\n-  1 x 1602 liquid crystal interface, together with 1602 screen.\n-  1 x 240x320 TFT colourful liquid crystal interface, together with 240x320 TFT screen.\n-  1 x On board USB-RS232 communication interface.\n-  1 x PS\/2 keyboard interface.\n-  1 x SD card interface, together with SD card (4GB).\n-  1 x DS1302 clock interface.\n-  1 x Temperature sensor interface, together with temperature sensor (DS18B20).\n-  1 x Infrared receiving interface, together with Infrared remote control.\n-  1 x AD interface.\n-  1 x DA interface.\n-  1 x USB device interface.\n-  1 x Ethernet interface.\n-  1 x Audio CODEC interface.\n-  8 x Fault simulation.\n\nALTERA Core Board\n\n-  Cyclone IV FPGA, chip EP4CE10.\n-  Extend 32Mbit series Flash (M25P32), with enough internal storage for user to do uCOS-II system.\n-  Extend 256Mbit SDRAM chip (MT48LC16), with enough internal storage for user to do SOPC (System-On-a-Programmable-Chip) or NIOS II system.\n-  JTAG configuration mode (combining downloads and debugging).\n-  More than 32 extend user I\/Os.\n\nSoftware & Operating System\n\n-  Quartus II\/SOPC builder\/NIOS II\/Signal tap II.\n-  Windows 10 64bit and Windows 11 64bit, Professional.\n\nTRANING OBJECTIVES\n\nWith this board it is possible to perform experiments on the following subjects:\n\n-  Logic design:\n\n-  Half adder\/full adder\/ 8-bit adder\/common adder with carry\/vector adder\/subtracter\/data comparator\/eight-way selector\/encoder, decoder.\n-  Counter: up counter, down counter, parallel counter.\n-  Two state machines: MOORE machine, MEALY machine.\n-  Three shift registers: serial-in\/parallel-out and parallel-in\/serial-out, serial-in\/serial out, parallel-in\/ parallel-out.\n-  Pulse generator.\n-  Memory design experiments: ROM.\n\n-  Standalone design:\n\n-  LED control experiment.\n-  Buzzer control experiment.\n-  7-segment LED static display experiment.\n-  7-segment LED dynamic scanning experiment.\n-  Key distinguish experiment.\n-  EEPEOM experiment.\n-  1602 liquid display experiments.\n-  320*240 TFT liquid display experiments.\n-  VGA display experiment.\n-  RS232 communication experiment.\n-  PS2 keyboard experiment.\n-  DS1302 experiment.\n-  Temperature sensor experiment.\n-  Infrared experiment.\n-  AD experiment.\n-  DA experiment.\n-  IP core: FIFO IP core experiment.\n\n-  DSP design:\n\n-  Vector multiplier.\n-  FFT.\n\n-  Embedded design (SOPC):\n\n-  Audio experiment.\n-  Digital Clock experiment (RTC + Keyboard + TFT LCD)\n-  SD card experiment.\n-  USB communication experiment.\n-  Net communication experiment.\n\n-  System design:\n\n-  uCOS II operating system experiment.\n\n-  Prototyping design:\n\n-  USB-RS232 Converter ASIC design.\n\nACCESSORIES\n\nThe trainer is supplied with the following elements:\n\n-  DC5V\/2A power adapter,\n-  SD Card,\n-  USB Type A-B cable,\n-  USB-RS232 Converter,\n-  Debugger and downloader,\n-  Cables.\n\nComplete with technical documentation, practical manual and software\n\nDL FPGA-XILINX\n\nTECHNICAL FEATURES\n\n-  Main board with:\n\n-  1 x Potentiometer with 0 \u00f7 3.3V voltage signal.\n-  8 x LEDs.\n-  4 x 7-segment LEDs.\n-  1 x Buzzer.\n-  8 x Bit switches.\n-  1 x 4x4 keyboard.\n-  1 x IIC series EEPROM (24C04).\n-  1 x 16bit VGA interface.\n-  1 x 1602 liquid crystal interface, together with 1602 screen.\n-  1 x 240x320 TFT colourful liquid crystal interface, together with 240x320 TFT screen.\n-  1 x On board USB-RS232 communication interface.\n-  1 x PS\/2 keyboard interface.\n-  1 x SD card interface, together with SD card (4GB).\n-  1 x DS1302 clock interface.\n-  1 x Temperature sensor interface, together with temperature sensor (DS18B20).\n-  1 x Infrared receiving interface, together with Infrared remote control.\n-  1 x AD interface.\n-  1 x DA interface.\n-  1 x USB device interface.\n-  1 x Ethernet interface.\n-  1 x Audio CODEC interface.\n-  8 x Fault simulation.\n\nXILINX Core Board\n\n-  Sparten VI FPGA, chip XC6SLX9.\n-  Extend 32Mbit series Flash (M25P32), with enough internal storage for user to do uCOS-II system.\n-  Extend 256Mbit SDRAM chip (MT48LC16), with enough internal storage for user to do SOPC (System-On-a-Programmable-Chip) or NIOS II system.\n-  JTAG configuration mode (combining downloads and debugging).\n-  More than 32 extend user I\/Os.\n\nSoftware & Operating System\n\n-  ISE\/EDK\/SDK\/ChipScope.\n-  Windows 10 64bit and Windows 11 64bit, Professional.\n\nTRANING OBJECTIVES\n\nWith this board it is possible to perform experiments on the following subjects:\n\n-  Logic design:\n\n-  Half adder\/full adder\/ 8-bit adder\/common adder with carry\/vector adder\/subtracter\/data comparator\/eight-way selector\/encoder, decoder.\n-  Counter: up counter, down counter, parallel counter.\n-  Two state machines: MOORE machine, MEALY machine.\n-  Three shift registers: serial-in\/parallel-out and parallel-in\/serial-out, serial-in\/serial out, parallel-in\/ parallel-out.\n-  Pulse generator.\n-  Memory design experiments: ROM.\n\n-  Standalone design:\n\n-  LED control experiment.\n-  Buzzer control experiment.\n-  7-segment LED static display experiment.\n-  7-segment LED dynamic scanning experiment.\n-  Key distinguish experiment.\n-  EEPEOM experiment.\n-  1602 liquid display experiments.\n-  320*240 TFT liquid display experiments.\n-  VGA display experiment.\n-  RS232 communication experiment.\n-  PS2 keyboard experiment.\n-  DS1302 experiment.\n-  Temperature sensor experiment.\n-  Infrared experiment.\n-  AD experiment.\n-  DA experiment.\n-  IP core: FIFO IP core experiment.\n\n-  DSP design:\n\n-  Vector multiplier.\n-  FFT.\n\n-  Embedded design (SOPC):\n\n-  Audio experiment.\n-  Digital Clock experiment (RTC + Keyboard + TFT LCD)\n-  SD card experiment.\n-  USB communication experiment.\n-  Net communication experiment.\n\n-  System design:\n\n-  uCOS II operating system experiment.\n\n-  Prototyping design:\n\n-  USB-RS232 Converter ASIC design.\n\nACCESSORIES\n\nThe trainer is supplied with the following elements:\n\n-  DC5V\/2A power adapter,\n-  SD Card,\n-  USB Type A-B cable,\n-  USB-RS232 Converter,\n-  Debugger and downloader,\n-  Cables.\n\nComplete with technical documentation, practical manual and software.",
        "Url": "edquip.co\/en\/de-lorenzo\/field-programmable-gate-array-trainer",
        "Page title": "Field Programmable Gate Array Trainer: De Lorenzo - EDQUIP",
        "Page description": "Field Programmable Gate Array Trainer, for hands on training. Request your quotation today! Free price estimations, suitable for colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "37 x 31 x 10",
        "Packed dimensions unit": "cm",
        "Packed weight": "1,6",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/FIELD PROGRAMMABLE GATE ARRAY TRAINER\/FIELD PROGRAMMABLE GATE ARRAY TRAINER_DL FPGA_De Lorenzo_DL-FPGA-e1758290895877.jpg",
        "Video link": "",
        "Main category": "Technical Training Equipment"
    },
    {
        "Edquip ID": "PL-309625",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL AM23",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Electric Vehicle System",
        "Description": "The DL AM23 Simulator allows the theoretical and practical study of the main systems and components found in Electric Vehicles (EV). It consists of a panel that shows the complete diagram of all the components, with switches, buttons, commutators and potentiometers to reproduce the different operating situations that can be set by the students according to the courseware. There are also displays, LED bars, LEDs, measurement terminals to show the operating status of the system and detect the available electrical quantities. The various sections of the diagram are represented with different colours to highlight both the different components of the electric vehicle and the high and low voltage areas that concern the specific safety issues of this type of vehicle. There is an OBD-II socket to which a Scantool can be connected to perform testing operations in the same way as in real vehicles. The system is completed by a Fault Insertion Unit with switch, with protection key for access by the Teacher only. The connection of the Simulator to the PC for supervision, graphic display of the parameters of interest such as speed, temperatures, etc., is obtained via a special USB interface. The Simulator is accompanied by the Windows application DLworkspace which provides an integrated teaching environment for using the Simulator itself.\n\nThis previous application brings together, in a single graphical user interface, all the tools required to use the Simulator:\n\n-  the Training Software (i.e. the teaching material) with the theoretical guide to the study topics, the guide to the exercises, the questionnaires and the guide to troubleshooting;\n-  the tools for the display of the quantities acquired by the Simulator with high graphic performance;\n-  some service tools such as Dashboard and Scantool.",
        "Specs": "It has the following technical characteristics:\n\n-  7-segment display to show the vehicle's forward speed and battery charge level,\n-  Pushbutton ignition key,\n-  Potentiometers and buttons to select the operational conditions,\n-  LED bars for:\n\n-  battery temperature,\n-  charging and delivered currents,\n-  motor rotation speed.\n-  LED displaying the status of the devices,\n-  Test jacks\/Terminals for measuring and testing,\n-  Battery voltage test points (*),\n-  Battery charge test points Vac\/Vdc (*),\n-  Motor control test points \u2013 PMSM (Permanent Magnet Synchronous Motor) (*),\n-  Fault entry system with switches and key cover,\n-  OBD-II Connector,\n-  USB interface with dynamic display of the parameters on the PC screen,\n-  Power supply: 220 Vac \u00b1 10%, 50 Hz. (*): All test points report 'real' DC or AC voltage signals, appropriately scaled in value.\n-\n\nThe educational program includes the following topics:\n\n-  Architecture of an electric vehicle.\n-  Technical issues and solutions.\n-  The battery:\n\n-  Battery types,\n-  Charging batteries,\n-  Battery Management System - BMS,\n-  Battery Thermal Management System - BTMS.\n-  The electric motor:\n\n- Permanent Magnet Synchronous Motor \u2013 PMSM or SMPM,\n-  Driving with Inverter,\n-  Data network,\n-  The motor control unit - ECU.\n-  Vehicle Operation:\n\n-  Motor starting,\n-  Low and high speed operation,\n-  Acceleration, deceleration, braking and reverse,\n-  Regenerative braking,\n-  CAN Network and OBD Diagnosis,\n-  Electrical safety.\nThe system is provided with technical manuals for theory and exercises. The following sections provide more information about the Simulator structure, DLworkspace, Faults insertion, OBD connector and Scantool. Electric Vehicles and the DL AM23 Simulator The Simulator was born from an accurate analysis of the electric vehicles on the market. From this DE LORENZO has developed the: tEV (training Electrical Vehicle). This is a training-oriented vehicle that implements all the technologies that have now become standard for manufacturers: lithium battery, three-phase PMSM synchronous motor, etc. The typical parameters of the tEV, in terms of autonomy, maximum speed, power, etc., were chosen from the average parameters of currently available vehicles. The DL AM23 Simulator refers to the characteristics of the tEV for its parameters and operation. The simulator features numerous test points that report the voltage signals, both direct and alternating, that characterise the battery charging systems and the PMSM engine control system. The EV's high voltage signals are obviously reduced in amplitude for safety reasons. With simple tools such as Multimeter and Oscilloscope it is possible to measure these signals in order to better understand how the devices work. The presence of an OBD connector then allows you to use a Scantool for diagnostic operations as on a real vehicle. DLworkspace The Windows application DLworkspace provides an integrated environment where all the tools for using the Simulator are located and it looks like the figure below:\n\nYou may notice:\n\n-  the list of topics and lessons on the left,\n-  the lesson pages in the centre,\n-  the supervision tools, videos, and management of answers to questions on the right.\nThe same environment also houses the Simulator's tools for supervision and graphic processing: The status of all mechanical and electrical devices, available on the synoptic panel (Display, LED, bars, etc.), are acquired by DLworkspace via the USB connection. The Simulation Window allows real-time control providing additional information useful during the simulation to monitor additional variables not displayed on the synoptic. All simulation variables can be graphically processed, in real time, using appropriate analog and digital tools. The Analog Chart allows you to view the real-time trend of analog parameters during the simulation. It is possible to select multiple parameters at the same time. The Digital Chart allows you to view the real-time trend of ON-OFF quantities during the simulation. All parameters relating to the graphs, i.e. variables, time base, vertical scale, etc., can be selected at will via the 'setting boxes' of the tools: \u2003 Images and Videos Video clips are an increasingly important resource in today's multimedia teaching. The DL AM23 Simulator Training Software uses the DLworkspace video clip support. This importance derives above all from the fact that at the moment the main channels of communication among young people are represented by social media, where videos are widely used, and their production is very simple. Videos are therefore, without a doubt, an important tool to use as they also allow you to express messages characterized by a more effective and immediate communicative value. Faults Insertion The Simulator supports the insertion of faults, during operation, to allow troubleshooting operations. Faults can be entered by the Teacher, or by the Students, in different ways.\n\nFaults Entry by the Teacher\n\n-  Via the 16 switches of the Fault Insertion Unit, with access key.\n-  Via the DLworkspace Fault Entry window, protected by a password.\n\nFaults Entry by the Student\n\n-  The Student inserts faults, guided by the Training Software lessons, via the Faults View window of the DLworkspace.\n-  For each fault, there are questions related to it to verify the correctness of the search.\n\nOBD connector and Scantool\n\nThe DL AM23 Simulator is equipped with an OBD connector on the left side that allows connection to a Scantool for diagnostic operations on the vehicle. The control units inside the Simulator are equipped with a CAN-BUS interface and OBD-II protocol. They provide the same diagnostic information as real control units to an external Scantool. A real Scantool is supplied which can be used for diagnosis on any car, compliant with standards ISO 15031 e SAE J1979. In case of USB connection to the computer, DLworkspace provides an additional Scantool software and the car Dashboard.",
        "Url": "edquip.co\/en\/de-lorenzo\/electric-vehicle-system",
        "Page title": "Electric Vehicle System: De Lorenzo - EDQUIP",
        "Page description": "Electric Vehicle System. Request your quotation today! Free and quick price estimations, hands-on learning, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "104 x 35 x 66",
        "Packed dimensions unit": "cm",
        "Packed weight": "13",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/ELECTRIC VEHICLE SYSTEM\/ELECTRIC VEHICLE SYSTEM_DL AM23_De Lorenzo_DL-AM23-1-scaled.jpg",
        "Video link": "",
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-526493",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HYDROGEN-GREEN",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Hydrogen Fuel Cells Trainer",
        "Description": "Hydrogen is increasingly emerging as the ideal partner for renewable energy sources such as solar and wind. It is the first element in the periodic table and is also the lightest and most abundant in the observable universe and constitutes approximately 75%. Hydrogen is not an energy source, but an energy carrier, on which great trust is placed globally to meet climate challenges, since it can store and supply large quantities of energy without generating CO\u2082 emissions during its use.\n\nAs an energy carrier, the excess electrical energy produced at peak times by renewable sources such as wind and photovoltaic can be used to produce hydrogen through the electrolysis process and can, therefore, be stored in the form of hydrogen, becoming a reserve of energy to be used in times of shortage or increased demand. The hydrogen thus accumulated can be used as a clean fuel, burned to produce heat, or used in devices called Fuel Cells, to generate electricity in a clean and efficient way.\n\nIn recent years, colours have been used to refer to different sources of hydrogen production. \u201cBlack\u201d, \u201cgrey\u201d, \u201cbrown\u201d, \u201cblue\u201d, and \u201cgreen\u201d. The first three refer to the production of hydrogen from coal, natural gas, and lignite respectively. \u201cBlue\u201d is commonly used for the production of hydrogen from fossil fuels with reduced CO\u2082 emissions. \u201cGreen\u201d is a term applied to the production of hydrogen from renewable electricity.\n\nIn general, there are no established colours for hydrogen from biomass, nuclear, or different varieties of grid electricity. So, green hydrogen is produced through a water electrolysis process in special electrochemical cells powered by electricity produced from renewable energy sources, such as solar, wind or hydroelectric energy. This process is considered sustainable since it does not produce CO\u2082 emissions, making it a clean and sustainable energy source, because only hydrogen produced from renewable sources can really help accelerate the energy transition where electrification is not possible, generating important socioeconomic benefits and environmental.\n\nTherefore, the electrolysis of water powered by energy from renewable sources constitutes the true virtuous path, with zero impact as it does not generate CO\u2082. The DL HYDROGEN-GREEN trainer was designed to show how to produce hydrogen and consequently energy from a renewable source such as solar energy.",
        "Specs": "It is composed of:\n\n-  A solar panel module to power the electrolyser with relevant output terminals,\n-  Two modules with lamps to irradiate the solar panel for internal use and powered by the front panel,\n-  An electrolyser composed of two single PEM Fuel Cells (PEMFC) connected in series with relative power supply for the production of hydrogen,\n-  A hydrogen storage tank to be connected to the output of the previous PEMFC electrolyser,\n-  A PEM fuel cell stack, made up of 10 individual cells connected in series, to combine with the environment producing energy, heat and small amounts of water when fuelled with hydrogen,\n-  A lamp and a motor with a fan as demonstration loads for the electrical energy generated by the fuel cell stack,\n-  A data acquisition card with PC interface complete with software for data processing and fuel cell monitoring for displaying characteristic curves.\n\nAccessories are also included such as a bottle (with distilled water), protective glasses, silicone tubing, funnel, connection cables and detailed operating manual.\n\nThe technical characteristics of some elements are as follows:\n\n-  Electrolyser: 15W@4Vcc (voltage range 3\u00f74Vcc and current range 0\u00f74A) with H2 production 65cm3\/min,\n-  The stack of 10 fuel cells, each with 200mW (total 2W), generated voltage per cell 0,4\u00f70,96Vcc,\n-  Solar panel module: 6V\/3,3A,\n-  Hydrogen storage: 140cm3,\n-  Lamp for experiments: 4,0\u00f74,5W,\n-  Power supply output: 6Vcc\/3,3A.\n\nWith this trainer students can practice achieving the following training objectives:\n\n-  Determination of the characteristic curve of a solar panel,\n-  Study of a fuel cell stack of up to 10 cells,\n-  Determination of the characteristic curves of a fuel cell,\n-  Determination of the characteristic curve of the electrolyser,\n-  Determination of water decomposition tension,\n-  Hydrogen production and storage,\n-  Study of Faraday's law,\n-  Determination of the efficiency of a fuel cell,\n-  Assignment of outputs at different operating points of the fuel cell,\n-  Long-term measurements with PC,\n-  Monitoring the voltages of individual battery cells on the PC,\n-  Automatic measurements controlled by voltage and power,\n-  Data acquisition with wave tracking versus time measurement.\n\nThe acquisition software, supplied together with the trainer, has the following characteristics:\n\n-  In fuel cell mode: Pmax 10W, allowed voltage 0\u00f710Vcc, allowed current 0\u00f75A,\n-  In electrolysis mode: Pmax 10W, allowed voltage 0\u00f74Vcc, allowed current: 0 \u00f7 3A,\n-  Measurement, storage and evaluation of various values and characteristic curves of fuel cell models,\n-  Recording of measured values and automatic or manual execution, with voltage and current adjustments,\n-  Verification of the efficiency of fuel cells,\n-  Real-time display of up to 10 individual voltages of a fuel cell stack,\n-  Recording and display of the characteristic curves and efficiency of the electrolysers,\n-  Recording and displaying voltage\/current, power\/time, power\/current, power\/voltage graphs.\n\nTo operate the card, the following are also supplied:\n\n-  Connections for 2mm terminals,\n-  Monitoring cables and USB cable.\n\nSupplied complete with detailed practical manual.",
        "Url": "edquip.co\/en\/de-lorenzo\/hydrogen-fuel-cells-trainer",
        "Page title": "Hydrogen Fuel Cells Trainer: De Lorenzo - EDQUIP",
        "Page description": "A Hydrogen Fuel Cells Trainer. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Advanced Engineering \/ Professional",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "103 x 50 x 97",
        "Packed dimensions unit": "cm",
        "Packed weight": "34,6",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/HYDROGEN FUEL CELLS TRAINER\/HYDROGEN FUEL CELLS TRAINER_DL HYDROGEN-GREEN_De Lorenzo_DL-HYDROGEN-A-xs.jpg",
        "Video link": "",
        "Main category": "Fuel Cell Training Systems"
    },
    {
        "Edquip ID": "PL-248897",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL PELTOT",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Power Electronics Laboratory",
        "Description": "Power Electronics is the branch of Electronics that studies the devices, circuits, systems and procedures for the processing, control, and conversion of electrical energy. Technological development in solid-state electronics and the semiconductor field has transformed power electronics providing active devices with higher switching speeds, and power handling at lower costs. The power electronic devices commonly found in the industry are Diodes, SCR, TRIAC, MOSFET, and IGBT. Their different attributes dictate how they are used in different applications, according to the type of input and output power: AC to DC, AC to AC, DC to DC, or DC to AC. This technology can be found in a wide range of settings impacting everyday life, from consumer electronics, industrial applications, transportation, telecommunications, power systems, to space technology. Power Electronics can be defined as the application of solid-state electronics for the control and conversion of electrical power. The technological development in solid-state electronics and its integration with microcontroller technology has transformed power electronics from a static conversion technology to an essential element embedded in most of our electrical and electronic systems powering most of our every-day applications. The PEL laboratory has been developed as a comprehensive hands-on training solution to study all the main devices and the power conversion techniques commonly used in the industry. It is divided into 5 main sections: AC to DC conversion (Rectifiers), AC to AC conversion (AC voltage controllers), DC to DC conversion (Choppers), DC to AC conversion (Inverters) and electrical drive applications for DC and AC motors. The digital control signals are generated using state of the art FPGA technology. Thanks to its high performance, a single reprogrammable data acquisition and control module gives great flexibility and reliability to reconfigure the laboratory according to the type of converter under study. It provides all the signalling while simultaneously acquiring the experiment data and waveforms. The laboratory is monitored and controlled through an intuitive user interface that gives access to the main parameters of the system. The software will guide the student through the different proposed experiments with clear schematics, wiring diagrams and instructions providing feedback at each step. The morphing interface will adapt to the type of converter under study showing only the parameters that are available for the type of circuit. The different acquired signals can be visualized using a dedicated multichannel virtual oscilloscope, processed using the on-board math functions or exported and stored for further analysis. KEY CHARACTERISTICS\n\n-  Modularity\n\n- Reconfigurable lab composed of discrete elements.\n- Industrial grade devices.\n\n-  FPGA Based control and data acquisition\n\n-  The full system is controlled by an FPGA based data acquisition and control module.\n-  The NI Linux Real\u2011Time processor combined with isolated I\/Os, gives great flexibility and reliability to implement digitally controlled power converters.\n- A PC user interface generates the control signals for the converter under study, controls its main parameters, and acquires and processes the characteristic waveforms using the powerful embedded mathematical tools.\n\n- Didactic approach\n\n- All-in-one solution that gives the student a full view of power electronics.\n- Gradual course that starts from the study of the power semiconductors and the main convertion strategies, to the study of their application as power supplies and drives.\n- Hands-on, experiment-based, training platform.\n\n- Skills development\n\n- Students interact with real industrial equipment.\n- Study and implementation of the different power conversion techniques used in the industry.\n- Study of main power electronics applications and electrical drives.\n- The main controller SW is programmed using LabVIEW, a language widely used in the industry and academy.\n- Development of analytical and troubleshooting skills through practical hands-on training.\n\n- - Quality and Safety\n\n-  Made and designed in Italy using all the quality and safety standards following the CE directives for power devices:\n-  CEI - EN 61010-1\n-  CEI - EN 61439-1\n-  CEI - EN 60335-1\nDL PEL LABORATORY ARCHITECTURE The laboratory is composed of a set of modules that provide a flexible and reconfigurable learning platform to study power electronics and its applications. Industrial-grade devices were integrated with dedicated drivers, isolation circuits and protections for maximum safety and reliability, providing a safe learning and experimentation environment. The laboratory was designed following CE directives for power devices, CEI - EN 61010-1, CEI - EN 61439-1 and CEI - EN 60335-1. The full system is controlled by a user-reconfigurable FPGA based data acquisition and control module that integrates a processor running in NI Linux Real\u2011Time OS, giving great flexibility to implement digitally controlled power converters. The control and acquisition module connects to the switching devices through a D-sub connector, resulting in less cable clutter, a faster setup and a more reliable connection avoiding wiring mistakes that could damage the equipment. The control and acquisition module and the software interface together form the control centre of the lab. They perform the control of the different converters, acquire physical quantities, show warnings, and protect the system. CONTROL AND ACQUISITION SYSTEM It controls and monitors slave modules such as switching devices and frequency converter through the D-sub connectors. It also provides general purpose IOs to improve the system flexibility: 2 AIs, 2 AOs, 2 DIs and 2 DOs. In addition to the control function, this module acts as a data acquisition device. It integrates 6 pairs of isolated voltage-current measurement inputs so users can observe the real-time waveforms and do quick signal processing of voltages and currents. The results are displayed through the software interface. The voltage-current measurement features wide input ranges, good bandwidth and isolation. Compared to the conventional way using oscilloscope, the proposed solution has distinct advantages:\n\n-  No need for shunt resistors or current probes\n-  No need for differential high voltage probes\n-  No need for isolated power supply required by the oscilloscope\n-  No restriction of common ground shared by channels\nMaximum 9 signals of voltages and currents can be measured simultaneously. The signals connected to the front panel are well isolated from the controller for the purpose of reliability and anti-interference. It communicates with the control software via ethernet. SOFTWARE INTERFACE The software interface creates a seamless connection between users and the Lab, enabling a smooth transition from preparation to completion of experiments. Realized in LabVIEW, it provides a user-friendly operation interface, conveys guidance information, translates user control commands for the FPGA-based control system, displays the measurement of the physical quantities, and supervises the operational status. This all-in-one software interface helps users focus on the experiment itself. TRAINING OBJECTIVES The Power Electronics trainer aims at undergraduate and graduate courses in the electrical engineering schools for the study of power converters and electrical drives. The laboratory equipment can be configured to create different exercises, which reinforces basic and advanced concepts in power electronics. The main purpose is to study the principles of power semiconductors, power converters and their control methods, DC and AC machines, and electrical drives. The entire system is fully configurable and can be tested under many conditions. Different experiments can be performed by rearranging the wiring and placement of the modules giving a lot of flexibility to simulate various converter topologies. Meanwhile, the control system provides classic control strategies for the converters and the electrical drive. The proposed exercises in different topics connect theoretical and practical concepts through hands-on experience.",
        "Specs": "The DEL PELTOT trainer has been designed to provide students with a fully comprehensive knowledge in power electronics systems, in a compact and flexible solution.\n\nModules List DL PELTOT\n\n- DL 2106T01: Control module,\n- DL 2106T02: SCR and TRIAC driver,\n- DL 2106T03: Single MOSFET with driver,\n- DL 2106T04: Single IGBT with driver,\n- DL 2106T05: IGBT H-bridge with driver,\n- DL 2106T06: Frequency converter,\n- DL 2106T11: Silicon diode,\n- DL 2106T12: Diode stack,\n- DL 2106T13: Three-phase diode bridge,\n- DL 2106T14: SCR,\n- DL 2106T15: SCR stack,\n- DL 2106T16: SCR with turn-off circuit,\n- DL 2106T17: TRIAC,\n- DL 2106T18: Light dimmer - fault simulator,\n- DL 2106T21: Fuse box,\n- DL 2106T22: EMI filter,\n- DL 2106T23: Capacitors,\n- DL 2106T24: Switching transformer,\n- DL 2106T25: 1,omega, shunts,\n- DL 2106PS: DC power supply,\n- DL 2106SPS: Single-phase power supply,\n- DL 2106TPS: Three-phase power supply,\n- DL 2106RLC:R-L-C load,\n- DL 2109D33: True RMS meter ,\n- DL 4236: Load manager,\n- DL 2655: Variable 3-phase transformer,\n- DL 12B12: Battery,\n- DL 2025DT: Tachometer,\n- DL 10200A1: Shunt motor,\n- DL 10250A1: Shunt Excited DC Generator ,\n- DL 10120A1: Slip-ring 3-phase motor,\n- DL 10120RA: Rotor rheostat,\n- DL 2108T26-LP: Brushless controller,\n- DL 2108T26BR: Brake resistor,\n- MOTBRA1.3NM: 1.3Nm brushless motor,\n- DL 10400: Base For Machines Coupling ,\n- DL 10115A1: Squirrel cage motor,\n- DL 2600TTI: Isolated transformer,\n- DL T12090_SK: 120x90 working bench,\n- DL T06090: 60x90 working bench,\n- DL A120-3M:Frame with 3 levels, basic version ,\n- DL SP-A120-LED: Upper base with LED strip, for DL A120-3M,\n- DL PCGRID: Computer All in one,\n- TLDCA2.0: Kit of connecting leads,\n- DL 1196: Holder for leads.\n\nThe laboratory is subdivided into 5 major study areas:\n\n- AC-DC Conversion\n- AC-AC Conversion\n- DC-DC Conversion\n- DC-AC Conversione\n- Motor drivers\n\nDL PEL201:AC-DC CONVERSION\n\nThe DL PEL201 is a multipurpose bench to study the conversion from alternating current to direct current, using different configurations of non-controlled and controlled rectifiers, to later apply these concepts to drive AC and DC motor drives. The course is divided in two parts: the study of uncontrolled rectifiers using silicon diodes and the study of controlled rectifiers using Silicon Controlled Rectifiers (SCR). Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as uncontrolled diodes and static converter circuits, thyristors, single pulse\/two-pulse midpoint converters, to name a few.\n\nDIODES AND UNCONTROLLED RECTIFIERS\n\n- Silicon diode\n- Uncontrolled single-phase half-wave rectifier\n- Uncontrolled single-phase centre-tapped full-wave rectifier\n- Uncontrolled single-phase bridge rectifier\n- Uncontrolled three-phase half-wave rectifier\n- Uncontrolled three-phase centre-tapped full-wave rectifier\n- Uncontrolled three-phase bridge rectifier\n\nSCR AND CONTROLLED RECTIFIERS\n\n- SCR\n- Controlled single-phase half-wave rectifier\n- Controlled single-phase centre-tapped full-wave rectifier\n- Half controlled single-phase bridge rectifiers\n- Fully controlled single-phase bridge rectifier\n- Controlled three-phase half-wave rectifier\n- Controlled three-phase centre-tapped full-wave rectifier\n- Dual 3-ph centre-tapped half-wave rectifier\n- Half controlled three-phase bridge rectifier\n- Fully controlled three-phase bridge rectifier\n\nDL PEL202: AC-AC CONVERSION\n\nThe DL PEL202 is a multipurpose bench to study the conversion from alternating current to alternating current. Its main fields of applications are in the control of temperature, lighting, and induction motors (with phase-control, on-off control and proportional time control). The course is divided into two sections: the first part studies thyristors and controlled AC\/AC converters using power components as diodes, SCR and Triacs with two and six pulse control units and the second part shows a standard application with the study of a double-time constant light dimmer circuit consisting of Triac and Diac with fault simulation. Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as Triac, single-phase and three-phase controllers, to name a few.\n\nTHYRISTORS AND AC VOLTAGE CONTROLLER\n\n- TRIAC\n- Fully controlled single-phase AC voltage controllers\n- Fully controlled single-phase AC voltage controllers with TRIAC\n- Half controlled single-phase AC voltage controllers\n- Fully controlled 3-ph AC voltage controller\n- Half controlled 3-ph AC voltage controller\n- Two-phase controlled 3-ph AC voltage controller\n\nLIGHT DIMMER FAULT SIMULATOR\n\n- Phase control for the regulation of lighting with fault simulation.\n- Double time-constant standard light dimmer circuit consisting of triac, diac, two control potentiometers, resistors and capacitors.\n- 20 faults can be switched on using switches located behind a cover. Typical faults: interruptions, short-circuit, faulty components and faulty design.\n\nDL PEL203: DC-DC CONVERSION\n\nThe DL PEL203 is a multipurpose bench to study the conversion from direct current to direct current, and its main fields of applications such as DC power supplies and DC motor drives. The course is divided into two sections. The first part covers choppers and studies the conversion from fixed DC input to a variable DC output directly with the use of SCR, MOSFET and IGBT. The second section studies switching mode power supplies and analyzes the properties of the PWM control with the use of circuits as flyback and forward converters. Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as step-up\/step-down converters, speed control of a DC motor, asymmetric half-bridge forward converter, to name a few.\n\nCHOPPERS\n\n- Switching devices (SCR with turn-off circuit, MOSFET, IGBT)\n- Buck converter with SCR with turn-off circuit, PWM\n- Buck converter with IGBT, PWM\n- Buck converter with MOSFET, PWM\n- Buck converter with MOSFET, PFM\n- Buck converter with MOSFET, TPC\n- Boost converter with IGBT, PWM\n- Boost converter with IGBT, TPC\n- Inverting converter with IGBT, PWM\n\nISOLATED SWITCHING MODE POWER SUPPLY\n\n- Flyback converter with IGBT, PWM\n- Forward converter with IGBT, PWM\n- Asymmetric half-bridge forward converter with IGBT, PWM\n\nDL PEL204: DC-AC CONVERSION\n\nThe DL PEL204 is a multipurpose bench to study the conversion from direct current to alternating current, and its main fields of applications such as AC motor drives and AC uninterruptable power supplies. The trainer is designed to study the properties of the inverter with a Pulse Width Modulation control. Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as four-quadrant drive with cycloconverter, control of stator voltage with three-phase AC voltage controller, variable-frequency drive with space vector PWM (SVPWM), to name a few.\n\nINVERTERS\n\nFundamentals of inverter\n\n- 1-ph half-bridge inverter\n- 1-ph bridge DC chopper, PWM\n\nSingle-phase inverter\n\nThree-phase inverter\n\nMulti-level inverter\n\nDL PEL205: MOTOR DRIVES\n\nThe DL PEL205 is a multipurpose bench for AC and DC motor drives where power electronics converters are studied as interfaces between input power and motors to control speed and position. The trainer is dedicated to the study of different types of machine drives: the DC motor drives with inner current loop, the AC slip-ring motor drives with rotor resistance regulation, and AC squirrel cage motor based variable frequency drives, all of them with speed control. In order to simulate various loading conditions for both DC and AC motors, we have introduced a brushless motor servo drive system that operates in both speed and torque control modes, supporting bidirectional rotation of brushless motors to facilitate four-quadrant operation for DC motors. Additionally, it features display capabilities, protection mechanisms, and supports speed and torque feedback, enhancing its user-friendliness and closed-loop feasibility. Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as single-phase full-bridge DC chopper\/inverter (square wave or sine wave with PWM control), frequency converter, to name a few.\n\nDC MOTOR DRIVE\n\nDC motor drive by single-phase rectifiers\n\nDC motor drive by three-phase rectifiers\n\nCONSTANT FREQUENCY DRIVE \u2013 SLIP RING MOTOR\n\nStator voltage control\n\nRotor resistance control\n\nVARIABLE FREQUENCY DRIVE \u2013 SQUIRREL CAGE MOTOR\n\nFrequency converter\n\nSquirrel cage motor\n\n- 1-ph bridge inverter, 180\u00b0 conduction\n- 1-ph bridge inverter, sinusoidal PWM\n- 1-ph bridge inverter, square-wave PWM\n\n- 3-ph bridge inverter, 180\u00b0 conduction\n- 3-ph bridge inverter, sinusoidal PWM\n\n- 1-ph neutral point clamped (NPC) 5-level inverter, unchopped\n- 1-ph neutral point clamped (NPC) 5-level inverter, PWM\n\n- Single-quadrant drive with 1-ph controlled rectifier\n- Single-quadrant drive with 1-ph controlled rectifier for closed loop armature voltage control\n- Single-quadrant drive with 1-ph controlled rectifier for closed loop armature voltage control with feedforward\n- Single-quadrant drive with 1-ph controlled rectifier for single closed loop speed control\n- Single-quadrant drive with 1-ph controlled rectifier for dual closed loop speed control\n- Two-quadrant drive (I-IV) with 1-ph controlled rectifier\n- Two-quadrant drive (I-III) with 1-ph controlled rectifier\n- Two-quadrant drive (I-III) with 1-ph controlled rectifier for dual closed loop speed control\n- Four-quadrant drive with 1-ph controlled rectifier\n- Four-quadrant drive with 1-ph controlled rectifier for dual closed loop speed control\n\n- Single-quadrant drive with 3-ph controlled rectifier\n- Single-quadrant drive with 3-ph controlled rectifier for dual closed loop speed control\n\n- Stator voltage control with variac\n- Stator voltage control with AC voltage controller\n- Speed control by stator voltage control with AC voltage controller\n\n- Rotor resistance control with rheostat\n- Rotor resistance control with pulsed resistor\n- Speed control by rotor resistance control with pulsed resistor\n- Rotor resistance control with Scherbius static drive\n- Speed control by rotor resistance control with Scherbius static drive\n\n- Operation of the frequency converter\n- Input controlled rectifier\n- Output inverter\n- DC link brake chopper\n\n- Preliminary investigation of the squirrel cage motor\n-\n\nModulation methods of frequency converter\n\n- Six-step modulation\n- Square wave PWM\n- Trapezoidal wave PWM\n- Sinusoidal wave PWM (SPWM)\n- Space vector PWM (SVPWM)\n- 3rd harmonic injection\n\nInduction motor control following U\/f characteristic\n\n- Motor magnetization for linear U\/f characteristic\n- Extra start magnetization\n- IxR compensation\n- Operation in standard converter setting\n- Scaled-down operation in star connection\n\nSpeed control\n\n- Slip compensation\n- Closed loop speed control",
        "Url": "edquip.co\/en\/de-lorenzo\/power-electronics-laboratory",
        "Page title": "Power Electronics Laboratory: De Lorenzo -EDQUIP",
        "Page description": "Power Electronics Laboratory. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "480 x 90 x 90",
        "Equipment dimensions unit": "cm",
        "Equipment weight": null,
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 112 x 226",
        "Packed dimensions unit": "cm",
        "Packed weight": "685",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/POWER ELECTRONICS LABORATORY\/POWER ELECTRONICS LABORATORY_DL PEL_De Lorenzo_DL-PELTOT-scaled.jpg",
        "Video link": "",
        "Main category": "Power Electronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-960665",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL PEL-HIL",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Power Electronics Laboratory With Hardware In The Loop Assisted By Matlab And Simulink",
        "Description": "This training system empowers users to design and develop advanced control algorithms within MATLAB and Simulink environments, while also enabling them to test and validate these algorithms using a fully equipped hardware setup. It serves as a comprehensive solution for in-depth studies and the validation of academic research findings. It focuses on power converter topics such as DC choppers and inverters, along with electric drives for DC motor, permanent-magnet servo motor, and asynchronous motor. The integration of a complete measurement system with the powerful MATLAB and Simulink development environment allows users to design and implement sophisticated control algorithms effectively. With the integration of Hardware-In-the-Loop (HIL) technology, the users will utilize MATLAB and Simulink for model-based control algorithm design, simulation, and real-time testing as Rapid Control Prototyping (RCP), focusing on power converters control and motor drives. Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects and, in order to simulate various loading conditions for both DC and AC motors, we have introduced a brushless motor servo drive system that operates in both speed and torque control modes, supporting bidirectional rotation of brushless motor to facilitate four-quadrant operation for DC and AC motors. MATLAB and Simulink Note: Licenses are not included with the trainer and must be managed independently by the users",
        "Specs": "The system enables users to study and develop control strategies for power converters and electric drives.\n\nThey will be able to:\n\n- Conduct hardware-in-the-loop testing in real-time,\n- Model the complete system in offline simulation,\n- Study Park and Clarke transformations in control design,\n- Study space vector modulation to optimize control of IGBT-based inverters,\n- Perform model-based design for control of DC choppers, inverters, DC motors, servo motors, and asynchronous motors in open-loop, single closed-loop, and cascade closed-loop configurations using a speed sensor,\n- Convert control models in Simulink into discrete compiled code for real-time execution in the control system,\n- Study and develop automatic current and speed controllers,\n- Compare actual test results with offline simulations.\n\nDEMO MODELS AND LIBARARY\n\nAlthough we do not directly provide the development platform (MathWorks), we do offer for each experiment (see image below):\n\n- a target demo model (control algorithm),\n- a host demo model (interface for real-time debugging),\n- and a library developed by DL, to be installed in Simulink, designed to facilitate further development by the user.\n\nEXPERIMENTAL TOPICS\n\nThe users can cover the following topics:\n\n- DC chopper,\n- Inverter,\n- DC Drives with Cascade Control,\n- Variable-Speed Permanent-Magnet Servo Drives,\n- Field-Oriented Control of Asynchronous Motors.\n\nLABORATORY\u2018S MODULES\n\n- DL RCPCORE: This is the rapid control prototyping core, a real-time controller designed to execute code generated from MATLAB and Simulink. It seamlessly connects Simulink users to real hardware implementations, minimizing effort and eliminating the need for C programming skills typically required for embedded systems. It is equipped with six channels for high-voltage and high-current measurements, functioning like six volt-ammeters. These channels support measurements of up to \u00b11000 V and \u00b125 A, featuring protective bushings and built-in galvanic isolation for enhanced safety and reliability. This simplifies closed-loop control, enabling users to seamlessly integrate it into their control algorithms without worrying about missing hardware setups for distributed measurements. It also features digital and analog inputs and outputs, allowing users to customize the hardware setup to suit their needs.\n- DL 2106SPS-EXCT: This is a single-phase AC power supply for power converters and electric drives, featuring an integrated MCB (Miniature Circuit Breaker) and RCCB (Residual Current Circuit Breaker) for local protection. It also provides excitation voltage to the DC shunt motor DL 10200A1.\n- DL 2106T06: Intrinsically, this is a frequency converter consisting of a single-phase controlled rectifier, a DC link with regenerative braking, and a three-phase inverter. Thanks to the independent drive of the inverter IGBTs, it can also be configured to create various converters, such as DC choppers and single-phase inverter.\n\nIt will be controlled by the DL RCPCORE, acting as the actuator for the control algorithm to supply a passive load DL 2106RLC or motor loads like DC shunt motor DL 10200A1, three-phase asynchronous motor DL 10115A1, and permanent-magnet motor MOTBRA1.3NM.\n\n- DL 2106LPF: This low-pass filter is applied to the output of the DL 2106T06 to filter AC or DC output voltage and current.\n- DL 2106T21-ADP: Fuse box for hardware protection, suitable to various needs with different sets of fuses for varying protective currents.\n- DL 2106RLC: This module consists of a set of resistors, inductors, and capacitors, which can be used as passive loads or power filters.\n- DL 10400: This is a metallic base designed for mounting DL motors. It includes an optical transducer for detecting rotational speed and features anti-vibration rubber feet, making it suitable for cases where two machines are coupled together.\n- DL 10200A1: This is a shunt excitation DC motor with open excitation and armature windings, with thermal protection.\n\nTechnical features:\n\n-  Power: 200 W,\n- Voltage: 220 V,\n-  Current: 1.2 A,\n- Excitation: 150 V\/0.06 A,\n- Speed: 3000 rpm.\n-  DL 10115A1: This is a squirrel cage three-phase asynchronous motor, with armature windings suitable for delta or star connection, with thermal protection.\n\nTechnical features:\n\n-  Power: 370 W,\n-  Voltage: 230\/400 V - \u0394\/Y,\n-  Current: 1.9\/1.1 A - \u0394\/Y,\n-  Frequency: 50 Hz,\n-  Cos\u00d8: 0.7,\n-  Speed: 2870 rpm.\n-  MOTBRA1.3NM: This is a permanent-magnet servo brushless motor with an embedded encoder, used with the controller DL 2108T26-LP or with the frequency converter DL 2106T06.\n\nTechnical features:\n\n-  Nominal power: 400 W,\n-  Nominal torque: 1.3 Nm,\n-  Nominal speed: 3000 rpm.\n-  DL 2108T26-LP: This is the application-level controller module for the brushless motor MOTBRA1.3NM, enabling the operation of a servo motor in a generator application or in the braking of the motor.\n\nTechnical features:\n\n-  Motor speed setpoint,\n-  Torque setpoint with torque limiting Led,\n-  Torque analog output: 0\u202610V,\n-  T\/S (Torque\/Speed) reaching Led,\n-  Rated power: 300 W,\n-  Rated speed: 3000 rpm,\n-  Ports: 1 USB and 2 RS485,\n-  5 pins connector: for speed reading.\n\n-  DL 2108T26BR: This is the external brake resistor for the DL 2108T26-LP, used during regeneration to protect its internal DC link.\n-  DL 9026N: Advanced module used in three-phase systems laboratories to visualize and measure waveforms.\n\nTechnical features:\n\n-  Selectable AC single-phase to measure V, I, P, Q, and S,\n-  An embedded data acquisition board, with a full-speed USB interface, to observe the voltage and current waveforms of the three-phases simultaneously with isolated input, and with RS485 communnication port,\n-  Complete with data acquisition SW developed in Labview for waveforms visualization. It shows the most importand electrical parameters (RMS for voltage and current for all phases, single and total, P, Q, S, and power factor) and performs the FFT transformation to show the voltage and current spectrum.\n-  DL PCGRID; PC All-in-One.\n\nTechnical features:\n\n-  Display: 21.5\", Full HD,\n-  Resolution: 1920 x 1080 Pixel,\n-  Processor: Intel\u00ae Core\u2122 i3, 1,2 GHz ,\n-  RAM: 8 GB,\n-  SSD: 256 GB,\n-  OS: Windows 11.\n\n-  DL T12090_SK; Workbench with melamine flatbed. Two holes are present on the flatbed to allow the assembly of a three level frame DL A120-3M.\n\nTechnical features:\n\n-  Dimensions (HxLxW): 80x120x90 cm,\n-  With locking wheels,\n-  Supplied with 15 sockets protected by a thermal magnetic circuit breaker.\n\n-  DL T06090; Multifunctional bench used in laboratories as support for modules and electrical machines.\n\nTechnical features:\n\n-  Dimensions (HxLxW): 80x60x90 cm,\n-  With locking wheels.\n\n-  DL A120-3M; Frame with 3 levels, basic version, for assembling the modules of the laboratory. To be fixed on the workbench DL T12090_SK.\n-  DL SP-A120-LED; Base with LED strip, to be fixed on the upper side of the frame DL A120-3M.\n-  TLRCP; Set of wiring cables of different diameters and lengths.\n-  DL 1196; A sturdy structure used to store and organize the various connection cables in the laboratory, with wheels.",
        "Url": "edquip.co\/en\/de-lorenzo\/power-electronics-laboratory-with-hardware-in-the-loop-assisted-by-matlab-and-simulink",
        "Page title": "Power Electronics Laboratory With Hardware In The Loop Assisted By Matlab And Simulink: De Lorenzo -EDQUIP",
        "Page description": "Power Electronics Laboratory With Hardware In The Loop Assisted By Matlab And Simulink. Free price estimations, request your quotation today!",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "212 x 112 x 226",
        "Packed dimensions unit": "cm",
        "Packed weight": "525",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/POWER ELECTRONICS LABORATORY WITH HARDWARE IN THE LOOP ASSISTED BY MATLAB AND SIMULINK\/POWER ELECTRONICS LABORATORY WITH HARDWARE IN THE LOOP ASSISTED BY MATLAB AND SIMULINK_DL PEL-HIL_De Lorenzo_DL-PEL205-scaled.jpg",
        "Video link": "",
        "Main category": "Power Electronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-695245",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL WP-SOLAR-D",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Solar Pump Trainer",
        "Description": "The DL WP-SOLAR-D trainer is designed to demonstrate the use of a water pump from an underground water source, powered by a solar photovoltaic system. The latter can be powered directly by the solar panel or through the battery regulation system. The solar pump trainer is composed of:\n\n- Water Pumping System,\n- Control Panel,\n- Photovoltaic Solar Panel,\n- Two Batteries.",
        "Specs": "The Water Pumping System includes:\n\n- Two volumetric tanks of different sizes with water hoses and connections, mounted on an anodized aluminum stand that includes wheels to facilitate its mobility.\n- A 67L sump tank simulating the underground water source.\n- A 50L capacity transparent container acting as water reserve. A water tap simulates water consumption and returns water to the sump tank.\n- Water pump 100W\/24Vdc\/4A capable of dry pumping, activated with a relay. It pumps water from the sump tank and fills the reserve water container. Includes a pressure switch for pump operation detection and signaling.\n- No direct water connection is needed, closed circulation system.\n- Both tanks have a graduated level scale in cm.\n- A set of sensors monitors the status of the system such as:\n\n- Tank maximum level sensor,\n-  Pipeline pressure sensor,\n-  Pipeline pressure direct reading gauge,\n-  Digital flow meter transducer for water input and output,\n- Reed level sensor for reserve tank,\n-  Relay activated drain valve,\n-  Motorized drain valve.\n\nThe Control Panel includes:\n\n- 4mm terminals for PV panel, battery and pump.\n- 24Vdc\/5A regulator controls battery charging.\n- Control Switches to control the system operation to select the power source for feeding the pump (panel, battery, regulator or manual operation).\n- Multifunction instrument to measure DC Voltage (\u00b1 65Vdc), Current (\u00b1 20Adc) and power of PV panel, battery, and pump.\n- Communication: Modbus RTU\/RS485.\n- Different test points are accessible through 2mm terminals for the sensors of the system (level sensors, flow sensors, pressure sensor, pressure switch, and drain valve).\n- Separate protection breakers for pump (1P C4) and battery (1P C10).\n- Integrated 24Vdc power supply to power the system from mains.\n\nThe Photovoltaic Solar Panel has the following features:\n\n- 280W\/24V Polycrystalline.\n- Voltage at maximum power (Vmp): 32.4V.\n- Current at maximum power (Imp): 8.64A.\n- Open circuit voltage (Voc): 39.0V.\n- Short circuit current (Isc): 9.27A.\n\nThe Two Batteries with 12V\/7Ah each, supply the pumping station when sunlight is absent.\n\nThe trainer is supplied with Computer Control, Data Acquisition and Data Management Software based on LabVIEW for performing the experiments.\n\nACCESSORY (NOT INCLUDED):\n\nDL SIMSUN: This module is suggested to provide suitable lighting for the photovoltaic solar panel for indoor use. The light can be manually adjusted or automatically controlled to allow performing experiments with different light intensities, therefore simulating the light conditions from dawn to twilight. Composed of 12 halogen lamps, 120W each.",
        "Url": "edquip.co\/en\/de-lorenzo\/solar-pump-trainer",
        "Page title": "Solar Pump Trainer: De Lorenzo - EDQUIP",
        "Page description": "Solar Pump Training Equipment. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Water supply"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "212 x 112 x 68",
        "Packed dimensions unit": "cm",
        "Packed weight": "167",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/SOLAR PUMP TRAINER\/SOLAR PUMP TRAINER_DL WP-SOLAR-D_De Lorenzo_DL-WP-SOLAR-D.jpg",
        "Video link": "",
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-152952",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL PEL201",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "AC-DC Conversion",
        "Description": "The DL PEL201 is a multipurpose bench to study the conversion from alternating current to direct current, using different configurations of non-controlled and controlled rectifiers, to later apply these concepts to drive AC and DC motor drives. The course is divided in two parts: the study of uncontrolled rectifiers using silicon diodes and the study of controlled rectifiers using Silicon Controlled Rectifiers (SCR). Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as uncontrolled diodes and static converter circuits, thyristors, single pulse\/two-pulse midpoint converters, to name a few.",
        "Specs": "EXPERIMENTS:\n\nDIODES AND UNCONTROLLED RECTIFIERS\n\n- Silicon diode\n- Uncontrolled single-phase half-wave rectifier\n- Uncontrolled single-phase centre-tapped full-wave rectifier\n- Uncontrolled single-phase bridge rectifier\n- Uncontrolled three-phase half-wave rectifier\n- Uncontrolled three-phase centre-tapped full-wave rectifier\n- Uncontrolled three-phase bridge rectifier\n\nSCR AND CONTROLLED RECTIFIERS\n\n- SCR\n- Controlled single-phase half-wave rectifier\n- Controlled single-phase centre-tapped full-wave rectifier\n- Half controlled single-phase bridge rectifiers\n- Fully controlled single-phase bridge rectifier\n- Controlled three-phase half-wave rectifier\n- Controlled three-phase centre-tapped full-wave rectifier\n- Dual 3-ph centre-tapped half-wave rectifier\n- Half controlled three-phase bridge rectifier\n- Fully controlled three-phase bridge rectifier\n\nMODULES LIST DL PEL201\n\n- DL 2106T01: Control module\n- DL 2106T02: SCR driver\n- DL 2106T11: Silicon diode\n- DL 2106T12: Diode stack\n- DL 2106T14: SCR\n- DL 2106T15: SCR stack\n- DL 2106T21: Fuse box\n- DL 2106T25: 1shunts\n- DL 2106PS: DC power supply\n- DL 2106TPS: 3-ph power supply\n- DL 2106RLC: RLC load\n- DL 12B12: Battery\n- DL 2109D33: True RMS meter\n- DL T12090_SK: 120x90 working bench\n- DL T06090: 60x90 working bench\n- DL A120-3M: Frame with 3 levels, basic version\n- DL SP-A120-LED: Upper base with LED strip, for DL A120-3M\n- DL PCGRID: Computer All in one\n- DL 2600TTI: Three-phase isolation transformer 3kVA\n- TLDCA2.0: Kit of connecting leads\n- DL 1196: Holder for leads",
        "Url": "edquip.co\/en\/de-lorenzo\/ac-dc-conversion",
        "Page title": "AC-DC Conversion Training Application: De Lorenzo - EDQUIP",
        "Page description": "AC-DC Conversion Training Application. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "180x90x90",
        "Equipment dimensions unit": "cm",
        "Equipment weight": null,
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 112 x 113",
        "Packed dimensions unit": "cm",
        "Packed weight": "370",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/AC-DC CONVERSION\/AC-DC CONVERSION_DL PEL 201_De Lorenzo_DL-PEL201-scaled.jpg",
        "Video link": "",
        "Main category": "Power Electronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-330388",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL PEL202",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "AC-AC Conversion",
        "Description": "The DL PEL202 is a multipurpose bench to study the conversion from alternating current to alternating current. Its main fields of applications are in the control of temperature, lighting, and induction motors (with phase-control, on-off control and proportional time control). The course is divided into two sections: the first part studies thyristors and controlled AC\/AC converters using power components as diodes, SCR and Triacs with two and six pulse control units and the second part shows a standard application with the study of a double-time constant light dimmer circuit consisting of Triac and Diac with fault simulation. Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as Triac, single-phase and three-phase controllers, to name a few.",
        "Specs": "EXPERIEMENTS\n\nTHYRISTORS AND AC VOLTAGE CONTROLLER\n\n- TRIAC\n- Fully controlled single-phase AC voltage controllers\n- Fully controlled single-phase AC voltage controllers with TRIAC\n- Half controlled single-phase AC voltage controllers\n- Fully controlled 3-ph AC voltage controller\n- Half controlled 3-ph AC voltage controller\n- Two-phase controlled 3-ph AC voltage controller\n\nLIGHT DIMMER FAULT SIMULATOR\n\n- Phase control for the regulation of lighting with fault simulation.\n- Double time-constant standard light dimmer circuit consisting of triac, diac, two control potentiometers, resistors and capacitors.\n- 20 faults can be switched on using switches located behind a cover. Typical faults: interruptions, short-circuit, faulty components and faulty design.\n\nMODULES LIST DL PEL202\n\n- DL 2106T01: Control module,\n- DL 2106T02: SCR driver,\n- DL 2106T12: Diode stack,\n- DL 2106T15: SCR stack,\n- DL 2106T17: TRIAC,\n- DL 2106T18: Light dimmer with fault simulator,\n- DL 2106T21: Fuse box,\n- DL 2106T25: 1, omega, shunts,\n- DL 2106PS: DC power supply,\n- DL 2106TPS: 3-ph power supply,\n- DL 2106RLC: RLC load,\n- DL 4236:Load manager,\n- DL 2109D33:True RMS meter,\n- DL 2600TTI: Isolated transformer,\n- DL T12090_SK: 120x90 working bench,\n- DL T06090: 60x90 working bench,\n- DL A120-3M: Frame with 3 levels, basic version,\n- DL SP-A120-LED: Upper base with LED strip, for DL A120-3M,\n- DL PCGRID: Computer All in one,\n- TLDCA2.0: Kit of connecting leads,\n- DL 1196: Holder for leads.",
        "Url": "edquip.co\/en\/de-lorenzo\/ac-ac-conversion",
        "Page title": "AC-AC Conversion Training Application: De Lorenzo - EDQUIP",
        "Page description": "AC-AC Conversion Training Application. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "180x90x90",
        "Equipment dimensions unit": "cm",
        "Equipment weight": null,
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 112 x 113",
        "Packed dimensions unit": "cm",
        "Packed weight": "370",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/AC-AC CONVERSION\/AC-AC CONVERSION_DL PEL202_De Lorenzo_DL-PEL202-scaled.jpg",
        "Video link": "",
        "Main category": "Power Electronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-693907",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL PEL203",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "DC-DC Conversion",
        "Description": "The DL PEL203 is a multipurpose bench to study the conversion from direct current to direct current, and its main fields of applications such as DC power supplies and DC motor drives. The course is divided into two sections. The first part covers choppers and studies the conversion from fixed DC input to a variable DC output directly with the use of SCR, MOSFET and IGBT. The second section studies switching mode power supplies and analyzes the properties of the PWM control with the use of circuits as flyback and forward converters. Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as step-up\/step-down converters, speed control of a DC motor, asymmetric half-bridge forward converter, to name a few.",
        "Specs": "EXPERIMENTS:\n\nCHOPPERS\n\n- Switching devices (SCR with turn-off circuit, MOSFET, IGBT)\n- Buck converter with SCR with turn-off circuit, PWM\n- Buck converter with IGBT, PWM\n- Buck converter with MOSFET, PWM\n- Buck converter with MOSFET, PFM\n- Buck converter with MOSFET, TPC\n- Boost converter with IGBT, PWM\n- Boost converter with IGBT, TPC\n- Inverting converter with IGBT, PWM\n\nISOLATED SWITCHING MODE POWER SUPPLY\n\n- Flyback converter with IGBT, PWM\n- Forward converter with IGBT, PWM\n- Asymmetric half-bridge forward converter with IGBT, PWM\n\nMODULES LIST DL PEL203\n\n- DL 2106T01: Control module,\n- DL 2106T02: SCR driver,\n- DL 2106T03: MOSFET,\n- DL 2106T04; IGBT,\n- DL 2106T05: IGBT STACK,\n- DL 2106T11: Silicon diode,\n- DL 2106T13: Rectifier,\n- DL 2106T16: SCR with turn-off circuit,\n- DL 2106T21: Fuse box,\n- DL 2106T22: EMI filter,\n- DL 2106T23: Capacitors,\n- DL 2106T24: Switching transformer,\n- DL 2106T25: 1(omega) shunts,\n- DL 2106PS: DC power supply,\n- DL 2106TPS: 3-ph power supply,\n- DL 2106RLC: RLC load,\n- DL 2109D33: True RMS meter,\n- DL 2600TTI: Isolated transformer,\n- DL T12090_SK: 120x90 working bench,\n- DL T06090: 60x90 working bench,\n- DL A120-3M: Frame with 3 levels, basic version,\n- DL SP-A120-LED: Upper base with LED strip, for DL A120-3M,\n- DL PCGRID: Computer All in one,\n- TLDCA2.0: Kit of connecting leads,\n- DL 1196: Holder for leads.",
        "Url": "edquip.co\/en\/de-lorenzo\/dc-dc-conversion",
        "Page title": "DC-DC Conversion training application: De Lorenzo - EDQUIP",
        "Page description": "DC-DC Conversion Training Application. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "180x90x90",
        "Equipment dimensions unit": "cm",
        "Equipment weight": null,
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 112 x 113",
        "Packed dimensions unit": "cm",
        "Packed weight": "370",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/CONVERSIONE DC-DC\/CONVERSIONE DC-DC_DL PEL203_De Lorenzo_DL-PEL203-scaled.jpg",
        "Video link": "",
        "Main category": "Power Electronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-548881",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL PEL204",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "DC-AC Conversion",
        "Description": "The DL PEL204 is a multipurpose bench to study the conversion from direct current to alternating current, and its main fields of applications such as AC motor drives and AC uninterruptable power supplies. The trainer is designed to study the properties of the inverter with a Pulse Width Modulation control. Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as four-quadrant drive with cycloconverter, control of stator voltage with three-phase AC voltage controller, variable-frequency drive with space vector PWM (SVPWM), to name a few.",
        "Specs": "EXPERIMENTS:\n\nINVERTERS\n\nFundamentals of inverter\n\n- 1-ph half-bridge inverter\n- 1-ph bridge DC chopper, PWM\n\nSingle-phase inverter\n\n- 1-ph bridge inverter, 180\u00b0 conduction\n- 1-ph bridge inverter, sinusoidal PWM\n- 1-ph bridge inverter, square-wave PWM\n\nThree-phase inverter\n\n- 3-ph bridge inverter, 180\u00b0 conduction\n- 3-ph bridge inverter, sinusoidal PWM\n\nMulti-level inverter\n\n- 1-ph neutral point clamped (NPC) 5-level inverter, unchopped\n- 1-ph neutral point clamped (NPC) 5-level inverter, PWM\n\nModules List DL PEL204:\n\n- DL 2106T01: Control module,\n- DL 2106T05: IGBT stack,\n- DL 2106T12: Diode stack,\n- DL 2106T13: Rectifier,\n- DL 2106T21: Fuse box,\n- DL 2106T22: EMI filter,\n- DL 2106T23:Capacitors,\n- DL 2106PS: DC power supply,\n- DL 2106TPS: 3-ph power supply,\n- DL 2106RLC: RLC load,\n- DL 2109D33: True RMS meter,\n- DL 12B12: Battery,\n- DL 2600TTI: Isolated transformer,\n- DL T12090_SK: 120x90 working bench,\n- DL T06090: 60x90 working bench,\n- DL A120-3M: Frame with 3 levels, basic version,\n- DL SP-A120-LED: Upper base with LED strip, for DL A120-3M,\n- DL PCGRID: Computer All in one,\n- TLDCA2.0: Kit of connecting leads,\n- DL 1196: Holder for leads.",
        "Url": "edquip.co\/en\/de-lorenzo\/dc-ac-conversion",
        "Page title": "DC-AC Conversion Training Application: De Lorenzo - EDQUIP",
        "Page description": "DC-AC Conversion Training Application. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "180x90x90",
        "Equipment dimensions unit": "cm",
        "Equipment weight": null,
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 112 x 113",
        "Packed dimensions unit": "cm",
        "Packed weight": "310",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/DC-AC CONVERSION\/DC-AC CONVERSION_DL PEL204_De Lorenzo_DL-PEL204-scaled.jpg",
        "Video link": "",
        "Main category": "Power Electronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-950727",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL PEL205",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Motor Drives",
        "Description": "The DL PEL205 is a multipurpose bench for AC and DC motor drives where power electronics converters are studied as interfaces between input power and motors to control speed and position. The trainer is dedicated to the study of different types of machine drives: the DC motor drives with inner current loop, the AC slip-ring motor drives with rotor resistance regulation, and AC squirrel cage motor based variable frequency drives, all of them with speed control. In order to simulate various loading conditions for both DC and AC motors, we have introduced a brushless motor servo drive system that operates in both speed and torque control modes, supporting bidirectional rotation of brushless motors to facilitate four-quadrant operation for DC motors. Additionally, it features display capabilities, protection mechanisms, and supports speed and torque feedback, enhancing its user-friendliness and closed-loop feasibility. Its modular structure makes it easy to reconfigure the system to perform several experiments in various subjects such as single-phase full-bridge DC chopper\/inverter (square wave or sine wave with PWM control), frequency converter, to name a few.",
        "Specs": "Experiments:\n\nDC MOTOR DRIVE\n\nDC motor drive by single-phase rectifiers\n\n-  Single-quadrant drive with 1-ph controlled rectifier\n- Single-quadrant drive with 1-ph controlled rectifier for closed loop armature voltage control\n- Single-quadrant drive with 1-ph controlled rectifier for closed loop armature voltage control with feedforward\n- Single-quadrant drive with 1-ph controlled rectifier for single closed loop speed control\n- Single-quadrant drive with 1-ph controlled rectifier for dual closed loop speed control\n- Two-quadrant drive (I-IV) with 1-ph controlled rectifier\n- Two-quadrant drive (I-III) with 1-ph controlled rectifier\n- Two-quadrant drive (I-III) with 1-ph controlled rectifier for dual closed loop speed control\n- Four-quadrant drive with 1-ph controlled rectifier\n- Four-quadrant drive with 1-ph controlled rectifier for dual closed loop speed control\n\nDC motor drive by three-phase rectifiers\n\n-  Single-quadrant drive with 3-ph controlled rectifier\n-  Single-quadrant drive with 3-ph controlled rectifier for dual closed loop speed control\n\nCONSTANT FREQUENCY DRIVE \u2013 SLIP RING MOTOR\n\nStator voltage control\n\n- Stator voltage control with variac\n- Stator voltage control with AC voltage controller\n- Speed control by stator voltage control with AC voltage controller\n\nRotor resistance control\n\n- Rotor resistance control with rheostat\n- Rotor resistance control with pulsed resistor\n- Speed control by rotor resistance control with pulsed resistor\n- Rotor resistance control with Scherbius static drive\n- Speed control by rotor resistance control with Scherbius static drive\n\nVARIABLE FREQUENCY DRIVE \u2013 SQUIRREL CAGE MOTOR\n\nFrequency converter\n\n- Operation of the frequency converter\n- Input controlled rectifier\n- Output inverter\n- DC link brake chopper\n\nSquirrel cage motor\n\n- Preliminary investigation of the squirrel cage motor\n\nModulation methods of frequency converter\n\n- Six-step modulation\n- Square wave PWM\n- Trapezoidal wave PWM\n- Sinusoidal wave PWM (SPWM)\n- Space vector PWM (SVPWM)\n- 3rd harmonic injection\n\nInduction motor control following U\/f characteristic\n\n- Motor magnetization for linear U\/f characteristic\n- Extra start magnetization\n- IxR compensation\n- Operation in standard converter setting\n- Scaled-down operation in star connection\n\nSpeed control\n\n- Slip compensation\n- Closed loop speed control\n\nModules List DL PEL205:\n\n- DL 2106T01: Control module,\n- DL 2106T02: SCR driver,\n- DL 2106T04: IGBT,\n- DL 2106T06: Frequency converter,\n- DL 2106T12: Diode stack,\n- DL 2106T15: SCR stack,\n- DL 2106T21: Fuse box,\n- DL 2106PS: DC power supply,\n- DL 2106SPS: Single-phase power supply,\n- DL 2106TPS: 3-ph power supply,\n- DL 2106RLC: RLC load,\n- DL 2109D33: True RMS meter,\n- DL 4236: Load manager,\n- DL 2655: Variable 3 phase transformer,\n- DL 2025DT: Tachometer,\n- DL 10200A1: Shunt motor,\n- DL 10250A1: Shunt generator,\n- DL 10120A1: Slip-ring motor,\n- DL 10120RA: Rotor rheostat,\n- DL 2108T26-LP: Brushless controller,\n- DL 2108T26BR: Brake resistor,\n- MOTBRA1.3NM: 1.3Nm brushless motor,\n- DL 10400: Base frame,\n- DL 10115A1: Squirrel cage motor,\n- DL 2600TTI: Isolated transformer,\n- DL T12090_SK: 120x90 working bench,\n- DL T06090: 60x90 working bench,\n- DL A120-3M: Frame with 3 levels, basic version,\n- DL SP-A120-LED: Upper base with LED strip, for DL A120-3M,\n- DL PCGRID: Computer All in one,\n- TLDCA2.0: Kit of connecting leads,\n- DL 1196: Holder for leads.",
        "Url": "edquip.co\/en\/de-lorenzo\/motor-drives",
        "Page title": "Motor Drives Training Application: De Lorenzo - EDQUIP",
        "Page description": "Motor Drives for power electronics training laboratories. Request your quotation today! Free price estimations, suitable for technical colleges and universities",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "480 x 90 x 90",
        "Equipment dimensions unit": "cm",
        "Equipment weight": null,
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 112 x 226",
        "Packed dimensions unit": "cm",
        "Packed weight": "525",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/MOTOR DRIVES\/MOTOR DRIVES_DL PEL205_De Lorenzo_DL-PEL205-scaled (1).jpg",
        "Video link": "",
        "Main category": "Power Electronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-538073",
        "Product Type": "hardware",
        "Producer": "ID System Didactic",
        "Producer product number": "Naval Training System",
        "Content languages": "en, fr, de, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Documentation"
        ],
        "Name": "Naval Training System - Steering System",
        "Description": "The aim is to reproduce the operating principle of a steering gear such as it can exist on board a highly automated ship. Train students of all levels to operate and maintain operation of an automated system through nominal situations or degradations close to reality.\n\nTypes of activities in terms of principle of operation:\n\n- Monitor parameters,\n- View operation configurations,\n- Operate interfaces that allow nominal or degraded installation management,\n- Identify a functional drift or a malfunction,\n- Use operation images to diagnose damage,\n- Take operation rights.\n\nTypes of activities in terms of maintenance related to the configuration of the systems:\n\n- Electric type malfunction:\n\n- No or loss of power on type sensors:\n\n- Pressure switch\n- Temperature\n- Position\n- Pressure\n- Tank level\n\n- No or loss of power on distributors' coils\n- No or loss of power to the motor pump group\n- Loss of the circuit breaker, of a relay\n- Loss of DEP order or loss of DEP\n\n- Mechanical type malfunctions \/ adjustment fault:\n\n- Component type adjustment:\n\n- Pressure limiter\n- Sensor\n- Line break between sensor and PLC\n- Pump regulation\n\n- Bad circuit layout\n\n- Circuit valves\n\n- Degraded components\n- Thermal type malfunction\n\nTypes of driving maintenance activities related to operation configuration:\n\n- Loss of communication in remote HMI and PLC:\n\nInvolves the operator to maintain the operation in the room in automated mode\n\n- Loss of PLC:\n\nInvolves the operator to maintain the operation in the room in non-automated mode (subject to keeping the pump running)\n\n- Loss of a switch:\n\nInvolves the operator to maintain the installation operation through the interface most suited to the situation\n\nTeaching level :\n\nLevel IV : High School degree or equivalent\n\n- Structure of an electrical, mechanical and hydraulic system,\n- Driving modes\n- Parameter monitoring (flow, pressure, power)\n- Identifying a drift, a malfunction\n- Operator round (reading parameters on the installation)\n- Use an operationr file\n- Use a maintenance sheet\n- Take an oil sample\n\nLevel III : Two-year technical degree, two-year university degree in technology or equivalent\n\nLevel IV\n\n- Analysis of the pump regulation of the hydraulic system\n- Maintain the management of a local system in automated mode or in non-automated modes\n- Malfunction analysis,\n- carry out secure interventions in preventive, predictive and corrective maintenance operations on different systems\n- Use the PLC interface and my local operation images\n- Know the interactions between bigrams\n- Know the network architecture\n- Use an oil analysis result\n\nLevel II : Three-year university degree in technology or equivalent\n\nLevel III\n\n- Assess a risky employment limit\n- Analyze the causes and or the consequences of a malfunction\n- Analyze, adjust the position control\n- Reload and analyze a PLC program\n- Provide solutions in terms of staff security; driving equipment and maintenance\n- Use manufacturer's documentation\n\nLevel I : Master degree or equivalent :\n\nLevel II\n\n- Structuring a hydraulic system\n- Drive in different modes\n- Structure a network architecture\n- Use the PLC interface and local pipe images\n- Provide solutions in terms of personnel, equipment and operation safety\n- Identify a drift, a malfunction",
        "Specs": "The equipment we offer is an automated and non-automated hydraulic bench composed of three sub-assemblies:\n\n- (A) A hydraulic generation composed of a motor pump group, an oil tank with its retention tank as well as all the hydraulic components and accessories necessary for the operation of the rudder.\n- (B) An operative part on a mechanically welded chassis with translucent casing, reproducing a rudder, with its instrumented control jacks, as well as opposing jacks representing the forces exerted by water on the rudder.\n- (C) A control console with a power part for supplying the hydraulic generation, a command and control part, with an automaton associated with an HMI for control and display. This desk is also equipped with buttons and indicator lights.\n\nThese three assemblies are hydraulically and electrically connected to each other.\n\nThe assembly is designed to be installed in a space of 2mx2m excluding the control console.\n\nWe only use industrial components from major brands, therefore very widespread, BOSCH REXROTH or EATON VICKERS pump, TOR components Cetop 3 EATON VICKERS, WANFLUH proportional components\n\nA \u2013 HYDRAULIC POWER UNIT\n\nThe hydraulic power plant is equipped with a motor pump group (3 kW motor, flow rate 10L \/ min at 100bar) which supplies a hydraulic bored distribution block.\n\nThis motor pump group is mounted on load with a suction valve fitted with a position sensor.\n\nCetop 3 components are mounted on the drilled block with standard M16x200 pressure taps in order to carry out all measurements.\n\nThe pump is a variable displacement piston pump with flow cancellation and LS regulation.\n\nA proportional Cetop 3 distributor controls the rudder in automated mode, a position control is achieved with the return of two analog linear sensors.\n\nA manually operated Cetop 3 distributor controls the rudder in non-automated mode.\n\nAn autonomous hydraulic bar controls the rudder in non-automated local emergency mode.\n\nDifferent valves and hydraulic components provide the functions of holding in position, pressure adjustment, flow adjustment.\n\nThe tank is equipped with a fixed temperature thermostat and an adjustable temperature thermostat.\n\nThe tank is equipped with an electric low alarm level and a very low electric stop level.\n\nAn air \/ oil temperature exchanger cools the oil, a 3\/2 valve allows the exchanger to bypass to simulate an oil temperature rise.\n\nAll hydraulic flow and pressure settings will be easily accessible on the control unit.\n\nA 6\u00b5m absolute pressure filter and a 10\u00b5m absolute return filter with electrical clogging indicator, keeps the 46cst mineral oil clean in the cleanliness class of the most sensitive component.\n\nA pressure switch equipped with an isolation valve transmits fault information \"low pressure\", the isolation valve allows to simulate a failure.\n\nTwo pressure sensors on the cylinder supply transmit the pressure value to the HMI\n\nComponents nomenclature:\n\n- 1 painted steel tank capacity 80L\n- 1 total retention tank\n- 4 swivel casters\n- 1 fixed thermostat 70 \u00b0 C\n- 1 adjustable thermostat 10 to 90 \u00b0 C\n- 1 visual level\n- 1 visual dial thermometer\n- 1 electric low alarm level indicator\n- 1 very low level electric indicator\n- 1 electric motor 3kw 230 \/ 400v three-phase 1500rpm with 2 temperature contacts (alarm and security)\n- 1 lantern and coupling\n- 1 pair of shock absorbing pads\n- 1 piston pump 10 cc \/ rev variable displacement flow cancellation and LS\n- 1 suction valve with electrical position contact\n- 1 absolute 3\u00b5 pressure filter with electrical clogging indicator\n- 1 absolute 10\u00b5 return filter with electrical clogging indicator\n- 1 Cetop 3 bored block 3 posts\n- 1 Cetop 3 bypass distributor 4\/2\n- 1 Cetop 3 manual control 4\/3 valve\n- 1 proportional distributor 4\/3 Cetop 3\n- 3 LS circuit selectors\n- 1 Cetop 3 flow limiter on P\n- 1 double piloted valve on A and B Cetop 3\n- 1 double balancing valve on A and B Cetop 3\n- 1 anti-shock valve on A and B Cetop 3\n- 3 high pressure valves on the rudder supply\n- 2 analog pressure sensors on the rudder feed\n- 1 pressure switch on the P supply of the drilled block\n- 1 pressure gauge\n- 1 air \/ oil cooler\n- 1 cooler bypass solenoid valve\n\nB \u2013 OPERATIVE PART STEERING SYSTEM\n\nThe operative part is composed of a mechanically welded steel frame receiving the mechanical reproduction of a rudder.\n\nThe rudder is actuated by two cylinders connected in parallel (the rod side of one cylinder with the bottom side of the other cylinder, and vice versa).\n\nTwo measurement rules control the displacement of the rudder and give the actual angular position. The two position values are compared in the PLC, a fault is sent to the automation in the event of too large a deviation. This difference can be modified artificially in the automation by the instructor to create a breakdown.\n\nA load will be created by two opposing cylinders on the rudder to simulate the force of the water applied to the rudder. The pushing force of the cylinders will be achieved by accumulators; the hydraulic pressure will be adjustable with a hand pump used to fill the circuit.\n\nA dial with a needle will indicate the visual position of the rudder.\n\nAn axis with an electric limit switch will allow the rudder to be locked at 0 \u00b0.\n\nThe whole is covered with translucent Lexan panels in order to visualize the movements of the rudder and the reading of the dial.\n\nComponents nomenclature:\n\n- 1 mechanically welded painted steel chassis\n- 4 swivel casters\n- Translucent Lexan casing\n- 1 painted steel rudder with its axis and angle indicator\n- 1 0 \u00b0 locking pin with presence sensor\n- 2 rudder control cylinders\n- 2 analog measurement rules\n- 2 accumulators\n- 1 hand pump\n- 2 counter cylinders\n\nC \u2013 CONTROL DESK\n\nThe electrical cabinet is of the console type, it integrates the electrical power, and electrical control components, as well as the automation.\n\nThe electrical power part supplies the electric motors of the power unit and the chiller motor, as well as the control circuit.\n\nA SIEMENS PLC and HMI controls the rudder in automated mode.\n\n1 PLC assembly:\n\n- 1 CPU315-2 PN \/ DP, 384 KO\n- 1 S7 MICRO MEMORY CARD, 128KB\n- 1 Comm. Processor CP 343-1 Lean\n- 1 set of remote inputs and outputs\n- 1 ET200S, IM151-1 Std, 12MBit \/ s\n- 2 PM-E 24V\n- 3 ET 200SP, DI 8x 24V DC ST\n- 2 8DO 24VDC 0.5A standard\n- 2 2AI I standard 4-wire 4-20 mA 12 bits, +\/- 20mA 13bits\n- 2 TM-P15S23-A1 screw\n- 15 TM-E15S26-A1 universal screw\n- 1 Panel with touch screen\n- 1 SIMATIC HMI KTP1200 Basic (Profinet)\n\nThe HMI has several pages of screens for controlling and viewing the various rudder parameters, namely:\n\n- Automatic steering angle control +\/- 35 \u00b0 (+\/- 37 \u00b0 in non-automated)\n- Visualization of faults\n- Bar angle visualization\n- Circuit diagram with visualization of the working state of the components\n- State of inputs and outputs\n- A page \"Instructor screen\" for simulating failures.\n\nThe source files of the automation will be provided to you so that the pole can make any changes.\n\nA WANDFLUH SD7 control card controls the proportional valve, the PASO software installed on a PC supplied with the bench allows the different settings of zero, gain, ramps, PID, ect ...\n\nDifferent driving modes are provided depending on the position of the switches:\n\n- Remote automated\n- Remote not automated\n- Automated room\n- Non-automated premises\n\nWith this material, we focus on the reflection of the schematic in On\/Off and proportional hydraulics (open and closed loop), on the settings by the learners of components and on the diagnosis of breakdowns.\n\nThis equipment thus highlights the different hydraulic, mechanical and automatic characteristics of a rudder.\n\nWe place the learner in a situation by reproducing a real system used on board the ships.\n\nComponents nomenclature:\n\n- 1 music stand cabinet\n- 1 general disconnector\n- 1 live LED\n- 1 emergency stop\n- 1 group start switch\n- 1 cooler engine start switch\n- 1 24Vdc power supply\n- 1 control circuit and power circuit protection\n- 1 phase controller\n- 1 needle ammeter\n- 1 buzer\n- 1 engine temperature fault indicator\n- 1 voltage fault indicator\n- 1 fault indicator for motor protection relay\n- 1 emergency stop light\n- 1 rudder light locked\n- 1 local control light\n- 1 indicator test button\n- 1 group start button\n- 1 group stop button\n- 1 local \/ remote button\n- 1 automated \/ non-automated button\n- 1 switchboard switch on\n- 1 Siemens S7-300 controller with Ethernet port\n- 1 KTP 1200 basic 12 inch touchscreen HMI\n- 1 Wandfluh SD7 amplifier card for PID control\n\nD \u2013 LINK HOSES\n\nThe hydraulic hoses are fitted with anti-pollution couplings with valves with flat faces. This technology prevents any loss of fluid during uncoupling and any introduction of air and pollution during coupling.\n\nADVANTAGES: The two flat faces facilitate cleaning before coupling ensuring the protection of the hydraulic circuits. The socket is equipped with a safety locking system preventing any inadvertent opening. Automatic coupling by simple push of the male end on the female part.\n\n3 \u2013 LAPTOP\n\nHP Laptop\n\nPROCESSOR: Intel Core i5 - 6200U\n\nOPERATING SYSTEM: Windows 10\n\nSCREEN: HD Screen SVGA BrightView WLED de 15,6 inches\n\nRAM: 6 Go DDR3\n\nHARD DRIVE: 1 To\n\nWebcam with integrated microphone.\n\nWeight : 2.04 kg\n\n4 \u2013 SOFTWARE PROVIDED WITH THE BENCH\n\nConfiguration software for the SD7 WANFLUH PASO control card\n\n5 \u2013 TECHNICAL DOCUMENTATION\n\nThe documentation will be provided in English in paper format in 3 copies and on digital medium (USB key) in 2 copies in Microsoft Word and PDF formats.\n\nIt will includes:\n\n- The source files of the PLC program\n- The manufacturers' documentation of the components\n- Commissioning and operating instructions (Plans, diagrams, list and parts lists)\n- Safety notice\n- Equipment maintenance instructions\n\nCE conformity declaration in accordance with following directives :\n\n- \"Low Voltage Directive\" 2014\/35\/EU\n- \"Machinery Directive\" 2006\/42\/EC\n- \"EMC Directive 2014\/30\/EU\n- \"Pressure Equipment Directive \" 2014\/68\/EU\n\n6 \u2013 HYDRAULIC COMMISSIONING AND AUTOMATION INSTRUCTOR TRAINING\n\nHALF A DAY WILL BE DEDICATED TO THE EQUIPMENT INSTALLATION \/ PREPARATION\n\nSystem and components Identification:\n\n- Equipment description and safety instructions reading\n\nTaking in hand:\n\n- Accompanying of teachers for the start of the hydraulic unit and pressurization of the circuit.\n- Recommendations while using the equipment\n\nUse and equipment operation:\n\n- Explanations and wiring of the main practical work\n\nPreventive maintenance:\n\n- Awareness on the fluids cleanliness.\n- Control level\n- Instructions for filter elements replacement",
        "Url": "edquip.co\/en\/id-system\/naval-training-system",
        "Page title": "Naval Training System",
        "Page description": null,
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "100-127V",
            "220-240V",
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023.00.00",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/_default_upload_bucket\/Naval Training System.png",
        "Video link": "",
        "Main category": "Ocean Energy Training Systems"
    },
    {
        "Edquip ID": "PL-320171",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL DKC031",
        "Content languages": "en, it",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Documentation"
        ],
        "Name": "Heat Pump",
        "Description": "The system can easily demonstrate the operation of an air\/water heat pump.\n\nIt is possible to study the utilization of environmental energy used to heat water.\n\nThe refrigerant absorbs the heat environment while passing through the evaporator fan, and subsequently, it is transferred to the water in the condenser.\n\nThe hot-water storage tank includes an internal heat exchanger, which can be connected also to the network, in order to exchange energy with the flow of tap water.\n\nThe heat, absorbed by the water in the condenser, goes to the hot-water storage tank, where this heat energy it is stored and it can be exchanged with tap water flow.\n\nThe system is also ready to operate in an open circuit: the mains water can enter directly to the condenser providing instantaneous heating.\n\nTRAINING OBJECTIVES\n\nStudy of the operation of a heat pump.\n\nStudy of the main components of the heat pump.\n\nRepresentation of reversible thermodynamic processes.\n\nMonitoring temperatures and pressures in the process.\n\nUse of stored heat.\n\nEnergy balances:\n\n- in an open circuit.\n- in a closed circuit.\n\nRequirements:\n\n- Power supply: 230V\/50 Hz\n- Tap water inlet\n- Drain\n\nTECHNICAL DESCRIPTION\n\nThe trainer is composed of :\n\n- compressor\n- circulation pump\n- flow control valve\n- accumulator tank\n- condenser\n- filter\/drier\n- expansion valve and evaporator fan, water flow meters\n- temperature and pressure sensors with display in strategic points of the circuit",
        "Specs": "TECHNICAL DATA\n\n- Refrigerant: R 134\n\nCompressor:\n\n- Power: 533 W\n- Cylinder capacity: 6,1 cm3\n- Rated current: 1.58A\n- Maximum current: 2.23 A\n- Rated voltage: 220-240V\n\nEvaporator\n\n- fins evaporator with fan\n- Power: 380W\n\nFan\n\n- Rated voltage: 230V\n- Rated speed: 1500rpm\n- Airflow: 250m3 \/h\n\nFlowmeter\n\n- Scale: 35-350l\/h\n\nCondenser:\n\n- Concentric tube exchanger.\n\nAccumulator\n\n- Hot water accumulator with exchanger internal\n- Capacity:5.5l\n\nCirculation of hot water by means of a circulating pump\n\nTemperature sensors:\n\n- Coolant inlet and outlet in condenser\n- Water inlet and outlet in condenser.\n- Water inlet and outlet in accumulator's coil.\n\nPressures:\n\n- Compressor coolant inlet and outlet.\n\nFlow rates:\n\n- Water flow over condenser.\n- Water flow on accumulator's coil.",
        "Url": "edquip.co\/en\/de-lorenzo\/heat-pump",
        "Page title": "Heat Pump for training: De Lorenzo - EDQUIP",
        "Page description": "A Heat Pump training equipment. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Water supply",
            "Water drain"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Heat Pump\/Heat-Pump_DL-DKC031.jpeg",
        "Video link": null,
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-655851",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "Bottle Filling 2601",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "Documentation",
            "In person",
            "Live online",
            "Video"
        ],
        "Name": "RFID Based Bottle Filling Station with PLC and HMI",
        "Description": "Automatic Bottle Filling Training Cell\n\nThe Automatic Bottle Filling Training Cell by Hytech Automation is an advanced Industry 4.0-ready automation training platform designed to simulate a complete intelligent bottling and packaging line. The system provides hands-on experience in PLC programming, HMI development, SCADA integration, servo motion control, RFID-based product identification, pneumatic automation, sensor integration, Digital Twin technology, and Industrial IoT.\n\nThe training cell replicates the complete lifecycle of an automated bottling process, including material sorting, RFID-based recipe identification, controlled filling, conveyor transfer, bottle positioning, pneumatic clamping, automated capping, discharge, and storage. Each operation is coordinated through industrial PLC-based control architecture, providing learners with practical exposure to real-world manufacturing systems used in food processing, pharmaceuticals, packaging, consumer goods, and smart factory environments.\n\nThe system integrates industrial technologies including color sensors, RFID readers, servo-driven rotary indexing tables, pneumatic actuators, conveyor systems, photoelectric sensors, and intelligent process monitoring. These technologies enable learners to understand industrial concepts such as sequencing, interlocking, traceability, error handling, precision motion control, production monitoring, and automated decision-making.\n\nOne of the unique features of the training cell is its RFID-based recipe management system. Each bottle carries unique identification data which determines the filling recipe. The PLC reads RFID information, controls dispensing operations, verifies filling quantities using sensor feedback, and manages downstream processes automatically. This provides hands-on experience with data-driven manufacturing and smart production systems.\n\nThe training cell includes multiple integrated automation stations:\n\n- Ball Sorting Station using industrial colour sensors and servo-controlled sorting mechanisms\n- RFID Identification and Recipe Selection Station\n- Servo Indexed Filling Station with sensor-based quantity verification\n- Transfer and Conveyor Control Station\n- Bottle Positioning and Clamping Station\n- Automated Cap Feeding and Capping Station\n- Discharge and Storage Handling Station\n\nThe platform supports PLC, HMI, SCADA, and Industrial IoT integration, allowing users to monitor production status, visualize process data, generate alarms, perform diagnostics, and analyze manufacturing performance. The system is suitable for engineering colleges, vocational training institutes, industrial training centers, automation laboratories, and Industry 4.0 skill development programs.\n\nDigital Twin & Virtual Commissioning\n\nThe training cell is integrated with Siemens NX Mechatronics Concept Designer (MCD) Digital Twin technology. The virtual model enables physics-based simulation, virtual commissioning, PLC validation, collision detection, process optimization, and hardware-in-the-loop testing. Learners can validate automation logic and optimize production workflows before executing programs on physical hardware.\n\nIndustrial IoT (IIOT) Integration\n\nThe system supports Siemens Industrial Edge and Industry 4.0 technologies for real-time data acquisition, edge-to-cloud connectivity, analytics, dashboard visualization, predictive maintenance concepts, MQTT communication, OPC UA integration, and smart manufacturing applications.\n\nLearning Outcomes\n\n- Understand complete automated bottling and packaging workflows\n- Develop PLC programming skills for sequencing, interlocking, timers, counters, and fault handling\n- Implement HMI and SCADA applications for monitoring and diagnostics\n- Integrate RFID systems for recipe-based manufacturing and traceability\n- Work with industrial colour sensors, photoelectric sensors, and process sensors\n- Learn servo indexing and precision motion control applications\n- Implement pneumatic automation and actuator control systems\n- Design Industry 4.0 and IIOT-enabled manufacturing solutions\n- Perform Digital Twin-based virtual commissioning and process optimization\n- Gain practical skills aligned with modern smart factories and automated packaging industries\n\nApplications\n\n- PLC, HMI and SCADA Training\n- Industrial Automation Training\n- Packaging Automation Systems\n- Industry 4.0 and IIOT Training\n- Digital Twin and Virtual Commissioning\n- Smart Manufacturing Education\n- Engineering and Vocational Skill Development",
        "Specs": "Automatic Bottle Filling Training Cell \u2013 Technical Specifications\n\nHytech Automation's Automatic Bottle Filling Training Cell is an Industry 4.0-enabled automation training platform designed to provide hands-on experience in PLC programming, HMI development, SCADA integration, RFID-based traceability, servo motion control, pneumatic automation, Digital Twin technology, and Industrial IoT applications.\n\n1. Automation Control System\n\n- PLC: Siemens S7-1200 \/ Mitsubishi FX5\n- HMI: Siemens MTP700 \/ Mitsubishi GT Series\n- Industrial Control Panel with integrated I\/O system\n- Industrial Ethernet Communication\n- PLC-HMI-SCADA Integration\n- Real-time process monitoring and diagnostics\n\n2. Ball Sorting Station\n\n- Industrial Colour Sensor for material identification\n- Servo Motor Controlled Sorting Mechanism\n- Automatic Sorting of Red, Green, and Blue Balls\n- Dedicated Storage Tubes for Sorted Materials\n- PLC-based Sorting Logic and Interlocking\n\n3. RFID Identification Station\n\n- Industrial RFID Reader and Writer\n- Bottle Identification using RFID Tags\n- Recipe-Based Filling Control\n- Traceability and Product Tracking Functions\n- Industry 4.0 Data Management Concepts\n\n4. Filling Station\n\n- Servo Driven Rotary Indexing Table\n- Automatic Bottle Positioning System\n- Y-Type Filling Manifold\n- Pneumatic Dispensing Mechanism\n- Sensor-Based Quantity Verification\n- Overfill and Underfill Detection Logic\n- Recipe-Based Filling Operations\n\n5. Transfer & Conveyor System\n\n- Industrial Conveyor System\n- Pneumatic Transfer Mechanism\n- Photoelectric Sensors for Position Detection\n- PLC Controlled Material Handling\n- Interlocked Transfer Operations\n\n6. Automated Capping Station\n\n- Automatic Cap Feeding System\n- Pneumatic Bottle Clamping Mechanism\n- Z-Axis Pneumatic Actuator\n- Rotary Capping Unit\n- Sensor-Based Position Verification\n- Automated Cap Placement and Tightening\n\n7. Discharge & Storage Station\n\n- Automatic Bottle Discharge System\n- 90-Degree Transfer Mechanism\n- Finished Product Storage Area\n- Continuous Production Flow Logic\n- PLC Controlled End-of-Line Operations\n\n8. Digital Twin Integration\n\n- Siemens NX Mechatronics Concept Designer (MCD)\n- Virtual Commissioning\n- Physics-Based Simulation\n- PLC Logic Validation\n- Collision Detection\n- Cycle Time Optimization\n- HMI and Automation Validation\n\n9. Industrial IoT & Industry 4.0\n\n- Siemens Industrial Edge Integration\n- MQTT Communication\n- OPC UA Connectivity\n- Real-Time Data Acquisition\n- Cloud-Based Monitoring\n- Production Analytics Dashboard\n- Remote Diagnostics & Monitoring\n\n10. Learning Outcomes\n\n- PLC Programming and Automation Logic Development\n- HMI and SCADA Application Development\n- RFID-Based Traceability Systems\n- Servo Motion Control Applications\n- Pneumatic Automation Integration\n- Industrial Sensor Integration\n- Packaging and Bottling Automation Concepts\n- Digital Twin & Virtual Commissioning\n- Industrial IoT & Industry 4.0 Applications\n- Industrial Troubleshooting and Diagnostics\n\nApplications\n\n- Industrial Automation Training\n- PLC-HMI-SCADA Laboratories\n- Packaging Automation Training\n- Industry 4.0 Skill Development\n- Digital Twin Demonstration Labs\n- Engineering & Vocational Training Centers",
        "Url": "edquip.co\/en\/hytech\/rfid-based-bottle-filling-station-with-plc-and-hmi",
        "Page title": "RFID Based Bottle Filling Station with PLC and HMI",
        "Page description": "This RFID Based Bottle Filling Station with PLC and HMI is designed for training in food & beverage, pharmaceuticals, chemicals, and consumer goods industries.",
        "Lowest number of students": 2,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "8479.89.99",
        "Equipment dimensions": "120 x 100 x 150",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "140 x 120 x 170",
        "Packed dimensions unit": "cm",
        "Packed weight": "180",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/RFID Based Bottle Filling Station with PLC and HMI\/RFID Based Bottle Filling Station with PLC and HMI_Bottle Filling 2601_Hytech Automation_Bottle Filling Low Res 1.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/thAsXq5stwM",
        "Main category": "Mechatronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-744823",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "PID2601",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation",
            "Video"
        ],
        "Name": "Process Automation Training Kit",
        "Description": "Process Automation Training Kit\n\nThe Process Automation Training Kit from Hytech Automation is an Industry 4.0-ready training platform designed to provide comprehensive hands-on learning in industrial process control and automation. Developed using real industrial instruments, pumps, control valves, transmitters, sensors, PLCs, HMI, SCADA, and Industrial IoT technologies, the system bridges the gap between classroom learning and modern process industry requirements.\n\nThe training system simulates a small-scale process plant and enables learners to understand, operate, monitor, and optimize the four most important process variables used across industrial sectors: Level, Flow, Temperature, and Pressure. Through real-time process loops, continuous operation, industrial instrumentation, and advanced control strategies, participants gain practical exposure to industrial automation concepts used in chemical, pharmaceutical, food processing, water treatment, energy, and manufacturing industries.\n\nThe modular architecture allows users to study both basic and advanced process control techniques including On\/Off control, PID control, feedforward control, permissive logic, alarm management, process interlocks, disturbance handling, and process optimization.\n\nDesigned using industrial-grade aluminum extrusion structures and process components, the system provides a safe, reliable, and repeatable platform for engineering colleges, technical institutions, vocational training centers, industrial training departments, and Industry 4.0 laboratories.\n\nKey Features & Benefits\n\n- Industry-oriented process automation training platform\n- Real industrial Level, Flow, Temperature, and Pressure control loops\n- PLC-based automation using Siemens S7-1500 controller\n- Siemens Unified HMI for process visualization and control\n- Supports On\/Off and PID control strategies\n- Industrial transmitters, sensors, pumps, and pneumatic control valves\n- Closed-loop process control with real-time feedback\n- Industrial IoT (IIoT) integration using Siemens Industrial Edge\n- SCADA-ready architecture for monitoring and diagnostics\n- Learning Management System (LMS) with structured training modules\n- Supports Industry 4.0 concepts including data acquisition, analytics, and remote monitoring\n- Modular and expandable design for future upgrades\n\nIntegrated Training Modules\n\n- Level Control Module\n- Flow Control Module\n- Temperature Control Module\n- Pressure Control Module\n- PLC and HMI Integration Module\n- Industrial IoT (IIoT) Module\n- Learning Management System (LMS)\n- Workstation with PLC, HMI, and SCADA Software\n\nLevel Control Training\n\n- On\/Off level control using solenoid valves\n- Continuous PID level control using pneumatic control valves\n- Level sensor integration and feedback control\n- Process stability and disturbance analysis\n- Industrial tank-based level control applications\n\nFlow Control Training\n\n- Ultrasonic flow measurement\n- Differential Pressure (DP) flow measurement\n- Flow control using pneumatic control valves\n- PID-based flow regulation\n- Flow verification using manual indicators\n\nTemperature Control Training\n\n- Heat exchanger-based process temperature control\n- RTD sensor integration\n- Feedforward and permissive control logic\n- Closed-loop PID temperature control\n- Thermal process optimization and disturbance handling\n\nPressure Control Training\n\n- Pressure measurement using industrial pressure transmitters\n- Differential pressure sensing applications\n- Pneumatic pressure control valves\n- PID pressure control loops\n- Industrial pressure regulation concepts\n\nIndustrial IoT & Industry 4.0 Integration\n\n- Siemens Industrial Edge integration\n- Real-time data acquisition and analytics\n- Edge-to-cloud connectivity\n- Dashboard-based visualization\n- MQTT and OPC UA communication concepts\n- Condition monitoring and smart manufacturing applications\n\nLearning Outcomes\n\n- Understand industrial process automation architecture\n- Learn operation and tuning of Level, Flow, Temperature, and Pressure loops\n- Develop PLC programming skills for process control applications\n- Create HMI screens for monitoring and operation\n- Implement PID control and process optimization techniques\n- Integrate industrial instrumentation with PLC systems\n- Configure alarms, interlocks, and safety functions\n- Apply SCADA concepts for industrial process visualization\n- Understand Industrial IoT and Industry 4.0 technologies\n- Gain practical skills directly applicable to process industries\n\nMechanical Specifications\n\n- Industrial aluminum extrusion structure\n- Heavy-duty powder-coated steel frame\n- Castor wheels with brakes\n- Overall Dimensions: 2080 mm \u00d7 1000 mm \u00d7 1820 mm (L \u00d7 W \u00d7 H)\n- Work Surface Dimensions: 2080 mm \u00d7 1600 mm\n\nSoftware & Workstation\n\n- Siemens STEP 7 (TIA Portal)\n- WinCC Advanced SCADA Software\n- Industrial process visualization and diagnostics\n- PLC-HMI-SCADA integration platform\n- Preconfigured workstation for programming and experimentation",
        "Specs": "Process Automation Training Kit \u2013 Technical Specifications\n\nHytech Automation's Process Automation Training Kit is an Industry 4.0-ready industrial training platform designed to provide practical exposure to process instrumentation, PLC programming, HMI development, SCADA integration, PID control, Industrial IoT, and process optimization.\n\n1. Training System Structure\n\n- Industrial-grade aluminum extrusion structure\n- Heavy-duty powder-coated steel frame\n- Castor wheels with brakes for mobility and positioning\n- Modular design for process automation experiments\n- Overall Dimensions: 2080 mm \u00d7 1000 mm \u00d7 1820 mm (L \u00d7 W \u00d7 H)\n- Work Surface Dimensions: 2080 mm \u00d7 1600 mm\n\n2. PLC Control System\n\n- PLC: Siemens S7-1500\n- Industrial I\/O modules\n- Industrial Ethernet communication\n- PROFINET communication support\n- PLC programming using Siemens TIA Portal\n- Real-time process control and monitoring\n\n3. HMI System\n\n- Siemens MTP700 Unified HMI\n- High-resolution touch screen interface\n- Process visualization and control\n- Alarm management and diagnostics\n- Real-time process parameter monitoring\n- PLC-HMI integration via PROFINET\n\n4. Level Control Module\n\n- Transparent process tanks for level visualization\n- Industrial level sensor\n- Solenoid valve for On\/Off control\n- Pneumatic diaphragm control valve for PID control\n- Centrifugal pump-based circulation system\n- Closed-loop level control implementation\n\n5. Flow Control Module\n\n- Ultrasonic Flow Meter\n- Differential Pressure (DP) Flow Measurement System\n- Industrial pneumatic control valve\n- Manual flow indicator\n- PID-based flow control experiments\n- Industrial process piping arrangement\n\n6. Temperature Control Module\n\n- Industrial heat exchanger system\n- Electric water heater\n- RTD temperature sensors\n- Feedforward and permissive control logic\n- Closed-loop PID temperature control\n- Process temperature monitoring and regulation\n\n7. Pressure Control Module\n\n- Industrial pressure transmitter\n- Differential pressure measurement system\n- Pneumatic diaphragm control valve\n- Pressure regulation and stabilization experiments\n- PID pressure control implementation\n- Industrial pressure process simulation\n\n8. Industrial Instrumentation\n\n- Level Sensors\n- Pressure Transmitters\n- Differential Pressure Transmitters\n- RTD Temperature Sensors\n- Ultrasonic Flow Meter\n- Industrial Pneumatic Control Valves\n- Process Pumps and Piping System\n\n9. SCADA & Process Visualization\n\n- Siemens WinCC Advanced SCADA\n- Real-time process visualization\n- Alarm and event management\n- Historical data logging\n- Process diagnostics and monitoring\n- Multi-loop process control visualization\n\n10. Industrial IoT & Industry 4.0\n\n- Siemens Industrial Edge Integration\n- Real-time Data Acquisition\n- Edge-to-Cloud Connectivity\n- Industrial Dashboards and Analytics\n- MQTT Communication Concepts\n- OPC UA Communication Concepts\n- Condition Monitoring Applications\n\n11. Learning Management System (LMS)\n\n- Structured Process Automation Courses\n- Trainer and Student Learning Modules\n- Assessment and Certification Support\n- Custom Course Creation\n- Progress Tracking and Reporting\n- Industry-Oriented Learning Content\n\n12. Workstation & Software\n\n- Industrial Workstation\n- Siemens STEP 7 (TIA Portal)\n- Siemens WinCC Advanced SCADA\n- PLC Programming Environment\n- HMI Development Platform\n- Process Visualization and Diagnostics Tools\n\nApplications\n\n- Process Automation Laboratories\n- Instrumentation & Control Engineering\n- PLC-HMI-SCADA Training\n- Industrial IoT & Industry 4.0 Labs\n- Engineering Colleges and Universities\n- Technical Training Centers\n- Industrial Skill Development Programs",
        "Url": "edquip.co\/en\/hytech\/process-automation-training-kit",
        "Page title": "Process Automation Training Kit: Hytech - EDQUIP",
        "Page description": "This Process Automation Training Kit is industry-grade training system designed to provide hands-on learning in continuous process control and instrumentation.",
        "Lowest number of students": 2,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "8479.89.99",
        "Equipment dimensions": "208 x 100 x 182",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "200",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "220 x 100 x 200",
        "Packed dimensions unit": "cm",
        "Packed weight": "310",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/Process Automation Training Kit\/Process Automation Training Kit_PID2601_Hytech Automation_PID 1.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/DC7n6F6eQdQ",
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-367586",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HC-SOLAR-OG-ET",
        "Content languages": "en, fr, it_IT, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Photovoltaic System Off-Grid",
        "Description": "The Photovoltaic System Off-Grid is a practical training solution that shows how solar energy can be captured and used independently from the electrical grid. With its compact panel, control interface, and storage unit, it allows students to explore the full solar power cycle in a clear, hands-on way. Designed for educational environments, it provides an intuitive experience to understand stand-alone solar systems and their real-world behavior.\n\nThe EasyTech \u2013 Renewable Energies product line is designed as an entry-level solution that allows students, technicians, and new users to explore energy generation and management technologies in a practical, accessible, and safe way, all integrated into compact, didactic platforms built for progressive learning. Each EasyTech product line is engineered to provide an intuitive, modular, and flexible experience, helping users understand the essential principles and preparing them to advance toward more complex systems.",
        "Specs": "Technical Specifications - System configuration: Standalone (Isolated from the Grid). - Silicon cell photovoltaic panel\n\n- Adjustable tilt tabletop aluminum frame\n- 80 W photovoltaic panel\n- Tabletop control panel\n\n- Charge controller\n- Rated voltage: 12 Vdc\n- Rated current: 10A\n- Electric load: 12 Vdc lamp\n- Multifunction instrument, microprocessor-based\n- Buffer battery\n\n- Rated voltage: 12 Vdc\n- Capacity: 12 Ah\n- Indoor Lighting Device\n\n- To operate the photovoltaic panel indoor\n\nTraining Program\n\n- Components of a stand-alone solar system for electricity production.\n- Effect of solar radiation on the panel output voltage.\n- Effects of shading on a real solar installation.\n- Photovoltaic panel energy conversion efficiency.",
        "Url": "edquip.co\/en\/de-lorenzo\/photovoltaic-system-off-grid",
        "Page title": "Photovoltaic System Off-Grid: De Lorenzo - EDQUIP",
        "Page description": "Photovoltaic System Off-Grid, teaching fundamentals in Solar PV. Request your quotation today! Free price estimations, suitable for technical schools & colleges",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/PHOTOVOLTAIC SYSTEM OFF-GRID\/PHOTOVOLTAIC SYSTEM OFF-GRID_DL HC-SOLAR-OG-ET_De Lorenzo_DL HC-SOLAR-OG-ET.jpeg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-620676",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HC-SOLAR-GT-ET",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Photovoltaic System On-Grid",
        "Description": "The Photovoltaic System On-Grid is a streamlined training platform designed to show how solar energy can be directly fed into the public grid.\n\nWith its compact panel and integrated control interface, it offers students a clear, hands-on view of real grid-connected solar operation.\n\nIdeal for modern learning environments, it provides an intuitive way to understand solar generation, grid interaction, and the behavior of DC\/AC conversion in practical scenarios.\n\nThe EasyTech \u2013 Renewable Energies product line is designed as an entry-level solution that allows students, technicians, and new users to explore energy generation and management technologies in a practical, accessible, and safe way, all integrated into compact, didactic platforms built for progressive learning. Each EasyTech product line is engineered to provide an intuitive, modular, and flexible experience, helping users understand the essential principles and preparing them to advance toward more complex systems.",
        "Specs": "Technical Specifications - System configuration: grid-connected.\n\n- Silicon cell photovoltaic panel\n\n- Adjustable tilt tabletop aluminum frame\n- 80 W photovoltaic panel\n- Tabletop control panel\n\n- Grid tie power inverter\n- Rated AC Output Power: 150 W\n- AC Output Voltage: 230 V\n- AC Output Frequency: 50 Hz\n- DC Input Voltage Range: 10.8 \u00f7 30V\n- Output Current Waveform: Pure Sinewave\n- Protection: Over Current, Over Temperature, Reverse Polarity, Anti-Island\n- Electric load: 230Vac lamp\n- Socket for output\n- Multifunction instrument, microprocessor-based\n- Indoor Lighting Device\n\nTraining Program\n\n- Components of a grid connected solar system for electricity production.\n- Effect of solar radiation on the panel output voltage.\n- Effects of shading on a real solar installation.\n- Photovoltaic panel energy conversion efficiency.\n- Interconnection of solar energy to the public grid.\n- Operation and efficiency of a DC\/AC inverter.",
        "Url": "edquip.co\/en\/de-lorenzo\/photovoltaic-system-on-grid",
        "Page title": "Photovoltaic System On-Grid: De Lorenzo - EDQUIP",
        "Page description": "Photovoltaic System On-Grid, teaching fundamentals in Solar PV. Request your quotation today! Free price estimations, suitable for technical schools & colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
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        "Packed dimensions unit": null,
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        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/PHOTOVOLTAIC SYSTEM ON-GRID\/PHOTOVOLTAIC SYSTEM ON-GRID_DL HC-SOLAR-GT-ET_De Lorenzo_PHOTOVOLTAIC SYSTEM ON-GRID.jpeg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-933469",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HC-WIND-OG-ET",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Wind Power Plant Trainer Off-Grid",
        "Description": "The Wind Power Plant Trainer Off-Grid is a practical learning system that demonstrates how wind energy can be converted into electricity independently from the grid.\n\nWith its horizontal-axis turbine, control interface, and storage unit, it gives students a clear, hands-on view of real wind power behavior.\n\nDesigned for educational environments, it offers an intuitive way to understand stand-alone wind generation and its performance under different conditions.\n\nThe EasyTech \u2013 Renewable Energies product line is designed as an entry-level solution that allows students, technicians, and new users to explore energy generation and management technologies in a practical, accessible, and safe way, all integrated into compact, didactic platforms built for progressive learning. Each EasyTech product line is engineered to provide an intuitive, modular, and flexible experience, helping users understand the essential principles and preparing them to advance toward more complex systems.",
        "Specs": "Technical Specifications - System configuration: Standalone (Isolated from the Grid).\n\n- Horizontal axis wind power generator\n\n- Rated power: 100W\n- Rated voltage: 12Vdc\n- Generator: Three phase AC permanent magnet synchronous generator\n- Simulated wind speed adjustable module\n- Tabletop control panel\n\n- Charge controller\n- Rated voltage: 12 Vdc\n- Rated current: 10A\n- Electric load: 12 Vdc lamp\n- Multifunction instrument, microprocessor-based\n- Buffer battery\n\n- Rated voltage: 12 Vdc\n- Capacity: 12 Ah",
        "Url": "edquip.co\/en\/de-lorenzo\/wind-power-plant-trainer-off-grid",
        "Page title": "Wind Power Plant Trainer Off-Grid",
        "Page description": "Wind Power Plant Trainer Off-Grid. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools and colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/WIND POWER PLANT TRAINER OFF-GRID\/WIND POWER PLANT TRAINER OFF-GRID_DL HC-WIND-OG-ET_De Lorenzo_WIND POWER PLANT TRAINER OFF-GRID.jpeg",
        "Video link": null,
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-364129",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HC-WIND-OGT-ET",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Wind Power Plant Trainer On-Grid & Off-Grid",
        "Description": "The Wind Power Plant Trainer On-Grid & Off-Grid offers complete hands-on experience to explore how wind energy can be used both independently and in connection with the public grid.\n\nWith its horizontal-axis generator, dual operating modes, and integrated control interface, it allows students to observe real wind power behavior in practical scenarios.\n\nDesigned for educational environments, it provides an intuitive path to understanding renewable generation, storage, and grid-tie operation.\n\nThe EasyTech \u2013 Renewable Energies product line is designed as an entry-level solution that allows students, technicians, and new users to explore energy generation and management technologies in a practical, accessible, and safe way, all integrated into compact, didactic platforms built for progressive learning. Each EasyTech product line is engineered to provide an intuitive, modular, and flexible experience, helping users understand the essential principles and preparing them to advance toward more complex systems.",
        "Specs": "- Technical Specifications - System configuration: On-Grid & off-Grid.\n- Horizontal axis wind power generator\n\n- Rated power: 100W\n- Rated voltage: 12Vdc\n- Generator: Three phase AC permanent magnet synchronous generator\n- Simulated wind speed adjustable module\n\n- Tabletop control panel\n\n- Grid tie power inverter\n- Rated AC Output Power: 150 W\n- AC Output Voltage: 230 V\n- AC Output Frequency: 50 Hz\n- DC Input Voltage Range: 10.8 \u00f7 30V\n- Output Current Waveform: Pure Sinewave\n- Protection: Over Current, Over Temperature, Reverse Polarity, Anti-Island\n- Charge controller\n\n- Rated voltage: 12 Vdc, rated current: 10A\n- Electric load: 12 Vdc lamp\n- Electric load: 230 Vac lamp\n- Socket for output\n- Multifunction instrument, microprocessor-based\n\n- Buffer battery\n- Rated voltage: 12 Vdc, Capacity: 12 Ah\n\n- Training Program\n\n- The combined on-grid wind system for electricity production.\n- Components of a stand-alone wind power system for electricity production.\n- Effect of the wind speed on the generator output voltage.\n- Wind generator energy conversion efficiency.\n- Operation and efficiency of a DC\/AC inverter.",
        "Url": "edquip.co\/en\/de-lorenzo\/wind-power-plant-trainer-on-grid--off-grid",
        "Page title": "Wind Power Plant Trainer On-Grid & Off-Grid",
        "Page description": "Wind Power Plant Trainer On-Grid & Off-Grid. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools and colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/WIND POWER PLANT TRAINER ON-GRID & OFF-GRID\/WIND POWER PLANT TRAINER ON-GRID & OFF-GRID_DL HC-WIND-OGT-ET_De Lorenzo_WIND POWER PLANT TRAINER ON-GRID & OFF-GRID.jpeg",
        "Video link": null,
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-834309",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HC-WIND-GT-ET",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Wind Power Plant Trainer On-Grid",
        "Description": "The Wind Power Plant Trainer On-Grid provides a clear and practical way to understand how wind energy can be fed directly into the public grid. With its horizontal-axis generator, grid-tie inverter, and integrated control interface, it allows students to observe real grid-connected wind behavior in a hands-on setting. Designed for educational environments, it offers an intuitive introduction to renewable generation and the fundamentals of AC power conversion.\n\nThe EasyTech \u2013 Renewable Energies product line is designed as an entry-level solution that allows students, technicians, and new users to explore energy generation and management technologies in a practical, accessible, and safe way, all integrated into compact, didactic platforms built for progressive learning. Each EasyTech product line is engineered to provide an intuitive, modular, and flexible experience, helping users understand the essential principles and preparing them to advance toward more complex systems.",
        "Specs": "- Technical Specifications - System configuration: Grid-connected.\n- Horizontal axis wind power generator\n\n- Rated power: 100W\n- Rated voltage: 12Vdc\n- Generator: Three phase AC permanent magnet synchronous generator\n- Simulated wind speed adjustable module\n\n- Tabletop control panel\n\n- Grid tie power inverter\n- Rated AC Output Power: 150 W\n- AC Output Voltage: 230 V\n- AC Output Frequency: 50 Hz\n- DC Input Voltage Range: 10.8 \u00f7 30V\n- Output Current Waveform: Pure Sinewave\n- Protection: Over Current, Over Temperature, Reverse Polarity, Anti-Island\n\n- Electric load: 230 Vac lamp\n- Socket for output\n- Multifunction instrument, microprocessor-based\n- Training Program\n\n- The combined on-grid wind system for electricity production.\n- Effect of the wind speed on the generator output voltage.\n- Wind generator energy conversion efficiency.\n- Operation and efficiency of a DC\/AC inverter.",
        "Url": "edquip.co\/en\/de-lorenzo\/wind-power-plant-trainer-on-grid",
        "Page title": "Wind Power Plant Trainer On-Grid",
        "Page description": "Wind Power Plant Trainer On-Grid. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools and colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
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        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/WIND POWER PLANT TRAINER ON-GRID\/WIND POWER PLANT TRAINER ON-GRID_DL HC-WIND-GT-ET_De Lorenzo_WIND POWER PLANT TRAINER ON-GRID.jpeg",
        "Video link": null,
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-205492",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL UH-CAN BUS",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Trainer for the study of CAN BUS communication protocol",
        "Description": "This trainer DL UH-CAN BUS, designed specifically for educational purposes, gives students access to one of the industry\u2019s most trusted data communication protocols, turning theory into real-world skills. It enables them to gain hands-on experience with one of the most widely used data communication protocols in the automotive industry, fostering experiential learning.\n\nIt is designed to demonstrate the structure and operation of the CAN bus system and data packets in a practical way. Students can observe the CAN bus under realistic conditions, understand the message construction logic (identifier, data field, bit stuffing, request, acknowledgement, data rate, among others), and discover how sensitive the system is to several types of faults.\n\nIntegrated lessons walk learners through each parameter step by step, giving them the ability to adjust and experiment in real time. Every change can be displayed on an automotive oscilloscope and further analysed using the built-in protocol decoder.\n\nThe simulator is not only a direct learning tool for students, but it also empowers instructors by serving as an effective resource during theoretical lessons. It is an invaluable aid for teaching subjects such as automotive communication networks and vehicle diagnostics.\n\nIn definitive, it enables students and instructors to:\n\n- Understand CAN bus fundamentals\n- Perform Real-Time experiments\n- Simulate Real-World conditions\n- Explore hardware interactions\n- Support theoretical and practical teaching",
        "Specs": "Technical Specifications\n\n- Key circuits and vehicle components highlighted on a vibrant, full-colour printed panel for clear visualization and easy understanding.\n- Experience real-world automotive networking with the original CAN protocol.\n- Main LCD display dedicated to monitor the transmitting node on the CAN bus line.\n- Two auxiliary LCD displays representing additional transmitting and receiving nodes on the CAN bus line.\n- Banana plug test points CAN H and CAN L positioned along the bus line for easy signal measurement and diagnostics.\n- Physical connection via twisted pair cable for authentic CAN bus communication.\n- Flexible to physically disconnect termination resistors at both ends of the CAN bus.\n- Supports live oscilloscope monitoring at multiple bus line measurement points:\n\n- Physical layer analysis\n- Communication decoding\n- Termination resistor analysis\n\n- Step-by-step lessons enabling precise adjustment of CAN parameters and message components:\n\n- Activity\n- Message refresh rate\n- Identifier (IDE)\n- Arbitration\n- Data packets (DATA)\n- Remote request (RTR)\n- Acknowledgement (ACK)\n- Bus communication speed\n- Bus load\n\n- Exam mode by identifying and decoding messages in real-time CAN bus communication.\n- Seven configurable fault scenarios, such as missing single or both terminating resistors, CAN-H\/CAN-L interruption (both ends), CAN-H and CAN-L short (both ends), CAN-H\/CAN-L short to GND (both ends) and a triggering communication fault (ACK missing), allowing instructors to create many fault finding scenarios for hands-on troubleshooting practice.\n\nGeneral Specifications\n\n- Safe operation with measurable voltage always  - Power supply: single-phase from the mains.\n- Equipped with a fuse.\n- Dimensions (L\u00d7D\u00d7H): approx. 760 \u00d7 320 \u00d7 440 mm.\n- Weight: approx. 15 kg.\n- Supplied with detailed practical manual.\n\nsupplied with detailed practical manual.",
        "Url": "edquip.co\/en\/de-lorenzo\/trainer-for-the-study-of-can-bus-communication-protocol",
        "Page title": "Trainer for the study of CAN BUS communication protocol: De Lorenzo - EDQUIP",
        "Page description": "Training equipment for the study of CAN BUS communication protocol. Request quotations today! Free price estimations, suitable for technical schools & colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/TRAINER FOR THE STUDY OF CAN BUS COMMUNICATION PROTOCOL\/TRAINER FOR THE STUDY OF CAN BUS COMMUNICATION PROTOCOL_DL UH-CAN BUS_De Lorenzo_DL UH-CAN BUS.jpg",
        "Video link": null,
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-782516",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL UH-CPS",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Trainer for the study of EV Charging Protocol",
        "Description": "This trainer DL UH-CPS, designed specifically for educational purposes, is an interactive High Voltage (HV) charging protocol simulator providing a realistic representation of how on-board charging systems operate in plug-in hybrid (PHEV) and fully electric vehicles (EV). It enables users to explore charging processes, communication protocols, and system behavior under various scenarios, making it an ideal tool for education and training.\n\nIt is designed to provide students with hands-on experience in understanding, diagnosing, and troubleshooting high-voltage charging systems within a controlled and safe environment that accurately reflects real-world technology.\n\nThe training system can interface with an external charging station via a Type 1 connector, accurately replicating the behavior of a real high-voltage electric vehicle and allowing the charging process to be observed and analyzed in real time. Equipped with banana plug terminals, the trainer allows easy connection of oscilloscopes or multimeters (not included) for direct measurement and in-depth analysis of communication signals such as CP (Control Pilot) and PP\/CS (Proximity Pilot\/Connection Signal).\n\nThe trainer enables adjustment of key parameters such as energy capacity, charging efficiency, and state of charge among others. Its integrated fault simulation feature allows instructors to introduce controlled issues like communication failures, circuit interruptions, or thermal overloads, producing authentic fault patterns and error codes. This hands-on approach gives students a realistic environment to practice diagnostics and troubleshooting.\n\nIn definitive, it enables students and instructors to:\n\nUnderstand the operation of on-board charging systems for EVs and PHEVs, Teach charging process, communication protocols, and system behavior, Enable diagnostics and troubleshooting practice, Allows real-time monitoring of charging via external charger (Type 1 connector), Support realistic parameter adjustments (energy capacity, charging efficiency, SOC).",
        "Specs": "Technical Specifications\n\nThe trainer has the following technical specifications:\n\n- A full-color printed panel displays the relevant circuits and vehicle components, providing a clear and intuitive visual reference for understanding system layout and functionality.\n- A main LCD screen provides real-time information on the current charging status, including:\n\n- Ready and connection status\n- CP voltage level\n- Fault codes\n\n- An auxiliary LCD screen provides:\n\n- State of Charge (SOC)\n- Battery voltage\n- Temperature\n- Equipped with an authentic Type 1 electric vehicle charging connector, ensuring realistic simulation of actual charging operations and compatibility with standard charging equipment.\n- Designed for seamless integration with external EV charging units, ensuring realistic simulation of real-world charging scenarios such as:\n\n- Mode 2 (EVSE - Electric Vehicle Supply Equipment)\n- Mode 3 (wall-box)\n\n- Integrated banana plug terminals provide convenient access for connecting test instruments for measurement and analysis of electrical signals such as:\n\n- CP (Control Pilot)\n- PP\/CS (Proximity Pilot\/Connection Signal)\n- PE (Potential Earth)\n\n- A LED indicator provides a clear visual signal of the charging system\u2019s operational status.\n- Adjustment of key vehicle parameters such as:\n\n- Static charging (fixed conditions) and dynamic charging (variable parameters)\n- High-Voltage (HV) battery\u2019s energy capacity\n- State of Charge (SOC), representing the current energy level of the high-voltage battery as a percentage\n- High-Voltage (HV) battery temperature, ensuring safe operation and enabling simulation of thermal conditions during charging\n- Charging system\u2019s efficiency, enabling realistic simulation of energy losses and performance under different conditions\n- Timing, adjustment of charging time parameters, enabling simulation of different charging durations\n\n- Eight configurable fault scenarios, such as communication errors, circuit interruptions, and thermal overloads, allowing instructors to simulate realistic charging system failures for hands-on troubleshooting practice.\n\nGeneral Specifications\n\n- Safe operation with measurable voltage always < 40 V.\n- Power supply: single-phase from the mains.\n- Equipped with a fuse.\n- Dimensions (L\u00d7D\u00d7H): approx. 760 \u00d7 320 \u00d7 440 mm.\n- Weight: approx. 15 kg.\n- Supplied with detailed practical manual.",
        "Url": "edquip.co\/en\/de-lorenzo\/trainer-for-the-study-of-ev-charging-protocol",
        "Page title": "Trainer for the study of EV Charging Protocol: De Lorenzo - EDQUIP",
        "Page description": "Trainer for the study of EV Charging Protocol. Request your quotation today! Quick price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": null,
        "Education level": null,
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/TRAINER FOR THE STUDY OF EV CHARGING PROTOCOL\/TRAINER FOR THE STUDY OF EV CHARGING PROTOCOL_DL UH-CPS_De Lorenzo_DL UH-CPS.jpg",
        "Video link": null,
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-810694",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HV-BST",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Trainer for the study of the Battery Pack in Electric Vehicles",
        "Description": "Many of the major challenges an automotive professional faces are related to diagnostics, maintenance and repair of HV batteries. Organizing a training day on high voltage batteries in a safe environment is considered an almost impossible task. The industry needs a system that will help them deliver high-quality, yet completely safe, high-voltage battery training to their colleagues and customers. This trainer DL HV-BST provides a modern and safe way to teach high voltage batteries to all training centres and institutes.",
        "Specs": "Technical Specifications\n\n- REALISTIC:\n\n- Resembles a real HV battery pack for vehicle traction\n- Contains 60 cells in series, arranged into 5 modules\n- Can be disassembled and reassembled down to the cellular level\n- Measurable battery pack voltages: from 120 to 490 V\n- Available measurements: V, m\u03a9, \u03a9, M\u03a9, A\n- Setup parameters: manufacturer, cell type, State of Charge (SoC) and capacity\n- Incorporated Diagnostic Trouble Codes (DTC) and live data varies with fault setup\n- Single cell cyclic charging simulator with revitalizing effect\n- Power supply: 230 Vac wall outlet to work\n- Easy to move: Less than 40 kgs total\n- Dimensions: approx. 120 x 60 x 25 cm\n\n- SAFE:\n\n- Suitable for classroom teaching\n- Less than 10 mA fault current due to accidental touch\n- Can be transported safely\n- Excludes hazardous chemical substances, no electro-chemical energy storage\n- Applies Augmented Reality for extra functions (e.g. thermal imaging)\n- Warning appears when dangerous measurement or mishandling detected\n- Adapts to all trainee audiences (secondary, higher education or professional level)\n\n- EFFECTIVE:\n\n- Simulates 19 different malfunctions from faulty cells to insulation error\n- 10 000 different fault finding scenarios (exam-mode)\n- Demonstrates 99 million different measuring iterations\n- Screen-mirroring function with projector or TV for better group trainings\n- No need for any external measuring equipment\n- Upkeep and maintenance is minimal\n\nIncluded Components\n\n- HV battery pack (1 pc)\n- Head unit (1 pc)\n- Measuring test leads and cables (2 pcs)\n- Power supply: 12Vdc\/3A (1 pc)\n- Supplied with detailed manual",
        "Url": "edquip.co\/en\/de-lorenzo\/trainer-for-the-study-of-the-battery-pack-in-electric-vehicles",
        "Page title": "Trainer for the study of the Battery Pack in Electric Vehicles: De Lorenzo - EDQUIP",
        "Page description": "Trainer for the study of the Battery Pack in Electric Vehicles. Request quotations today! Free price estimations, suitable for technical schools and colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/TRAINER FOR THE STUDY OF THE BATTERY PACK IN ELECTRIC VEHICLES\/TRAINER FOR THE STUDY OF THE BATTERY PACK IN ELECTRIC VEHICLES_DL HV-BST_De Lorenzo_DL HV-BST.jpg",
        "Video link": null,
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-391603",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HV-LST",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Trainer for the study of Battery Pack Disconnection in Hybrid and Electric Vehices",
        "Description": "This trainer DL HV-LST will help the students to easily and safely learn the steps for de-energising hybrid and electric vehicles equipped with various HV systems before performing them on a real vehicle with an HV system. De-energising can be carried out using a real two-step service plug and an interlock connector. In addition to de-energising, it is also possible to perform reference, residual voltage, insulation resistance, and equipotential measurements. It is equipped with three LCD monitors to display various information (statuses, fault codes, voltages, etc.). Its use is completely safe and in case of accidental contact, the voltage level does not exceed 40 V.",
        "Specs": "Technical Specifications\n\nThe trainer has the following technical specifications:\n\n- Display of relevant circuits and vehicle components on a colourful, printed panel\n- Three LCD displays for displaying current information such as:l\n\n- Voltages\n- Battery information\n- Fault codes\n- Interlock circuit status\n- Ready status\n- Emergency mode (failed READY)\n- Switching ON and OFF of contactors\n- Expiration of waiting time\n\n- Real two-step automotive service plug\n- Built-in waiting time counter\n- Removable inverter inspection cover\n- Possibility to perform two de-energising procedures:\n\n- Vehicles equipped with a service plug\n- Vehicles equipped with an interlock switch\n\n- 10 measurement points such as:\n\n- Auxiliary battery (+ removable negative terminal connector)\n- Interlock circuit (+ removable interlock switch)\n- Inverter (HV+ and HV-)\n- Equipotential points (inverter and HV battery)\n\n- Performing real measurements such as:\n\n- Reference measurement (multimeter or phase tester)\n- Residual voltage measurement (multimeter or phase tester)\n- Insulation resistance measurement (insulation resistance tester)\n- Equipotential measurement (multimeter or milliohm tester)\n\n- Supports real work processes such as:\n\n- Use of personal protective equipment (PPE)\n- Use of insulated tools and additional signals\n- Preparation of de-energising report\n\n- Safe operation, measurable voltage always < 40 V\n- Power supply: 110 \u00f7 230 Vac\n- Equipped with a fuse\nSupplied with detailed manual",
        "Url": "edquip.co\/en\/de-lorenzo\/trainer-for-the-study-of-battery-pack-disconnection-in-hybrid-and-electric-vehicles",
        "Page title": "Trainer for the study of Battery Pack Disconnection in Hybrid and Electric Vehices: De Lorenzo - EDQUIP",
        "Page description": "Trainer for the study of Battery Pack Disconnection in Hybrid and Electric Vehices. Request your quotation today! Quick price estimations available.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/TRAINER FOR THE STUDY OF BATTERY PACK DISCONNECTION IN HYBRID AND ELECTRIC VEHICLES\/TRAINER FOR THE STUDY OF BATTERY PACK DISCONNECTION IN HYBRID AND ELECTRIC VEHICLES_DL HV-LST_De Lorenzo_DL HV-LST.jpg",
        "Video link": null,
        "Main category": "Automotive Training Equipment & Systems"
    },
    {
        "Edquip ID": "PL-637600",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL 2152",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Kit for General Electronics",
        "Description": "The kit includes a set of components allowing a full course on general electronics to be developed. All components are mounted on a printed circuit board fixed to metal tacks anchored on transparent plastic material modules, allowing consequently the vision of the components and the related symbol silk screened on the PCB, the mechanical protection of the component, the electrical safety against accidental contacts and easy replacement of damaged components. All the modules are ready to be placed on a rubber circuit designer included in the kit. The set of modules is housed in briefcases. From the educational point of view, the student is trained in component recognition and in acquiring the manual skill necessary to realize a circuit following the diagrams reported in the handbook. Il kit DL 2152 necessita di un alimentatore come il nostro DL 2152AL.",
        "Specs": "Examples of Performable Exercises\n\n- Check of the fundamental laws of the electric networks\n- Study of circuits in transient and steady conditions\n- Characteristic measurements for different kinds of filters\n- Half and full-wave rectifiers\n- Applications of rectifier diodes and Zener diodes\n- Measurement of pnp and npn transistor\n- Study and applications of UJT and JFET transistors\n- Realization of different types of amplifiers\n- Study of SCR and its dc and ac applications\n- Realization of circuits with DIACs and TRIACs\n- Analysis of operational amplifiers and their applications\n\nList of Components\n\n- 4 linear potentiometers\n- 24 resistances, 2W\n- 1 VDR\n- 10 capacitors\n- 3 inductances\n- 4 diodes and 1 Zener diode\n- 1 switch\n- 1 rectifying bridge\n- 2 integrated circuits\n- 1 UJT\n- 1 DIAC\n- 4 transistors\n- 1 JFET\n- 1 TRIAC\n- 1 SCR\n- 30 cables of different lengths (10, 25, 50 cm)\n- 1 rubber circuit designer\n- 2 briefcases\n\nIl kit DL 2152 necessita di un alimentatore come il nostro DL 2152AL.",
        "Url": "edquip.co\/en\/de-lorenzo\/kit-for-general-electronics",
        "Page title": "Kit for General Electronics: De Lorenzo - EDQUIP",
        "Page description": "Kit for teaching general electronics. Request your quotation today, free price estimations, hands-on learning, suitable for technical schools and colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/KIT FOR GENERAL ELECTRONICS\/KIT FOR GENERAL ELECTRONICS_DL 2152_De Lorenzo_DL 2152.png",
        "Video link": null,
        "Main category": "Power Electronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-292806",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL 2160",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Kit for General Electricity",
        "Description": "The kit is composed of a set of components and devices that allow a practical demonstration of the most important laws of electricity and electromagnetism. All the components are mounted on metal or plastic bases complete with terminals for an easy connection of the test circuits through multiple jack cables.\n\nThe kit is supplied with a manual that outlines the different subjects of the practical exercises in a simple and progressive way. It is to be underlined the importance of the suggested method, which is based on the direct observation and quantification of the phenomena to highlight the fundamental scientific laws. Due to the simplicity of its components and to the guided testing procedures contained in the manual, this kit is suitable for courses both in electrophysics and electrical engineering. The tests can be carried out by students under full safety conditions.",
        "Specs": "Example of Performable Exercises\n\n- Compass\n- Magnetic field\n- Magnetic flux and induction\n- Electromagnetism\n- Magnetic circuits\n- Hysteresis cycle\n- Electric motor\n- Electrodynamic actions\n- Electromagnetic induction\n- Faraday's law\n- Lenz's law\n- Emf of self induction\n- Emf of mutual induction\n- Electric current\n- Direct current\n- First law of Kirchhoff\n- Electric current intensity\n- Electromotive force (emf) of a generator\n- Difference of potential or electric voltage\n- Ohm's law\n- Electric resistance\n- Electric resistivity\n- Non-ohmic resistor\n- Voltage drop\n- Internal resistance of a generator\n- Series and parallel generators\n- Series and parallel resistance\n- Electric power and energy\n- Potentiometer\n- Current shunt\n- Second law of Kirchhoff\n- Analysis of an electric network through Kirchhoff's laws\n- Mesh currents\n- Superposition effect\n- Thevenin's theorem\n- Electric efficiency\n- Norton's theorem\n- The relay\n- Joule effect\n- Thermoelectric effect\n- Thermocouple\n- Eddy currents\n- Electric field\n- Capacitors and capacitance\n- Single-phase alternating current\n- Pure resistance\n- Pure inductance\n- Pure capacitance\n- Phase shift between two signals\n- Series RL and RC circuits\n- Active, reactive and apparent power\n- Series resonance\n- Inductive reactance depending on frequency\n- Capacitive reactance depending on frequency\n- Parallel RL and RC circuits\n- Series and parallel capacitors\n- Parallel resonance\n- Miniature transformer\n- Electrolytic dissociation and conduction in solutions\n\nList of Components\n\n- Resistor, 12\u03a9, 5W\n- Resistor, 120\u03a9, 5W\n- Resistor, 220\u03a9, 5W\n- Resistor, 330\u03a9, 5W (2 pcs)\n- Resistor, 1k\u03a9, 2W\n- Resistor, 2.7k\u03a9, 2W\n- Battery, 1.5V with holder (2 pcs)\n- Lamp, 24V 21W with holder\n- Lamp, 24V 10W with holder\n- Lamp, 24V 5W with holder\n- Magnets (pair)\n- Compass\n- Rectilinear conductor\n- Iron filings\n- Turn\n- Movable turn\n- Solenoid\n- Coil, 500+500 turns\n- Inductance\n- Transformer, 20\/10V, 2VA\n- Moving iron instrument\n- Power supply\n- Iron core\n- Aluminum core\n- Iron cylinder\n- Capacitor, 1\u00b5F\n- Capacitor, 2.2\u00b5F\n- Capacitor, 3.3\u00b5F\n- Parallel wires\n- Moving coil instrument\n- Hot wire instrument\n- Thermocouple\n- Braking pendulum\n- Switch\n- NiCu (constantan) resistor\n- NiCr (nickel-chrome) resistor\n- Potentiometer, 1k\u03a9\n- Relay\n- Glass with mixer\n- Stainless steel electrode\n- Brass electrode\n- Copper sulphate\n- Set of leads\n- Multimeters",
        "Url": "edquip.co\/en\/de-lorenzo\/kit-for-general-electricity",
        "Page title": "Kit for General Electricity: De Lorenzo - EDQUIP",
        "Page description": "Kit for teaching General Electricity. Request your quotation today, free price estimations, hands-on learning, suitable for technical schools and colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/KIT FOR GENERAL ELECTRICITY\/KIT FOR GENERAL ELECTRICITY_DL 2160_De Lorenzo_DL 2160.jpg",
        "Video link": null,
        "Main category": "Power Electronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-405987",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HC-SOLAR-OGT-ET",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Photovoltaic System On-Grid & Off-Grid",
        "Description": "The Photovoltaic System On-Grid & Off-Grid offers a complete learning experience that demonstrates how solar energy can be used both independently and in connection with the public grid. Through its integrated panel, control interface, and dual operating modes, it allows students to explore real solar power behavior in a clear and practical way. Designed for modern training environments, it provides an intuitive approach to understanding solar generation, storage, and grid interaction. The EasyTech \u2013 Renewable Energies product line is designed as an entry-level solution that allows students, technicians, and new users to explore energy generation and management technologies in a practical, accessible, and safe way, all integrated into compact, didactic platforms built for progressive learning. Each EasyTech product line is engineered to provide an intuitive, modular, and flexible experience, helping users understand the essential principles and preparing them to advance toward more complex systems.",
        "Specs": "Technical Specifications - System Configuration\n\n- Grid-connected & off-grid system\n- Silicon cell photovoltaic panel\n\n- Adjustable tilt tabletop aluminum frame\n- 80 W photovoltaic panel\n\n- Tabletop control panel\n\n- Grid tie power inverter\n- Rated AC Output Power: 150 W\n- AC Output Voltage: 230 V\n- AC Output Frequency: 50 Hz\n- DC Input Voltage Range: 10.8 \u00f7 30 V\n- Output Current Waveform: Pure Sinewave\n- Protection: Over Current, Over Temperature, Reverse Polarity, Anti-Island\n\n- Charge controller\n\n- Rated voltage: 12 Vdc\n- Rated current: 10 A\n\n- Electric load: 230 Vac lamp\n- Socket for output\n- Electric load: 12 Vdc lamp\n- Multifunction instrument, microprocessor-based, indoor lighting device to operate the photovoltaic panel indoors\n\nTraining Program\n\n- Components of a grid connected solar system for electricity production\n- Components of a stand-alone solar system for electricity production\n- Effect of solar radiation on the panel output voltage\n- Effects of shading on a real solar installation\n- Photovoltaic panel energy conversion efficiency\n- Interconnection of solar energy to the public grid\n- Operation and efficiency of a DC\/AC inverter",
        "Url": "edquip.co\/en\/de-lorenzo\/photovoltaic-system-on-grid--off--grid",
        "Page title": "Photovoltaic System On-Grid & Off-Grid: De Lorenzo - EDQUIP",
        "Page description": "Photovoltaic System On-Grid & Off-Grid. Request your quotation today! Hands-on Training. Free price estimations, suitable for technical schools & colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/PHOTOVOLTAIC SYSTEM ON-GRID & OFF- GRID\/PHOTOVOLTAIC SYSTEM ON-GRID & OFF- GRID_DL HC-SOLAR-OGT-ET_De Lorenzo_DL HC-SOLAR-OGT-ET.jpeg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-508295",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HC-SOLWIND-OG-ET",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Photovoltaic-Wind Power Plant Trainer Off-Grid",
        "Description": "The Photovoltaic-Wind Power Plant Trainer Off-Grid offers a practical way to explore how solar and wind energy can work together to produce electricity independently from the grid. With its integrated panel, wind generator, and control interface, it provides students with a clear, hands-on look at the behavior of renewable systems in real conditions. Designed for educational environments, it delivers an intuitive introduction to off-grid energy generation using two complementary sustainable sources.The EasyTech \u2013 Renewable Energies product line is designed as an entry-level solution that allows students, technicians, and new users to explore energy generation and management technologies in a practical, accessible, and safe way, all integrated into compact, didactic platforms built for progressive learning. Each EasyTech product line is engineered to provide an intuitive, modular, and flexible experience, helping users understand the essential principles and preparing them to advance toward more complex systems.",
        "Specs": "Technical Specifications\n\nSystem configuration: Off-Grid\n\n- Horizontal axis wind power generator\n\n- Rated power: 100W\n- Rated voltage: 12Vdc\n- Generator: Three phase AC permanent magnet synchronous generator\n- Simulated wind speed adjustable module\n\n- Silicon cell photovoltaic panel\n\n- Adjustable tilt tabletop aluminum frame\n- 80 W photovoltaic panel\n\n- Charge controller\n\n- Rated voltage: 12 Vdc\n- Rated current: 20A\n- Electric load: 12 Vdc lamp\n- Multifunction instrument, microprocessor-based\n- Buffer battery\n\n- Rated voltage: 12 Vdc\n- Capacity: 12 Ah\n\n- Indoor Lighting Device\n\n- To operate the photovoltaic panel indoors\n\nTraining Program\n\n- Components of a stand-alone solar system for electricity production.\n- Effect of solar radiation on the panel output voltage.\n- Effects of shading on a real solar installation.\n- Photovoltaic panel energy conversion efficiency.\n- Components of a stand-alone wind power system for electricity production.\n- Effect of the wind speed on the generator output voltage.\n- Wind generator energy conversion efficiency.",
        "Url": "edquip.co\/en\/de-lorenzo\/photovoltaic-wind-power-plant-trainer-off-grid",
        "Page title": "Photovoltaic-Wind Power Plant Trainer Off-Grid: De Lorenzo - EDQUIP",
        "Page description": "Photovoltaic-Wind Power Plant Trainer Off-Grid. Hands-on Training. Request quotations today! Free price estimations, suitable for technical schools & colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Photovoltaic-Wind Power Plant Trainer Off-Grid\/Photovoltaic-Wind Power Plant Trainer Off-Grid_DL HC-SOLWIND-OG-ET_De Lorenzo_DL HC-SOLWIND-OG-ET.jpeg",
        "Video link": null,
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-841482",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HC-SOLWIND-GT-ET",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Photovoltaic-Wind Power Plant Trainer On-Grid",
        "Description": "The Photovoltaic-Wind Power Plant Trainer On-Grid provides a clear, hands-on way to understand how solar and wind energy can feed directly into the public grid. By combining a photovoltaic panel, a wind generator, and a grid-tie inverter, it lets students explore real grid-connected behavior in a practical setting. Designed for educational environments, it offers an intuitive experience for learning how renewable systems generate power and interact with the electrical grid.The EasyTech \u2013 Renewable Energies product line is designed as an entry-level solution that allows students, technicians, and new users to explore energy generation and management technologies in a practical, accessible, and safe way, all integrated into compact, didactic platforms built for progressive learning. Each EasyTech product line is engineered to provide an intuitive, modular, and flexible experience, helping users understand the essential principles and preparing them to advance toward more complex systems.",
        "Specs": "Technical Specifications\n\nSystem configuration: (On-Grid)\n\n- Horizontal axis wind power generator\n\n- Rated power: 100W\n- Rated voltage: 12Vdc\n- Generator: Three phase AC permanent magnet synchronous generator\n- Simulated wind speed adjustable module\n\n- Silicon cell photovoltaic panel\n\n- Adjustable tilt tabletop aluminum frame\n- 80 W photovoltaic panel\n\n- Grid tie power inverter\n\n- Maximum input voltage (DC): 180 W\n- AC Output Voltage: 230 V\n- AC Output Frequency: 50 Hz\n- DC Input Voltage Range: 10.8 \u00f7 30V\n- Output Current Waveform: Pure Sinewave\n- Protection: Over Current, Over Temperature, Reverse Polarity, Anti-Island\n\n- Electric load: 230Vac lamp\n- Multifunction instrument: microprocessor-based\n\nTraining Program\n\n- Components of a grid connected solar system for electricity production.\n- Effect of solar radiation on the panel output voltage.\n- Effects of shading on a real solar installation.\n- Photovoltaic panel energy conversion efficiency.\n- Components of a grid connected wind power system for electricity production.\n- Effect of the wind speed on the generator output voltage.\n- Wind generator energy conversion efficiency.\n- Operation and efficiency of a DC\/AC inverter.",
        "Url": "edquip.co\/en\/de-lorenzo\/photovoltaic-wind-power-plant-trainer-on-grid",
        "Page title": "Photovoltaic-Wind Power Plant Trainer On-Grid: De Lorenzo - EDQUIP",
        "Page description": "Photovoltaic-Wind Power Plant Trainer On-Grid. Hands-on Training. Request quotations today! Free price estimations, suitable for technical schools & colleges.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Photovoltaic-Wind Power Plant Trainer On-Grid\/Photovoltaic-Wind Power Plant Trainer On-Grid_DL HC-SOLWIND-GT-ET_De Lorenzo_DL HC-SOLWIND-GT-ET.jpeg",
        "Video link": null,
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-552214",
        "Product Type": "hardware",
        "Producer": "ID System Didactic",
        "Producer product number": "AERO-MINI",
        "Content languages": "en, fr, de, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Aircraft Maintenance Trainer",
        "Description": "This equipment has been especially designed to put different level students\/learners in the conditions of learning aeronautical hydraulics by associating hydraulic industrial technology components. We relied on the skills and experience of a teacher graduated from the French National Education and former mechanical engineer sailing in the French Air Force to develop this training equipment.\n\nThe educational goal is to identify the different components of an aeronautical hydraulic kinematic chain, to connect them hydraulically and electrically thanks to the different component modules and the electric power unit control while respecting the safety conditions essential to your profession. That is why we made the choice to protect the operating parts, double the hydraulic and electrical safeties as well as to protect the hoses from jet socks and anti-whip cables.\n\nWe have also created a black box, accessible only to the teaching staff, which makes it possible to trigger electrical failures on the circuits. A trouble shooting kit also makes possible to diagnose hydraulic failures at different places of the circuit. The bench provides the best conditions to learners to understand the technical specificities and the safety constraints related to the hydraulic aeronautics.",
        "Specs": null,
        "Url": "edquip.co\/en\/id-system\/aircraft-maintenance-trainer",
        "Page title": "aircraft-maintenance-trainer",
        "Page description": "The Aircraft Maintenance Trainer helps the instructor to introduce learners to hydraulics in aviation, with fault injection, suitable for vocational training.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "100-127V",
            "220-240V",
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023.00.00",
        "Equipment dimensions": "212\/154\/170",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "500",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "222\/164\/190",
        "Packed dimensions unit": "cm",
        "Packed weight": "700",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ID System Didactic\/Aircraft Maintenance System\/Aircraft Maintenance System_AERO-MINI_ID System Didactic__DSF5728-Photoroom.png",
        "Video link": null,
        "Main category": "Aviation Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-857519",
        "Product Type": "hardware",
        "Producer": "Horizon Educational",
        "Producer product number": "FCAT-30",
        "Content languages": "en",
        "Targeted audience": "Technicians",
        "Training types": [
            "Documentation"
        ],
        "Name": "Fuel Cell Automotive Trainer",
        "Description": "The H2Hybrid Fuel Cell Automotive Trainer is the ultimate tool for exploring science and engineering concepts through hands-on activities with a working fuel cell car. An impressive array of hardware, software, and digital curricular materials allow for hours of activities for students of everything from high school vocational-technical up through college-level engineering.\n\n- Engineer new solutions for optimization of car\u2019s performance\n- Examine the three fields of energy management\n- Comprehend hybrid propulsion technology and work to minimize environmental impacts\n- Learn about data acquisition and discover how to manipulate, analyze and interpret graphs and data gathered from the car on the road and on the bench\n- Understand the expected performance of a fuel cell system and how to get to optimum operation\n- Explore the difference between expected performance and experimental results\n\nCURRICULUM & LEARNING EXPERIENCE\n\nCar systems\n\n- Steering and Propulsion\n- Using Electrical Energy to Power the Vehicle\n- Transmitting Mechanical Energy\n- Speed and Consumption of Energy\n- Measuring Changes in Electrical Energy\n\nThe role of Hydrogen\n\n- Understanding the hydrogen fuel cell\n- Understanding modern batteries\n- Comparing sources of electricity\n\nEnergy needs\n\n- Using models to describe the car\u2019s motion\n- MATLAB & OpenModelica: Simulating the car\u2019s motion\n- Making measurements on the track\n- Making measurements on the charging bench\n\nSystem adaptability\n\n- Providing power\n- H-Cell power\n- Influence of the arrangement of the components of the fuel cell\n- Effects of the arrangement of the Hydrostiks\n\nManufacturer's desicions\n\n- Making measurements on the track\n- Making measurements on the charging bench\n- Energy consumption\n- Sustainable development\n\nCustomizing your car\n\n- Changing how you drive\n- Changing the components of the energy system of the car\n- Reducing various forms of resistance to motion\n- Changing the mode of hydrogen production",
        "Specs": null,
        "Url": "edquip.co\/en\/horizon-educational\/fuel-cell-automotive-trainer",
        "Page title": "Fuel Cell Automotive Trainer: Horizon Educational - EDQUIP",
        "Page description": "Hybrid battery & hydrogen fuel cell automotive system. Designed for technical education and training. Request your quotation today! Get free price estimation.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Horizon Educational\/Fuel Cell Automotive Trainer\/h2hybrid_fuel_cell_automotive_trainer_pack_small.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/Sk07u7tzn1g?si=wvohU7LoJV2h6xBi",
        "Main category": "Fuel Cell Training Systems"
    },
    {
        "Edquip ID": "PL-472413",
        "Product Type": "hardware",
        "Producer": "DENSO Robotics",
        "Producer product number": "CVR038A1-NV6-NNC-NNNPA-NNNA",
        "Content languages": "en, de, es, it, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "Documentation",
            "Live online",
            "In person"
        ],
        "Name": "Cobotta",
        "Description": "With a unit weight of only 4 kg and an integrated controller, as well as comprehensive safety features, the collaborative robot COBOTTA is perfect for educational areas, easy to transport and can be quickly put to work; thanks to its graphically designed App \u201eCobette World\u201c, the robot is truly easy to operate.\n\nIt makes it easy to program typical applications e.g. pick & place tasks by using a tablet. The collaborative robot COBOTTA has been developed as an open platform to fulfil the range of different level of education: from 1st time user to robot programming expert and for R&D purpose.\n\nBenefits in education area:\n\n- Comprehensive Software Packages included: App COBOTTA World, App remote TP, Vision software, PC based offline robot programming & 3D Simulation\n\n- Portable for variety locations within educational areas\n\n- No additional safety equipment required (depending on the application and risk analysis)\n\n- High level programming language adaptation possible",
        "Specs": "Arm length: 342.5 mm (TCP 385 mm)\n\nPayload: 0.5 kg (*0.7 kg wrist direction downward within \u00b1 10 degrees)\n\nPosition repeatability: \u00b1 0.05 mm\n\nTotal arm weight incl. built-in controller: 4 kg\n\nTablet\/App based intuitive online direct teaching\n\nPC based offline\/online robot programming and 3D Simulation Software\n\nHigh level programming languages e.g. Python, C++, Java, Visual Basic, LabVIEW, et\n\nOpen platform: ROS connectivity (PC or built-in)\n\nInternal cabling PoE to upper arm\n\nLAN connection Ethernet TCP\/IP\n\nE-Stop incl. cable and connector\n\nPower cable (5m)\n\nOptions:\n- Built-in electrical gripper (force controlled)\n- Built-in vacuum gripper with integrated electrical vacuum generator\n- Built-in A\/F 2D camera incl. vision software\n- Field Network Module (ProfiNET, EtherCAT, Ethernet\/IP)\n- Mini I\/O cable (8m) incl. safety I\/O\n- Baseplate (to place on table without add. mounting)",
        "Url": "edquip.co\/en\/denso-robotics\/cobotta",
        "Page title": "Cobotta Collaborative Robot: Denso - EDQUIP",
        "Page description": "This 4kg robot is easy to move, collaborative and safe. Used by educational institutions to teach robotics and programming, suitable for schools and colleges.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Industry-Grade Equipment",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/DENSO\/Cobotta\/denso_robotics_cobotta_graphics.png",
        "Video link": null,
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-984309",
        "Product Type": "hardware",
        "Producer": "ATT - Advanced Training Technologies",
        "Producer product number": "Standard",
        "Content languages": "en, de",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "HydroDidact Standard",
        "Description": "Application: Attachment for group lessons in theory and practical teamwork Training objective:\n\n- Representation of the functions of individual components of the hydraulic circuits.\n- Representation of the functions of individual components of the hydraulic circuits.\n- Build hydraulic circuits and connect with electrical and electronic components of the control technology.\n- Capture system-internal processes and troubleshooting with standard measuring instruments.\n- Acceptance of knowledge tests.\n\nHighlights: Control and visualization of all measured and setpoint values on tablet, smartphone and PC",
        "Specs": "Technical details:\n\n- Container size: approx. 40 liters\n- Pump capacity: double pump (2x ca. 5,9 l\/min)\n- Operating pressure: 120 bar\n- Drive power: 3 KW\n- Frequency: 50 Hz\n- Magnetic voltage: 24V",
        "Url": "edquip.co\/en\/att\/HydroDidact-Standard",
        "Page title": "HydroDidact Standard: Advanced Training Technologies - EDQUIP",
        "Page description": "A training system to teach students about Hydraulics in a hands-on and applied manner. Control and visualization on tablet, smartphone and PC. Learn more about ",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ATT\/HydroDidact Standard\/ATT_HydroDidact_Standard_front.jpg",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-799027",
        "Product Type": "hardware",
        "Producer": "ASTI Automation",
        "Producer product number": "AA700.000.01",
        "Content languages": "en, ro",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Advanced Smart Flexible Assembly Training System",
        "Description": "Industry 4.0 is a meaningful term that includes technologies and concepts of value chain organization. On its foundation lays the latest technological concepts such as Cyber - Physical Systems (CPS), Internet of Things (IoT) and Internet of Services (IoS) thus facilitating the vision of a Future Digitalized Factory.\n\nDecentralized decision-capable Cyber-Physical Systems monitor the physical processes and create a virtual copy of the physical world that is analyzed in real-time to provide support for the decision - making process.\n\nThe real - time connection between various CPSs and humans is ensured over the Internet of Things. Internal and external services can be offered and used by participants of the value chain organizations over the Internet of Services.\n\nAsti Automation has been committed to developing a flexible and comprehensive automation solution based on the latest Industry 4.0 concepts. The Flexible Assembly Line for Future Digitalized Factory has been designed to meet the highest standards imposed by the 4th industrial revolution: \u200b\n\n- Modularity\u200b;\n- Real-Time Capability\u200b;\n- Decentralization\u200b;\n- Interoperability\u200b;\n- Virtualization\u200b;\n- Service Orientation\u200b.\n\nThe assembly line comprises of modular assembly stations and the transport system.\u200b\n\nThe assembly line area:\n\nThe production and the assembly of the work pieces demand requirements on production in accordance with the industrial revolution Industry 4.0. To meet these requirements, the system includes:\n\n- modularity;\n- RFID technology;\n- standard communication interfaces;\n- service-oriented program architecture;\n- mobility\u200b.\n\nThe transport area:\n\nAn intelligent flow of the work pieces and networked processes are important facts for Industry 4.0. The training system offers a versatile training and research platform for a great range of logistical goals:\n\n- RFID technology;\n- automatic warehouse;\n- service-oriented program architecture;\n- production stores;\n- pallet transfer system;\n- autonomous transport robot;\n- MES\/ERP.",
        "Specs": "ADVANCED SMART FLEXIBLE ASSEMBLY TRAINING SYSTEM includes:\n\nSTATION 1\nAA200.000.02 WorkstationM (800 x 800 x750) with Modular Supply Panel\nAA048.001.03 PLC S7-1500 TRAINING PANEL (CPU 1516-3PN DP)\nAA071.000.03 TP1500 COMFORT HMI TRAINER\nAA094.100.04 Conveyor Belt with Asynchronous AC Motor & IO-Link encoder\nAA042.000.02 SINAMICS G120 \u2013 1AC 230 V DIDACTIC PANEL\nAA095.000.01 Compact Pneumatic PALLET Storage Unit\nAA094.200.01 RFID \u2013 SIEMENS RF300\nAA054.000.01 IWLAN ACCES POINT\n\nSTATION 2\nAA200.000.02 WorkstationM (800 x 800 x750) with Modular Supply Panel\nAA017.001.03 PLC S7-1200 TRAINING PANEL(CPU 1215C)\nAA094.100.05 Conv. Belt with BRUSH DC MOTOR and CAN\nAA095.000.02 Compact Pneumatic BASE PIECE Storage\nAA406.000.03 ADFWEB PN-CAN CONVERTER\n\nSTATION 3\nAA200.001.02 WorkstationMR (800 x 800 x750) with Modular Supply Panel\nAA096.000.01 ABB iRB120 (IRC5 Compact)\nAA096.001.01 Griper PTM mecat.(electronic ModBus RTU comm.)\nAA096.002.01 CAGE (safety for ROBOT)\nAA094.100.01 Conveyor Belt with Synchronous Servomotor SIEMENS\nAA094.000.01 SINAMICS S120 Training Panel\nAA095.000.05 Compact Pneumatic INDEX Unit\nAA096.003.01 VISION 3D CAMERA \u2013 COLOR COGNEX 7010 SERIES\n\nSTATION 4\nAA200.000.02 WorkstationM (800 x 800 x750) with Modular Supply Panel\nAA063.000.02 ET200SP TRAINING PANEL (PROFINET& DI\/DO)\nAA094.100.05 Conveyor Belt with BRUSH DC MOTOR and CAN\nAA095.000.03 Compact Pneumatic TOP PIECE Storage\nAA095.000.04 Compact PRESS PIECES\nAA095.100.01 3D PIECES ( 5 sets)\n\nSTATION 5\nAA200.000.02 WorkstationM (800 x 800 x750) with Modular Supply Panel\nAA094.100.03 Conveyor Belt with BRUSHLESS DC MOTOR and CAN\nAA095.000.06 Compact Pneumatic Assembled Pieces Storage Unit\nAA088.000.01 Sentron PAC3200 Training Panel\nAA089.000.02 ENERGY METER TRAINING PANEL (6 Chann. MEAS.)\nAA089.100.02 SOCKETS PANEL\nAA054.100.01 IWLAN CLIENT\nAA059.000.09 AIR Compressor SUPERSILENT STAGER\n\nAPPLICATION SOFTWARE & \u201dON-SITE\u201d integration, cables, training (2 days)",
        "Url": "edquip.co\/en\/asti-automation\/advanced-smart-flexible-assembly-training-system",
        "Page title": "Smart Flexible Assembly Training System: ASTI - EDQUIP",
        "Page description": "This training stystem is designed to teach Manufacturing and Industry 4.0, with five workstations it covers various steps in the production chain, learn more!",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ASTI Automation\/Advanced Smart Flexible Assembly Training System\/Advanced Smart Flexible Assembly Training System (AA700.000.01).png",
        "Video link": null,
        "Main category": "Manufacturing Training Systems"
    },
    {
        "Edquip ID": "PL-254212",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL THERMO-A12",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Trainer For The Study Of Solar Thermal Energy With Real And Simulated Collector",
        "Description": "Didactic system for the theoretical and practical study of solar power facilities used to obtain hot water for sanitation, air conditioning and similar services.\n\nIt is a forced circulation system with a wide range of didactic applications. It incorporates six temperature probes available at four different points, and a solar irradiation sensor that is used to calculate energy.\n\nComplete with connecting cables, experiment manual and software for data acquisition from the solar controller and processing.\n\nTRAINING OBJECTIVES\n\n-  Identification of all components and how they are associated with its operation.\n-\n- Interpretation of the technical parameters of all components.\n- Local control of the processor\n- Heating and check of the convector heater\n- Forcing the reserve energy\n- Forcing the recirculation pump\n- Sizing criteria for domestic hot water facilities, air conditioning, etc.\n- Assembly and maintenance criteria for facilities.\n- Interpretation of situational data supplied by the control.",
        "Specs": "The trainer is composed of four operating units, as follows:\n\nMAIN MODULE\n\nDimensions 1000 x 650 x 1650 mm., front panel with the block diagram of the system. It contains the components for the circulation, storage and control of the liquid in the primary and secondary circuits. These components are placed vertically on a base, facilitating comfortable access to all parts for assembly and disassembly operations carried out during the practical sessions described in your handbook. The front control panel is placed in the top part of the main module and it is composed of: block diagram of the system, electronic control centre with an LCD screen for the visualization of the data, situation lights. The hydraulic sockets for cold water inlet, hot sanitary water outlet, connection to the solar panel, etc., are located at the back of the module.\n\n2x COLLECTORS\n\nIn this trainer there are two solar panels. The first one is a real collector placed in a metal structure and connected to the main module through flexible pipes, provided with discharge, safety and filling valves. The second one is a simulator of a collector supplied by the mains for the use in classroom. Both panels can be connected to the main module, one at a time.\n\nCONVECTOR HEATER\n\nAs a means of applying the hot water produced, a convector heater is available for use. It is connected through flexible pipes. This component allows us to experiment with the effects of hot water obtained with this system. However, the system is sufficiently open to permit easy use with other applications, such as hot sanitary water supply, under-floor heating, etc.\n\nALTERNATIVE: DL THERMO\u2010A1\n\nTrainer with a simulator of a collector supplied by the mains, instead of a real solar panel, to allow performing the practical exercises in a classroom.\n\nALTERNATIVE: DL THERMO\u2010A2\n\nTrainer with a real collector placed in a metal structure and connected to the main module through flexible pipes, provided with discharge, safety and filling valves.\n\nApprox. packing dimensions: 1.52 x1.77x 2.28 m. Net weight: 408 kg. Average training hours: 15 h.",
        "Url": "edquip.co\/en\/de-lorenzo\/solar-thermal-energy-trainer",
        "Page title": "Solar Thermal Energy Trainer: De Lorenzo - EDQUIP",
        "Page description": "Solar Thermal Energy Trainer. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "100 x 650 x 160",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "380",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "152 x 177 x 228",
        "Packed dimensions unit": "cm",
        "Packed weight": "408",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Solar Thermal Energy Trainer\/Solar Thermal Energy Trainer_DL THERMO-A12 xs.jpg",
        "Video link": null,
        "Main category": "Solar Thermal Training System"
    },
    {
        "Edquip ID": "PL-887964",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL WIND-A2",
        "Content languages": "en, es, it, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Wind Energy Advanced Trainer",
        "Description": "Modular trainer for the theoretical and practical study of the electric energy generation from a micro-grid wind turbine. With the Wind Energy Advanced Trainer it is possible to perform experiments to determine the characteristics of a wind generator, study its off-grid operation with a battery charge regulator and its on-grid operation with the connection to the mains network.\n\nTRAINING OBJECTIVES\n\nStudy of wind turbine:\n\n- Identification of wind turbine components.\n- Operating the Wind Turbine Breaker.\n- Calculating wind power.\n- Measuring Wind turbine electrical power.\n- Study of wind turbine with load.\n\nStudy of off-grid wind system:\n\n- Dimensioning of an off-grid wind system.\n- Battery regulating and charging.\n- Supplying DC load with wind power stored in a battery.\n- Supplying AC load with wind power and a battery.\n- Calculating the system autonomy with different loads.\n\nStudy of on-grid wind system:\n\n- Measuring the electricity produced by the wind generator, delivered\/taken from the mains grid, and the loading of AC lamps.\n- Calculating the efficiency of the complete on-grid wind energy system.\n- Investigating the response of a wind system to a mains failure.\n- Energy balance.\n\nWaveform studies with optional DL 9026N module:\n\n- Determining the waveform of the wind generator output voltage and current.\n- Determining the waveform of the off-grid inverter's output voltage and current.\n- Determining the waveform of the on-grid inverter's output voltage and current.",
        "Specs": "TECHNICAL SPECIFICATIONS\n\n- Three phase rectifier bridge module.\n- DC load module. It includes a 20W dichroic lamp and 3W LED lamps, with independent switches.\n- A load management module with three independent single-phase outputs for the dynamic study of different load types.\n- Network monitor module used to measure electrical parameters in a single phase circuit.\n- A circuit breaker module.\n- Fixed single phase power source rated at mains voltage with auxiliary 12 Vdc fixed regulated voltage output to power measurement modules.\n- 100Ah battery with battery protection module.\n- Motor\/generator group for the simulation of a wind turbine. Composed of a brushless motor and a three-phase permanent magnet generator.\n- Control module for brushless motor drive\n- Off-grid inverter module, with pure sine wave output at mains voltage.\n- Wind turbine charge controller with brake system.\n- Active DC load used in the renewable energies laboratories configurable as constant resistance or constant current.\n- Multifunction measurement module for wind applications: It includes four separate instruments to measure all fundamental parameters for the study of a wind-system.\n- A grid-tie inverter, with output at mains voltage.\n- Three level frame.\n\nA software developed in LabVIEW is supplied with the Wind Energy Advanced Trainer. It is able to communicate with the main components of the modular system, in order to perform a data acquisition and processing\n\nOptional module:\n\nDL 9026N - Three-phase waveform acquisition module:\n\n- Selectable single-phase AC multi-meter to measure V, I, P, Q, and S.\n- Data acquisition board to observe the voltage and current waveforms of the 3 phases simultaneously with isolated input.\n- Comes with data acquisition SW developed in Labview for waveform visualization.",
        "Url": "edquip.co\/en\/de-lorenzo\/wind-energy-advanced-trainer",
        "Page title": "Wind Energy Advanced Trainer: De Lorenzo - EDQUIP",
        "Page description": "Wind Energy Advanced Trainer. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "190 X 35 X 110",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "40",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "112 x 112 x 78",
        "Packed dimensions unit": "cm",
        "Packed weight": "185",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Wind Energy Advanced Trainer\/Wind Energy Advanced Trainer_DL WIND-A2 xs.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/PjQZd9QC4Xs",
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-621654",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SOLAR-AT",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Photovoltaic Solar Energy Advanced Trainer",
        "Description": "Modular trainer for the theoretical and practical study of the electric energy generation from photovoltaic panels. With the Photovoltaic Solar Energy Advanced Trainer it is possible to perform experiments to determine the characteristics of a photovoltaic panel, study its off-grid operation with a battery charge regulator and its on-grid operation with the connection to the mains network. The complete system is supplied with a sun simulation module for indoor use.\n\nTRAINING OBJECTIVES\n\n- Measuring solar radiation: Changing the inclination and azimuth of the solar panel\n-\n- Investigating the PV module response to shadow formation\n- Recording the characteristics of the solar modules: Solar Panel Voltage-Irradiation Curve, Solar Panel Current-Irradiation Curve (calculating the inner resistance of the solar panel), Obtaining the solar panel current-voltage curve, Obtaining the solar panel current-power curve, Measurement of the voltage and current of the photovoltaic module with overload\n- Off grid system: Measuring the generated power of a PV system and battery charging\n- Off grid system: Using Solar Panel and Battery to supply a DC Load\n- Off grid system: Design and testing of a standalone PV system in direct storage operation and 230V AC\n- On grid system: Measuring the electricity delivered to the mains grid\n- On grid system: Measuring the electricity produced by the solar panel, delivered\/taken from the mains grid, and the loading of AC lamps\n- On grid system: Determining the efficiency of the grid connected inverter\n- On grid system: Investigating the response of a PV system to a mains failure",
        "Specs": "- Electronic charge regulation module, with LCD display, MPPT tracking and energy monitor.\n- Load management module with three independent single-phase outputs for the dynamic study of different load types.\n- Active DC load used in the renewable energies laboratories configurable as constant resistance or constant current.\n- Network monitor module used to measure electrical parameters in a single phase circuit\n- Circuit breaker module.\n- Fixed single phase power source rated at mains voltage with auxiliary 12 Vdc fixed regulated voltage output to power measurement modules\n- DC load module. It includes a 20W dichroic lamp and a 3W LED lamp, with independent switches.\n- Inclinable photovoltaic panel, approx. 90W, 12V, complete with a cell for measuring the solar irradiation and a temperature sensor.\n- Battery and battery protection module.\n- A Grid-tie inverter output at mains voltage, 12V, 300W.\n- Multifunction measurement module: solar irradiation (up to 1000 W\/m2), solar panel temperature (up to 400\u00b0C), 2 DC power meters (65Vdc, 30Adc, 1000W) and 1 AC power meter (512Vac, 30Aac, 1000W).\n- Off-grid inverter module, with sinusoidal output at mains voltage. Average power: 300 W.\n- Sun simulator consisting of halogen lamps to provide energy to the photovoltaic module for indoor use.\n- Three level frame.\n\nThe Photovoltaic Solar Energy Advanced Trainer is supplied with a software developed in LabVIEW that communicates with the main components of the modular system via RS485 serial communication using Modbus RTU protocol to perform data acquisition and processing.",
        "Url": "edquip.co\/en\/de-lorenzo\/photovoltaic-solar-energy-advanced-trainer",
        "Page title": "Photovoltaic Solar Energy Trainer: De Lorenzo - EDQUIP",
        "Page description": "Solar photovoltaic hands-on training equipment. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "263 x 35 x 126",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 112 x 0.78",
        "Packed dimensions unit": "cm",
        "Packed weight": "200",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Photovoltaic Solar Energy Advanced Trainer\/Photovoltaic Solar Energy Advanced Trainer_DL SOLAR-AT xs.jpg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-203284",
        "Product Type": "hardware",
        "Producer": "DIKOIN",
        "Producer product number": "EN 01.5",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Documentation"
        ],
        "Name": "Photovoltaic Installation Demonstrator - stand alone and network connected",
        "Description": "STAND ALONE AND NETWORK CONNECTED\n\nThe equipment EN 01.5 reproduces a scale, complete photovoltaic solar installation. It has been designed with special emphasis on the didactic aspect. It offers the opportunity to observe all the components of a real photovoltaic solar installation and its layout.\n\nDESCRIPTION\n\nIt is supplied with adapted cables to connect and disconnect the components of the installation in different ways, so allowing to observe and analyze the operation of the connected panels in series, parallel, with batteries in series or in parallel, with direct exit in DC or AC, working standalone or connected to the network.\n\nThe equipment is supplied with metering devices for the variables necessary to analyze the characteristics of the panels and their behavior. Likewise, it has a pyranometer that indicates the intensity of solar radiation that affects the panels, with tension and current meters to show to the generated voltage and its intensity.\n\nAdditionally, it has tension and current meters in each one of the batteries to indicate the state of these and the direction of the current, if they are being loaded or contributing load, and it also has a metering device that shows a complete description of the obtained alternating current after the standalone inverter.\n\nThe grid connected inverter is implemented with software where the parameters of generation can be observed. In order to feed the grid-connected inverter, there are 3 panel simulators, with power regulation and tension and current metering devices.\n\nLEARNING OBJECTIVES\n\n- Study of the operation of a photovoltaic solar installation.\n\n- Isolated panels.\n\n- Modules connected to batteries.\n\n- Operation with different types of loads in DC.\n\n- Conversion of DC to AC.\n\n- Operation with different types of loads in AC.\n\n- Operation stand alone and connected to the grid.\n\n- Efficiency of the installation.\n\n- Determination of the characteristics of the solar modules.\n\n- Current \u2013 Voltage Curve.\n\n- Current in short circuit.\n\n- Voltage of open circuit.\n\n- Curve Power \u2013 Voltage.\n\n- Curve Power \u2013 Resistance of load.\n\n- Maximum power generated.\n\n- Form factor.\n\n- Efficiency.\n\n- Influence of the tilt angle and the intensity of solar radiation in the generated energy.\n\n- Determination of the characteristics of the modules connected in series.\n\n- Determination of the characteristics of the modules connected in parallel.\n\n- Study of the behavior of the solar modules in diverse conditions of operation.\n\n- Isolated panels.\n\n- In parallel with different loads.\n\n- In series with different loads.\n\n- Connected panels to batteries in series.\n\n- In parallel with different loads.\n\n- In series with different loads.\n\n- Connected panels to batteries in parallel.\n\n- In parallel with different loads.\n\n- In series with different loads.\n\n-",
        "Specs": "CHARACTERISTICS:\n\n- Photovoltaic modules: 2 photovoltaic modules of 20Wp.\n\n- Pyranometer for the measurement of the solar intensity.\n\n- Charge controller: Charge controller with operation at 12 or 24V CC, and max. current=10A. Max. input voltage= 45V.\n\n- Batteries: 2 Batteries 12V 10Ah.\n\n- Investors:\n\n- Sinusoidal Inverter: 200 VA stand alone inverter, with single-phase output.\n\n- Sinusoidal inverter 230V\/50Hz, 600W to connect to single-phase network.\n\n- Emulators of solar modules:\n\n- Emulator of solar module of 24V 10A m\u00e1x., with intensity regulation.\n\n- Emulator of 2 solar modules of 12V 10A m\u00e1x., with independent regulation of intensity.\n\n- Single-phase network analyzer with indication of active, reactive and apparent power, current, tension, frequency, power factor, etc.\n\n- Analogical and 4 digit digital voltmeters with resolution of 12 bits + sign.\n\n- Analogical current measurers with positive and negative measurement (centered zero) and 4 digit digital with resolution of 12 bits + sign.\n\n- 3W and 20W DC lamps.\n\n- 9W and 20W AC lamps.\n\n- Rheostat for analysis of the voltage-current graph in the solar modules and comparison with the specifications. It allows parallel or series connection.\n\n- Protection module for connection to the grid.\n\n- Data acquisition module with software.\n\n- The equipment is provided with a complete step by step guide.\n\nDIMENSIONS:\n\n- Photovoltaic modules Structure: 895x650x1740 mm.\n\n- Electric modules structure: 512x1090x824 mm.\n\nInput: 230V\/50Hz.",
        "Url": "edquip.co\/en\/dikoin\/photovoltaic-installation-demonstrator---stand-alone-and-network-connected",
        "Page title": "Photovoltaic Installation Demonstrator: Dikoin - EDQUIP",
        "Page description": "Network connected PV Installation Demonstrator. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Dikoin\/Photovoltaic Installation Demonstrator - stand alone and network connected\/Photovoltaic Installation Demonstrator - stand alone and network connected EN 01.5.jpg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-118603",
        "Product Type": "hardware",
        "Producer": "DIKOIN",
        "Producer product number": "EN 01.4",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Documentation"
        ],
        "Name": "Photovoltaic Installation Demonstrator - stand alone",
        "Description": "The equipment EN 01.4 has been designed as a standalone photovoltaic solar power plant, with 2 modules and all the elements necessary to complete the installation.\n\nDESCRIPTION\n\nThe equipment consists of: 2 photovoltaic panels of 20Wp, 2 batteries, a voltage regulator, an inverter, a pyranometer, different loads in DC and AC, and modules of control and data acquisition.\n\nThis working station is equipped with tension and current meters in the key sections, to make it easy for the student to understand its operation.\n\nThe system works in exactly the same way as the photovoltaic standalone facilities of electrical generation, that are normally used on boats, caravans, pumping groups, or remote locations where access to the public mains does not exist.\n\nIn addition, this equipment allows for the connection of the panels and the batteries, in series or in parallel.\n\nLEARNING OBJECTIVES\n\n- Study of the operation of a photovoltaic solar installation\n\n- Isolated panels\n\n- Modules connected to batteries\n\n- Operation with different types of loads in DC\n\n- Conversion of DC to AC\n\n- Operation with different types of loads in AC\n\n- Efficiency of the installation\n\n-  Determination of the characteristics of the solar modules\n\n- Current \u2013 Voltage Curve\n\n- Current in short circuit\n\n- Voltage of open circuit\n\n- Curve Power \u2013 Voltage\n\n- Curve Power \u2013 Resistance of load\n\n- Maximum power generated\n\n- Form factor\n\n- Efficiency\n\n- Influence of the tilt angle and the intensity of solar radiation in the generated energy\n\n- Determination of the characteristics of the modules connected in series\n\n- Determination of the characteristics of the modules connected in parallel\n\n- Study of the behavior of the solar modules in diverse conditions of operation\n\n- Isolated panels\n\n- In parallel with different loads\n\n- In series with different loads\n\n- Connected panels to batteries in series\n\n- In parallel with different loads\n\n- In series with different loads\n\n- Connected panels to batteries in parallel\n\n- In parallel with different loads\n\n- In series with different loads",
        "Specs": "CHARACTERISTICS:\n\n- Photovoltaic modules: 2 photovoltaic modules of 20Wp.\n\n- Pyranometer for the measurement of the solar intensity.\n\n- Charge controller: Charge controller with operation at 12 or 24V CC, and max. current=10A. Max. input voltage= 45V.\n\n- Batteries: 2 Batteries 12V 10Ah.\n\n- Inverter: 200 VA stand alone inverter, with single-phase output.\n\n- Analog and digital voltmeters of 4 digit with 12 bits + sign resolution.\n\n- Analog ammeters with digital positive and negative measuring (zero centered) and 4 digit digitals with 12 bits + sign resolution.\n\n- Direct current halogen lamps.\n\n- Direct current LED white lamps.\n\n-  Alternating current low consumption lamps.\n\n- Rheostat for analysis of the voltage-current graph in the solar modules and comparison with the specifications. It allows parallel or series connection.\n\n- The equipment is provided with a complete step by step guide.\n\nDIMENSIONS:\n\n- Photovoltaic panels structure: 895x650x1740 mm.\n\n- Panel modules structure: 500x1300x790 mm.\n\n- Input: 230V\/50Hz.",
        "Url": "edquip.co\/en\/dikoin\/photovoltaic-installation-demonstrator---stand-alone",
        "Page title": "Photovoltaic Installation Demonstrator: Dikoin - EDQUIP",
        "Page description": "Standalone PV Installation Demonstrator. Request your quotation today! Free price estimations, hands-on learning, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Dikoin\/Photovoltaic Installation Demonstrator - stand alone\/Photovoltaic Installation Demonstrator - stand alone EN 01.4 blanco.jpg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-690387",
        "Product Type": "hardware",
        "Producer": "DIKOIN",
        "Producer product number": "EN 04.1",
        "Content languages": "en, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "Live online",
            "Documentation"
        ],
        "Name": "Windmill Test-Bench",
        "Description": "The Windmill Test-bench (EN 04.1), is a wind tunnel of 2 meters length designed to work with windmills of less or equal to 630mm diameter. The equipment has a 612 mm windmill included, which has a torque and rotation speed measurement system.\n\nDESCRIPTION\n\nThe wind tunnel has a transparent part, so a complete sight of the windmill working is allowed. That part, can also be opened, to facilitate the access and manipulation of the system.\n\nThe tunnel has a built-in system for the measurement of the speed of the air by means of electronic pressure transducers, to monitor in real time the speed of the air that the windmill is put under.\n\nThe new system also has an electronic control of the pitch, to be modified from the control panel or from the computer. All the system, is monitored and controlled through a control module, which also can be connected to a computer with a USB port.\n\nLEARNING OBJECTIVES:\n\nThe windmill test-bench (EN 04.1) is equipped with a complete computer system with touch screen, with which the work of test or practices is made much easier. The system is able to control and register all the variables of the equipment.\n\nManual or automatic tests can be done, with only indicating the required variables and indicating how many points we want in the graph of results. This way we don\u2019t lose time writing the results and drawing the graphs by hand.\n\nFEATURES:\n\n- Automatic calibration system.\n\n- Wind speed control.\n\n- Windmill brake control with PID.\n\n- Atomatic experiments varying the required parameter by the user autonomously, and recording data at each point.\n\n- The resuslt can be shown in graphs and tables at the software, printed or exported to Excel.\n\n- It only needs a computer with a USB port and windows 7 or better.\n\n- Manual or automatic tests can be done, where the following values can be controlled and registered:\n\n- Wind speed.\n\n- Turn speed of the turbine.\n\n- Torque of the turbine.\n\nLEARNING OBJETIVES AND TESTS\n\n- Measurement of the power taken by the windmill.\n\n- Determination of the characteristic curves of the power recovered by the windmill based on the wind speed.\n\n- Determination of the coefficient of power of the windmill.\n\n- Determination of the coefficient of power based on the specific speed.\n\n- Obtaining of the coefficient of power based on the angle of pitch of the profile.\n\n- Interchange of the blades of the windmill, for analysis of the variations based on the aerofoil profile.\n\n- Modification of the pitch to see differences.",
        "Specs": "TECHNICAL DATA\n\nApproximate length of the tunnel: 2 meters.\n\nMaximum diameter of the windmill: 630mm.\n\nWind speed in the tunnel, adjustable from 0 to 13m\/s.\n\nStructure made of light weight anodized aluminum.\n\nVertically adjustable Legs for a correct level of the equipment.\n\nWheels for easy displacement of the equipment, 2 of them with brake.\n\nTransparent polycarbonate part in the tunnel, with opening for access to the windmill.\n\nDiameter of the rotor: 612mm.\n\nElectronic sensor for measurement of rotation speed.\n\nLoad sensor for measurement of mechanical torque.\n\nThe pitch of the blades can be changed.\n\nPossibility of modification of the picth from the control module or software.\n\nThe blades can be replaced for different ones with 4 screws, without disassembling the windmill.\n\nSAFETY\n\nSafety system that avoids the fan to start if the protection screen is open.\n\nProtective grate in the suction bell, that avoids the frontal access (not shown).\n\nProtective grate in the exit of air.\n\nEmergency stop.\n\nMANUAL CONTROL PANEL\n\nLCD display showing: brake power %, wind speed %, pitch %, turn speed of the windmill (rpm), wind speed (m\/s) and mechanical torque in the windmill (Nm).\n\nPotentiometer regulating the pitch of the wind turbine.\n\nPotentiometer regulating the braking of the wind turbine.\n\nPotentiometer regulating the air velocity in the tunnel.\n\nSwitch on or off the wind turbine braking system.\n\nControl selector from control module, or from PC.\n\nREQUIREMENTS\n\nInput: 230V\/50Hz. (Others available, please ask).\n\nNOTE: The software is optional. PC not included.",
        "Url": "edquip.co\/en\/dikoin\/windmill-test-bench",
        "Page title": "Windmill Test-Bench: Dikoin - EDQUIP",
        "Page description": "Windmill Test-Bench. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Dikoin\/Windmill Test-Bench\/Windmill Test-Bench EN 04.1 fondo blanco.jpg",
        "Video link": null,
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-992091",
        "Product Type": "hardware",
        "Producer": "DIKOIN",
        "Producer product number": "EN 04.4",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Documentation"
        ],
        "Name": "Windmill Power Plant Trainer - stand alone",
        "Description": "With the EN 04.4 equipment, we emulated the behavior of a wind turbine in a practical and didactic way. An electric motor acts as the blades and bush of a wind turbine, dragging a three-phase synchronous generator of permanent magnets, which transforms the mechanical energy transmitted to the shaft into electrical energy at the output.\n\nDESCRIPTION\n\nThe current generated is alternating three-phase, having to transform into direct current to be able to feed the regulator of charge of batteries and consumptions, and later to the inverter that in turn turns this into alternating current with the appropriate frequency, in our case 50 Hz So that the generated electric energy can be stored in batteries or consumed directly, or also use the stored charge for consumption when is no wind.\n\nThe equipment is designed to understood in a very visual and intuitive way quickly the operation of the assembly, not only knowing the elements of which it consists, but having them also to connect by means of the security cables supplied for that purpose. This is achieved by arranging the equipment in schematic and connectable panels.\n\nIn addition it counts on a computer from which we control the operation of the equipment and we obtain the reading of all the necessary variables for the analysis of the system.\n\nLEARNING OBJECTIVES:\n\n- Study of the operation and disposal of an isolated wind power generation system.\n\n- Drawing of the characteristic curves of the generator:\n\n- Three-phase voltage depending on the speed of rotation.\n\n- Continuous voltage depending on the speed of rotation.\n\n- Torque based on the generated current.\n\n- Three-phase active power depending on the speed of rotation.\n\n- Power in direct current as a function of the speed of rotation.\n\n- Three-phase reactive power as a function of the speed of rotation.\n\n- Calculation of the constant of torque \/ current and voltage \/ speed of rotation of the generator.\n\n- Performance of the rectifier.\n\n- Tracing of yield calculation curves: Electric power to the net \/ mechanical drag power.\n\n- Determination of optimum operating points against variable atmospheric conditions.\n\n- Tracing of the power-wind speed characteristic curve.",
        "Specs": "TECHNICAL DATA\n\nCHARACTERISTICS:\n\nStructure of anodized aluminum.\n\nSingle-phase network analyzer with indication of active, reactive and apparent power, current, voltage, frequency, power factor, etc.\n\nThree-phase synchronous generator of permanent magnets.\n\nBattery Charge Controller: Regulator with operation 12 or 24V DC, and maximum current = 10A. Maximum input voltage = 45V.\n\nBattery of 12V 12Ah.\n\n1.5 kW asynchronous motor.\n\nSTECA 200VA 230V \/ 50Hz inverter.\n\nFrequency inverter 1,5 kW.\n\nData acquisition module.\n\nComputer with software (SCADA system).\n\nThe equipment is supplied with a complete workbook.\n\nDIMENSIONS:\n\nGenerator-engine structure: 790x450x80 mm.\n\nPanel modules structure: 1080x510x1150 mm.\n\nREQUIREMENTS\n\nInput: 230V\/50Hz.\n\nNote: The picture shown may not correspond exactly to the supplied equipment.",
        "Url": "edquip.co\/en\/dikoin\/windmill-power-plant-trainer---insulated",
        "Page title": "Windmill Power Plant Trainer - stand alone",
        "Page description": "Windmill Power Plant Trainer - stand alone. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Dikoin\/Windmill Power Plant Trainer - insulated\/Windmill Power Plant Trainer - insulated EN 04.4 - fondo blanco.jpg",
        "Video link": null,
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-490411",
        "Product Type": "hardware",
        "Producer": "DIKOIN",
        "Producer product number": "EN 04.2",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Documentation"
        ],
        "Name": "Windmill Power Plant Trainer - grid connected",
        "Description": "With the equipment EN 04.2, we emulate the behavior of a wind turbine in a practical and educational way. An electric motor operates as the turbine on a windmill moving a three-phase synchronous permanent magnet generator, which converts the transmitted mechanical energy to electric energy.\n\nDESCRIPTION\n\nThe generated electricity is alternating current three-phase, having to be transformed into direct current to feed the inverter, which transforms it into alternating current at an appropriate frequency, and other necessary features to connect to the network.\n\nThe equipment is designed for a very visual and intuitive operation, quickly understand the functioning of the whole system, not just knowing the elements that compose the unit, but also having to connect them through the supplied cables for this purpose. This is achieved by the provision of equipment in modular panels. It also has a computer from which to control the operation of the equipment and get all the necessary variables for system analysis.\n\nLEARNING OBJECTIVES:\n\nStudy of the operation and components of a wind generation system connected to the mains.\n\nPlotting of the characteristic curves of the generator:\n\nThree phase voltage according to the rotation speed.\n\nContinuous voltage according to the rotation speed.\n\nTorque according to the generated current.\n\nThree phase active power according to the rotation speed.\n\nDC power according to the rotation speed.\n\nThree phase reactive power according to the rotation speed.\n\nCalculation of the \u201cconstant torque \/ current\u201d and \u201cvoltage \/ generator rotational speed\u201d.\n\nRectifier efficiency.\n\nPerformance curves calculation: \u201cElectrical power to the mains \/ mechanical power\u201d.\n\nDetermination of optimum operating points under changing wind conditions.\n\nDrawing the \u201cpower \/ wind speed\u201d curve.\n\nAnalysis of the energy fed into the mains.",
        "Specs": "CHARACTERISTICS\n\nAnodized aluminum structure\n\nPhase network analyzer indicating active, reactive and apparent current, voltage, frequency, power factor, etc.\n\nThree-phase permanent magnet synchronous generator.\n\nAsynchronous motor.\n\nGrid connected Inverter (for 230V \/ 50Hz., this can change depending on the country).\n\nFrequency inverter.\n\nProtection module for connection to the mains.\n\nData acquisition module.\n\nComputer with touch screen attached to the main control panel.\n\nThe system is controlled with the computer (not only data acquisition).\n\nThe unit is supplied with a comprehensive workbook.\n\nDIMENSIONS:\n\nGenerator-motor structure: 690x400x310 mm.\n\nModular panel structure: 1070x510x1050 mm.\n\nREQUIREMENTS\n\nInput 230V \/ 50Hz.\n\n* Other electrical characteristics available.",
        "Url": "edquip.co\/en\/dikoin\/windmill-power-plant-trainer---grid-connected",
        "Page title": "Windmill Power Plant Trainer - grid connected: Dikoin - EDQUIP",
        "Page description": "Windmill Power Plant Trainer. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Dikoin\/Windmill Power Plant Trainer - grid connected\/Windmill Power Plant Trainer - grid connected EN 04_2 fondo blanco.jpg",
        "Video link": null,
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-614727",
        "Product Type": "hardware",
        "Producer": "DIKOIN",
        "Producer product number": "EN 05.1",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Documentation"
        ],
        "Name": "Hydroelectric Plant with Pelton Turbine",
        "Description": "Trainer EN 05.1 has been designed as a small-scale hydropower plant and it is equipped with a Pelton-like turbine that provides full operation along with all the other accessories that complete a standard installation.\n\nThis training unit is composed of: a Pelton turbine, a water tank with a pump, a battery, a regulator, a current converter, a choice of charges both for DC and AC, a control panel, as well as voltage and current meters in key points in the installation circuit. Therefore, the unit enables students to observe and interpret accurately how a hydropower plants operates.\n\nThis training unit simulates the operation of a power generator, taking into account the hydraulic head of a reservoir, whereby potential water kinetic energy is transformed into electricity thanks to the operation of a turbine.\n\nAdditionally, the turbine is equipped with devices for measuring the motor torque and the rotational speed which enables calculations on mechanical energy retrieved and the mechanical and electric power efficiency rate.\nFinally, there is a digital pressure transducer at the turbine inlet and a flowmeter which enable the calculation of hydropower output.\n\nLEARNING OBJECTIVES:\n\n- Turbine characteristic curves:\n- Torque \u2013 rotation speed (M-n).\n- Brake power \u2013 rotation speed (Pe- n).\n- Efficiency \u2013 rotation speed (h \u2013 n).\n- Torque \u2013 U (M-U).\n- Brake power \u2013 U (Pe- U).\n- Efficiency \u2013 U (h\u2013 U).\n- Study of the operation of a hydraulic power installation.\n- Operation with different types of loads in continuous.\n- Conversion of direct current to alternating current.\n- Operation with different types of loads in alternation.\n- Installation efficiency.\n- Determination of the electrical generation characteristics of the turbine, depending on the rotation speed.\n- Curve Intensity \u2013 Voltage.\n- Short circuit current.\n- Open circuit tension.\n- Power curve \u2013 Voltage.\n- Power curve \u2013 charge resistance.\n- Maximum power generated.\n- Form factor.\n- Efficiency.",
        "Specs": "TURBINE:\n\nType: Pelton\nNumber of blades: 16.\nImpeller diameter 124 mm.\nBlade depth 14 mm.\nJet diameter 10 mm.\nShaft diameter 16 mm.\nNominal speed 1,900 r.p.m.\nTransparent front to display the impeller in operation.\n\nSTRUCTURE:\n\nThe equipment is supplied on an aluminium structure, with deposit and pump, in which the necessary flow for the turbine is generated.\n\nCOMPONENTS:\n\nPressure transducer.\nRPM detection sensor.\nLoad cell for measuring torque.\nElectronic control module with two displays to show the system data.\nBattery charge regulator: Regulator with operation at 12 or 24V DC, and maximum current = 10A. Maximum input voltage = 45V.\nBattery: 12V 12Ah battery.\nSinusoidal inverter operating on Island of 200 VA of power, with single-phase output.\nAnalogue ammeter with positive and negative measurement (zero centered) and digital 4-digit with 12-bit resolution + sign.\nPanel of direct current lamps.\nPanel of alternating current lamps.\nRheostat.\n\nNOTE:\n\nThe equipment is supplied with a complete practice notebook (solved and unsolved).\nThe system can be connected to a computer by USB, to register all the data directly in tables.",
        "Url": "edquip.co\/en\/dikoin\/hydroelectric-plant-with-pelton-turbine",
        "Page title": "Hydroelectric Plant with Pelton Turbine: Dikoin - EDQUIP",
        "Page description": "Training equipment for a small-scale hydropower plant, equipped with a Pelton-like turbine that provides full operation. For vocational and further education.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Dikoin\/Hydroelectric Plant with Pelton Turbine\/Hydroelectric Plant with Pelton Turbine EN051_2022.jpg",
        "Video link": null,
        "Main category": "Hydropower Training Systems"
    },
    {
        "Edquip ID": "PL-239848",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL BIO-10",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "PLANT FOR THE PRODUCTION OF BIODIESEL",
        "Description": "The biodiesel is a liquid biofuel obtained by chemical processes from vegetable oils or animal fats and it is an alcohol that can be used in diesel engines, alone or blended with diesel oil. ASTM International (originally known as the American Society for Testing and Materials) defines the biodiesel as a mixture of long-chain mono alkyl esters from fatty acids obtained from renewable resources, to be used in diesel engines. The chemical reaction that converts a vegetable oil or animal fat to biodiesel is called \"transesterification.\" This is a long name for a simple process of combining a chemical compound called an \"ester\" and an alcohol to make another ester and another alcohol. Oils and fats are included in the ester family. When they react with methanol or ethanol, they make methyl or ethyl esters and a new alcohol called glycerol or, more commonly, glycerin.\n\nList of Experiments\n\nBiodiesel synthesis and determination of the density of the product\n\n- Experiment 1 - Biodiesel synthesis from unused and used sunflower oil. Using methanol and sodium hydroxide.\n- Experiment 2 - Biodiesel synthesis from unused and used sunflower oil. Using methanol and potassium hydroxide.\n\nMeasurement of the biodiesel properties.\n\n- Experiment 1 - Cloud point.\n- Experiment 2 - Heat of combustion.\n- Experiment 3 \u2013 Viscosity.\n\nMeasurement of combustion pollution through the soot produced during:\n\n- The combustion of biodiesel.",
        "Specs": "- Structure: The plant is mounted on a structure made of 40x40x2 square tubes of stainless steel AISI 304. The total dimensions of the plant are 1100 mm. long and 650 mm. deep.\n- Methoxide tank: A 5 litre capacity tank made of plastic material in which the methoxide is stored.\n- Pre-treatment tank: The oil to be treated is stored in a stainless steel tank of 200 mm. diameter and 350 mm. height for a volume of about 10 liters.\n\nThe tank is provided with flanged caps for easy dismantling and cleaning. It is used to perform the pretreatment of the oil, by means of a stirrer, a heating resistor and a temperature sensor with digital controller to maintain the desired value.\n\n- Reactor: The oil is transferred to the reactor by a metering pump with regulation of the flow, which is subsequently used to perform the recirculation in the reactor while the reaction takes place.\n\nThis reactor is a stainless steel tank of 200 mm. diameter and 350 mm. height for a volume of about 10 liters. This tank is also provided with flanged caps for easy dismantling and cleaning\n\n- Pump: A peristaltic pump with adjustable flow rate that, by means of a valve system, is responsible for: the transfer of the oil from the tank to the reactor, the metering of the methoxide and the recirculation.\n\nBy means of the same metering pump the methoxide, coming from a tank of 5 liters. made of plastic material, is added to the reactor.\n\n- Electric Box: The inside of the box has all the necessary elements for the activation of the electrical components, as well as the necessary protections against electrical failures, like overloads, short circuits or currents that derive to earth, according to the electro-technical standard in force for the protection of people and equipment.\n\nThe activation switches of the various elements (Resistances, Stirrer, Pump) are located on the front. There is also a general on-off switch and an emergency stop button.\n\nThe power supply is single-phase with neutral and earthing. Complete with:\n\n- User manual\n- Experiment manual\n- Documentation on stirrer, pump and temperature sensor\n\nBiodiesel production\n\nThe process to make biodiesel involves a chemical reaction. This means that the biodiesel industry is a chemical industry. Those involved in making biodiesel must have a good understanding of the underlying chemistry to ensure they are making quality fuel in a safe manner. Biodiesel is an alternative fuel for diesel engines. It is produced by chemically reacting a vegetable oil or animal fat with an alcohol such as methanol or ethanol. The vegetable oils and animal fats used to make biodiesel can come from virtually any source. All these products consist of chemicals called triglycerides; so, biodiesel can be made from soybean oil, canola oil, beef tallow, and pork lard, and even from such exotic oils as walnut oil or avocado oil. Even used cooking oil or waste oil can be used to make biodiesel. However, these oils present special challenges for the biodiesel production because they contain contaminants such as water, meat scraps, and breading that must be filtered out before the oil is converted to biodiesel. Methanol is the most common alcohol used for making biodiesel.\n\nDescription of the process\n\nOil and glycerin are inserted in the pretreatment tank and heated to 50\u00b0C, continuously stirring. The mixture is then settled and decanted to remove any impurities from the oil. The oil is then heated to 70-90 \u00b0C until the bubbles disappear. Then, by means of the pump, the oil is sent to the reactor and heated, while keeping the temperature between 50 and 55 \u00b0C. Methanol and sodium are mixed in the methoxide tank. The recirculation of the oil starts with the pump and is continued, while 75% of prepared methoxide is added in 1.5 hours. Let stand and decant. The recirculation of the oil starts again, while 20% of the methoxide is added in 1.5 hours. Let stand and decant. The recirculation of the oil starts again, while the remaining 5% of the methoxide is added in 1.5 hours. Let stand and decant. In this way biodiesel is obtained. The next step is to wash and purify it.\n\nNecessary accessories to be provided locally for the correct functioning of the process:\n\n-  10 lt of sunflower oil,\n- 1 lt of methanol,\n-\n- 18 g of Sodium hydroxide (NaOH), usually it comes in packs of 1 Kg,\n- 1 small and simple digital scale, to accurately measure the weight of NaOH,\n- 1 glass beaker of 1000 ml,\n- A glass stirrer, used to mix NaOH pellets with methanol,\n- Gloves, two pairs should be enough, even one,\n- Two protective glasses, for eye protection,\n- Two 10 lt plastic containers, preferably translucent, to store the final products (biodiesel and glycerin),\n- A standard lighter for biodiesel testing.",
        "Url": "edquip.co\/en\/de-lorenzo\/biodiesel-production",
        "Page title": "Biodiesel production: De Lorenzo -EDQUIP",
        "Page description": "Biodiesel production trainnig system. Request your quotation today! Free price estimations, hands-on learning, suitable for schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "110 x 60 x 80",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "30",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "120 x 80 x 100",
        "Packed dimensions unit": "cm",
        "Packed weight": "80",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Biodiesel production\/Biodiesel production_DL BIO-10_De Lorenzo_DL BIO-10.jpg",
        "Video link": null,
        "Main category": "Bioenergy Training Systems"
    },
    {
        "Edquip ID": "PL-254273",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EG5C",
        "Content languages": "en, es, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Geothermal (low enthalpy) Energy Unit",
        "Description": "The [Computer Controlled Low Enthalpy Geothermal Energy Unit, \u201cEG5C](https:\/\/www.edibon.com\/en\/computer-controlled-geothermal-low-enthalpy-energy-unit),\u201d created by [EDIBON](https:\/\/www.edibon.com\/en\/), is designed to replicate the thermal properties of the earth using a cooling circuit, a water-filled tank with submerged pipes, and a heat pump. Additionally, a storage tank holds heated water to simulate domestic hot water.\n\nThe cooling circuit includes a compressor, an air condenser\/evaporator, and two water condensers\/evaporators. A four-way valve directs the refrigerant based on seasonal conditions, automatically selecting the correct exchanger to function as an evaporator or condenser as needed.\n\nTo simulate the consistent 15\u00b0C (59\u00b0F) ground temperature at a depth of 20 meters, a small water-filled tank and heat pump work to maintain this baseline. This temperature-controlled water then flows into a bath, where it heats or cools water circulating through the submerged pipes.\n\nThe unit\u2019s cycle inversion valve enables switching between winter and summer modes. In winter, with ambient temperatures below 15\u00b0C, the ground\u2019s warmth is harnessed for heating. In summer, when outdoor temperatures rise above 15\u00b0C, the ground water\u2019s cooler temperature provides an effective source of cooling.\n\nThe unit is equipped with the [EDIBON](https:\/\/www.edibon.com\/en\/) SCADA System, which includes the core unit, a Control Interface Box, a Data Acquisition Board, and software for computer control, data collection, and full management of process parameters.",
        "Specs": "- [EG5C. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-geothermal-low-enthalpy-energy-unit):\n\n- Unit mounted in anodized aluminum frame and panels of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Heat pump\n- Sanitary water circuit\n- Geothermal exchanger simulation\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EG5C\/CIB. Control Interface Box.\n- EG5C\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study of geothermal energy using a geothermal heat pump system for heating and\/or cooling.\n- Study of the system with different ground temperatures.\n- Determination of the inlet power, produced heat and coefficient of performance, working in heating mode. Water-water heat pump.\n- Determination of the inlet power, produced heat and coefficient of performance, working in cooling mode. Water-water heat pump.\n- Determination of the inlet power and valuation of the air temperatures, working in heating mode. Water-air heat pump.\n- Determination of the inlet power and valuation of the air temperature, working in cooling mode. Water-air heat pump.\n- Preparation of performance curves of the heat pump, working in heating mode, with different inlet and outlet temperatures. Waterwater heat pump.\n- Preparation of performance curves of the heat pump, working in cooling mode, with different inlet and outlet temperatures. Waterwater heat pump.\n- Lay out of the steam compression cycle in a P-H diagram and comparison with the ideal cycle. Water-water heat pump. Heating mode.\n- Lay out of the steam compression cycle in a P-H diagram and comparison with the ideal cycle. Water-air heat pump. Heating mode.\n- Preparation of the performance curves of the heat pump based on the properties of the refrigerant and at different condensation and evaporation temperatures. Water-water heat pump. Heating mode.\n- Preparation of the performance curves of the heat pump based on the properties of the refrigerant and at different condensation and evaporation temperatures. Water-water heat pump. Cooling mode.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-geothermal-low-enthalpy-energy-unit",
        "Page title": "Geothermal (low enthalpy) Energy Unit: Edibon - EDQUIP",
        "Page description": "Geothermal training and education equipment. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply",
            "Water drain"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: 2000 x 800 x 1550 mm approx.  (78.74 x 31.49 x 61.02 inches approx.) Control-Interface Box: 490 x 330 x 310 mm approx.  (19.29 x 12.99 x 12.2 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "210 kg approx.",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Geothermal (low enthalpy) Energy Unit\/Computer Controlled Geothermal (low enthalpy) Energy Unit_EG5C_1.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-581013",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "HPPP",
        "Content languages": "en, es, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Hydroelectric Power Plants Application with Pelton Turbine",
        "Description": "The [Computer Controlled Hydroelectric Power Plant with Pelton Turbine, \u201cHPPP](https:\/\/www.edibon.com\/en\/computer-controlled-hydroelectric-power-plant-with-pelton-turbine),\u201d by [EDIBON](https:\/\/www.edibon.com\/en\/) provides a comprehensive platform for studying the mechanics and operation of hydroelectric plants that employ Pelton turbines, with particular emphasis on the turbine's specific mechanical characteristics.\n\nMechanical Design and Functionality: The \u201cHPPP\u201d unit is built with a robust aluminum and steel framework and houses a 1 kW Pelton turbine featuring dual servo-driven injectors. A simulated reservoir water tank and a pump capable of creating up to an 80-meter waterfall enable realistic hydraulic testing. The water is directed through 2-inch PVC piping from the pump to the injectors, controlled by two servomotors for precise injector adjustment, which can be managed either manually through the SCADA interface or automatically using an advanced controller. Embedded sensors track critical variables\u2014flow rate, pressure, speed, and torque\u2014allowing users to analyze aspects like turbine efficiency, torque fluctuations in response to injector settings, mechanical power output, water flow rates, and optimal performance conditions, along with the impact of injector asymmetry on efficiency.\n\nElectrical Integration: For electrical performance, the unit is recommended for use with \u201cN-REVT\/1K\u201d and \u201cN-CAR19T\/3C\u201d resistive and capacitive loads, along with the HPPP Control and Regulation Unit \u201cHPPP-CR.\u201d This setup contains essential electrical components needed to regulate the Pelton turbine as a generator. Analog instruments like a voltmeter, wattmeter, and varimeter are included to measure electrical parameters, while an advanced controller automatically adjusts the injectors based on electrical output, incorporating safeguards against over-frequency, over-voltage, over-current, and reverse power. Additionally, a network analyzer allows real-time monitoring of parameters when the generator synchronizes with the main grid, with the capability to operate independently to supply power to specific loads.\n\n[EDIBON](https:\/\/www.edibon.com\/en\/) [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) System Integration: The integrated [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) system continuously logs both electrical and mechanical parameters, providing a detailed analysis platform for real-time graphical visualization of turbine operations. This system enables users to observe how pressure head impacts mechanical power, variations in efficiency based on injector adjustments, and the resulting effects on turbine torque, offering in-depth insights into the dynamics of hydroelectric energy systems.",
        "Specs": "- [HPPP. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-hydroelectric-power-plant-with-pelton-turbine):\n\n- Bench-top unit.\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n\nIncludes:\n\n- Pelton turbine.\n- Generator \/ Brake.\n- Computer controlled water pump.\n- Frequency drive.\n- Pressure sensor\n- Load cell - force sensor.\n- Flow sensor.\n- Speed sensor.\n- Water transparent tank.\n- Main manual valve.\n- Pressure gauge.\n- Two x servo-driven valve.\n- Security pressure switch.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software)\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user's knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- HPPP\/CIB. Control Interface Box.\n- DAB. Data Acquisition Board\n- HPPP\/CCSOF. Computer Control + Data Acquisition + Data Management Software\n- Cables and Accessories, for normal operation\n- Manuals:This unit is supplied with 8 manuals: Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Determination of pelton turbine operating parameters.\n- Analysis of the relationship between injection pressure and turbine mechanical power.\n- Determination of Pelton turbine efficiency as a function of water jump, injector opening and load applied to the turbine.\n- Analysis of the influence of water flow on turbine performance: the water flow rate supplied to the turbine is adjusted and its performance is measured in relation to the mechanical power applied to the turbine shaft.\n- Study of the influence of water injection asymmetry in the pelton turbine on its performance.\n- Study the relationship between injector opening and generated mechanical power: measuring of the mechanical power developed by the turbine while varying the injector openings.\n- Optimization of turbine performance: testing with different combinations of water head height and injector opening to find the configuration that maximizes turbine performance.\n- Study the behavior of sensors: Analyze the response of flow rate, pressure, velocity, and torque sensors under different operating conditions",
        "Url": "edquip.co\/en\/edibon\/hydroelectric-power-plants-application-with-pelton-turbine",
        "Page title": "Hydroelectric Power Plant with Pelton Turbine: Edibon - EDQUIP",
        "Page description": "Hydroelectric Power Plant + Pelton Turbine for education & training. Request your quotation today! Free price estimations, suitable for colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: : 2400 x 1000 x 1650 mm approx.  (94.48 x 39.36 x 64.96 inches approx.) Control Interface Box: 490 x 450 x 470 mm approx.  (19.29 x 17.71 x 18.50 inches approx.)  HPPP-CR: 600 x 350 x",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "177",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Hydroelectric Power Plants Application with Pelton Turbine\/Hydroelectric Power Plants Application with Pelton Turbine_HPPP_1.jpg",
        "Video link": "",
        "Main category": "Hydropower Training Systems"
    },
    {
        "Edquip ID": "PL-112452",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EBEC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Bioethanol Process Unit",
        "Description": "The [Computer Controlled Bioethanol Process Unit, \"EBEC](https:\/\/www.edibon.com\/en\/computer-controlled-bioethanol-process-unit),\" is designed to facilitate a detailed exploration and control of bioethanol production at a laboratory scale. This unit allows users to thoroughly monitor each critical stage, from the conversion of starches into fermentable sugars to ethanol production and final distillation.\n\nThe system consists of three primary components: the mash tank, fermentation tank, and distillation unit. Contact surfaces within these components (excluding the distillation unit) are made of stainless steel, while borosilicate glass and Neoceram glass sight windows are used in the distillation unit for high-temperature resilience and visibility.\n\nThe mash tank includes an upper inlet for adding water, starch, and enzymes. Its slightly angled bottom facilitates efficient drainage and transfer of the mash to the fermentation tank. The initial liquefaction of starch is catalyzed by the enzyme alpha-amylase, followed by saccharification with glucoamylase to yield glucose. This tank is equipped with sensors for temperature and pH monitoring, with pH adjustments made via an acid\/base circuit.\n\nOnce saccharification is complete, the mash moves to the fermentation tank, which also features an angled base for easy transfer to the distillation unit. Here, yeast initiates fermentation, producing ethanol and CO2. A temperature sensor continuously tracks conditions within the fermentation mixture.\n\nBoth tanks are equipped with jackets for indirect heating through a hot water system and are continually stirred. Transparent sight glasses permit visual monitoring of the process. Temperature within these tanks is controlled by a PID system, which utilizes dual temperature sensors at the jacket outlet to ensure precise temperature maintenance.\n\nThe hot water system, including a thermostatic bath and pump, provides consistent thermal regulation across the tanks, with an additional temperature sensor within the bath for accuracy.\n\nAfter fermentation, the resulting mixture is sent to the distillation unit. This unit includes a heating mantle, an agitator, a distillation column, a dephlegmator (cold finger), a condenser, and a decanting funnel, with four temperature sensors strategically positioned for precise monitoring.\n\nThe [EBEC](https:\/\/www.edibon.com\/en\/computer-controlled-bioethanol-process-unit) is equipped with the [EDIBON](https:\/\/www.edibon.com\/en\/) Computer Control System (SCADA), which comprises the main unit, a control interface box, a data acquisition board, and specialized software for monitoring, data collection, and management of process parameters. This system enables detailed observation and control over all stages of the bioethanol production process.",
        "Specs": "- [EBEC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-bioethanol-process-unit):\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- All the vessels, valves and other accessories in contact with process materials (except the distillation unit) are made of stainless steel. The distillation unit is made of borosilicate glass. Sight glasses are made of Neoceram glass.\n\nThe \u201cEBEC\u201d unit mainly consists of:\n\n- Mash tank.\n- Fermentation tank.\n- Distillation unit.\n- Two computer controlled diaphragm pumps to introduce the solution into the fermentation tank and the distillation unit.\n- Temperature sensors.\n- pH sensor measures the pH of the mash inside the mash tank.\n- Hot water circulation system.\n- Acid\/base circuit system.\n- Seven valves\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EBEC\/CIB. Control Interface Box.\n- EBEC\/CCSOF. PID Computer Control + Data Acquisition + Data Management Software\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals: Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Familiarization with the individual steps required for bioethanol production.\n- Familiarization with the plant components required for bioethanol production.\n- Study of the effect of temperature on bioethanol purity.\n- Study of the effect of pH on bioethanol yield.\n- Study of the effect of mashing time on bioethanol yield.\n- Study of the effect of fermentation time on bioethanol yield.\n- Study of the use of different raw materials to produce bioethanol.\n- Study of the effect of adding different types of yeast to the fermentation.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-bioethanol-process-unit",
        "Page title": "Computer Controlled Bioethanol Process Unit: Edibon - EDQUIP",
        "Page description": "Bioethanol Process Unit used for education and training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply",
            "Water drain"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: 2000 x 650 x 1800 mm approx.  (78.74 x 25.59 x 70.86 inches approx.) Control Interface Box: 490 x 330 x 310 mm approx.  (19.29 x 12.99 x 12.20 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "222",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Bioethanol Process Unit\/Computer Controlled Bioethanol Process Unit_EBEC.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-357783",
        "Product Type": "hardware",
        "Producer": "ID System Didactic",
        "Producer product number": "BHI4",
        "Content languages": "en, fr, de, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Documentation"
        ],
        "Name": "Hydraulic Training Bench BHI4",
        "Description": "Choose the industrial components so that your students can perform different exercises. They will thus be able to understand the hydraulic functions and to achieve different wiring circuits.\n\nCompletely modular and upgradeable system\n\nThe hydraulic didactic training bench BHI4 is a completely upgradeable and modular fitting system.\nIts robust steel mechanical soldered chassis, single or double face, is designed to allow industrial components mounted on anodized plates.\n\nEquipped with hoses with quick couplings, this bench allows for wiring circuits in on-off and proportional hydraulics.\n\nWith over 60 available components modules in the catalogue, we are be able to offer 5 packs intended for different training levels.\n\n- BHI4 V1 \u2013 ON OFF Manual (Single Face Bench \u2013 On-Off)\n- BHI4 V2 \u2013 ON OFF Elec (Single Face Bench \u2013 On-Off)\n- BHI4 V3 \u2013 PROPORTIONAL (Single Face Bench \u2013 Proportional)\n- BHI4 V4 \u2013 ON OFF & PROPORTIONAL (Double Face Bench \u2013 On-Off & Proportional)\n- BHI4 V5 \u2013 MOBILE (Single Face Bench \u2013 Mobile)\n\nDetails of the BHI4 hydraulic didactic bench\n\n- Hydraulic power station with fixed or variable displacement with LS,\n\n- Hydraulic components mounted on a drilled aluminium block with built-in pressure taps,\n\n- Hoses equipped with 3\/8\u2033 flat face clean couplers,\n\n- Electrical racks with On\/Off and proportional controls\n\n- Vertical cylinder with modular suspended load,\n\n- Storage module,\n\n- PID regulation card configuration software \u2013 Open Loop or servo system,\n\n- Antagonistic horizontal cylinders with position sensors.",
        "Specs": "Detail of the educational file that we have broken down into 3 levels:\n\nA) Level 1\n\nPractice on ON OFF face\n\n- PW1: The hydraulic unit\n- PW2: The pressure relief valve\n- PW3: The TOR distributor\n- PW4: The flow relief valve\n- PW5: The double-acting cylinder\n- PW6: Load lifting\n- PW7: Check valve and balancing valve\n- PW8: Pressure reducer\n- PW9: Sequence valve\n- PW10: The accumulator\n\nB) Level 2\n\nPractice on the \u201cPRO OL \/ CL\u201c side\n\n- PW1: Increase the speed of a cylinder by differential overcharging\n- PW2: Decompress a volume of pressurized oil in a cylinder and elastic pipes\n- PW3: Select 2 pressure levels in one hydraulic circuit\n- PW4: Conditioned sequence of movement of 2 jacks\n- PW5: Using an energy reserve\n- PW6: Adjusting a speed\n- PW7: Managing a constant flow\n- PW1p: The proportional valve in open loop\n\nC) Level 3\n\nPractice on the \u201cPRO OL \/ CL\u201c side\n\n- PW1: Load Sensing\n- PW 1p: The proportional pressure relief valve\n- PW 2p: The proportional flow relief valve\n- PW 3p: Position control on a cylinder\n- PW 4p: Speed control on a motor",
        "Url": "edquip.co\/en\/id-system\/hydraulic-training-bench-bhi4",
        "Page title": "Hydraulic Training Bench BHI4: ID Systems - EDQUIP",
        "Page description": "Hydraulic Training Bench, for technical education. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.\n",
        "Lowest number of students": 1,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V",
            "100-127V",
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023.00.00",
        "Equipment dimensions": "213\/71\/210",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "575",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "274\/180\/226",
        "Packed dimensions unit": "cm",
        "Packed weight": "1320",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ID System Didactic\/Hydraulic Training Bench BHI4\/1723125295__DSF0708.jpg",
        "Video link": "",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-946998",
        "Product Type": "hardware",
        "Producer": "ID System Didactic",
        "Producer product number": "AERO",
        "Content languages": "en, fr, de, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Documentation"
        ],
        "Name": "Aircraft Maintenance Trainer - Full",
        "Description": "This didactic equipment has been specially designed for the learning of hydraulic aeronautical maintenance.\n\nThe purpose of this bench is to provide the best learning and safety conditions to learners while combining to these didactic equipments some hydraulic industrial components suitable for the aeronautics requirements.\n\nThese didactic equipments ensure the learners and trainers\u2019 safety as well as avoid them to be in contact with high toxicity hydraulic fluids and high pressures as the ones met on aircrafts.\n\nStudents practice on a didactic aeronautical laboratory, specially designed with hydraulic components from high branded industrial technology which has the advantage to be less expensive than aeronautical equipments. They learn the maintenance of airplanes\/helicopter hydraulic circuits in a playful approach.\n\nThe A\u00e9rocampus of Bordeaux (south western France), experts in aeronautics maintenance have thus helped us to design this electro-hydraulic control desk and its operative parts which allow to place learners in situation with a didactic material taking again the specificities of the aeronautical field.\n\nWe relied on the skills and experience of a teacher graduated from the French National Education and former mechanical engineer sailing in the French Air Force Yoann Gac, to develop this complete training equipment.\n\nThis educational aeronautical bench enables to develop the following skills:\n\n- Using a technical documentation\n- Taking into account the hydraulic dangers\n- Securing an hydraulic circuit\n- Preparing a technical intervention\n- Installing and removing subassemblies\n- Tuning subassemblies\n- Running some trials\n- Performing troubleshooting and repairs\n- Performing checks further to an intervention\n- Monitoring a part of an aircraft\n- Communicating information in an aeronautics environment",
        "Specs": "FULL TRAINING SYSTEM PARTS\n\nControl and wiring desk\n\n- 1 power unit with 2 hydraulic circuits + safety control\n\n- Safety control with hand pump\n\n- 70 Liters steel tank with breather screw, lead-sealed pressure relief valve 120 bar, visual and electric level, filter\n\n- CETOP 3 function block with 4\/2 distributor and secondary pressure relief valve\n\n- Adjusted 80 bar secondary circuitry allowing taking over\n\n- Safety control with hand pump PM50 12\/25\/45 and with stick\n\n- Cooling circuit 2015 K-380V with safety thermostat\n\nECAM visual PLC screen\n\n- This new generation industrial HMI automaton represents an Ecam screen that you usually find in aircraft cockpits.\n\n- You will be able to visualize during the operating cycles of the operative parts, landing gear and flap (Wheel and Flapi), the proper functioning of the movement sequences thanks to the sensors connected to the PLC and the LEDs on the landing gear & flap control panel.\n\n- A \u201cHydraulic Diagram\u201d tab will be accessible for students to apprehend the different hydraulic and electrical circuits of the equipment.\n\n- You will also have the possibility to access to the practical work and some videos since this automaton has the particular feature of reading PDF and mp3 formats.\n\n- A \u201cGraph\u201d tab is available for interpreting and analyzing curves related to flow, pressure or temperature.\n\nOperative part: Landing gear POTA-V2\n\n- This operative part \u201cLanding Gear\u201d reproduces the same gear and trapdoor opening cycle kinematic as the majority of aircraft. The trapdoor opens thanks to a hydraulic cylinder and goes to find its blocking position, then the gear, also controlled by a cylinder, unfolds and to complete the cycle, the trapdoor closes itself.\n\n- The different steps of the cycle are validated by sensors that allow or not the control of the next movement.\n\nOperative part: Flap POV-V2\n\n- We have recreated the kinematics of a flap with the possibility of an \u201cON\/OFF\u201d hydraulic control but also in proportional control. The digital card and its software integrated in the PCA-V2 desk will allow you to control the movement of the open-loop or position-controlled flap with its linear potentiometric regulation (4 closed-loop positions with 4 position sensors).\n\n- A compass is installed on this flap and communicates an angular displacement of this one.\n\nOperative part: Ground hydraulic power unit GS\n\n- This group aims to provide a adjustable pressure and flow so replacing the functions of the aircraft (It is the PCA-V2 desk which will become the aircraft), filtering and filling or emptying a hydraulic circuitry.\n\nStorage modules:\n\n- This components modules storage rack is the perfect accessory for our panel benches. It allows to store together in one place all hydraulic flexibles and modules you will use during your training.",
        "Url": "edquip.co\/en\/id-system\/hydraulic-didactic-bench-for-aeronautical-maintenance",
        "Page title": "Hydraulic Aeronautical Maintenance Trainer: ID Systems - EDQUIP",
        "Page description": "Designed for hands-on education and training of hydraulic applications in aviation maintenance. Suitable for technical training centers, schools and colleges.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V",
            "100-127V",
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023.00.00",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ID System Didactic\/Aeronautical Maintenance Training System\/Aeronautical Maintenance Training System_AERO_ID System Didactic__DSF4366.png",
        "Video link": "<a href=\"<a href=\"<a href=\"<a href=\"https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC\" >https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC<\/a>\" >&lt;a href=&quot;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&quot; &gt;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&lt;\/a&gt;<\/a>\" >&lt;a href=&quot;&lt;a href=&quot;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&quot; &gt;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&lt;\/a&gt;&quot; &gt;&amp;lt;a href=&amp;quot;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&amp;quot; &amp;gt;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&amp;lt;\/a&amp;gt;&lt;\/a&gt;<\/a>\" >&lt;a href=&quot;&lt;a href=&quot;&lt;a href=&quot;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&quot; &gt;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&lt;\/a&gt;&quot; &gt;&amp;lt;a href=&amp;quot;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&amp;quot; &amp;gt;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&amp;lt;\/a&amp;gt;&lt;\/a&gt;&quot; &gt;&amp;lt;a href=&amp;quot;&amp;lt;a href=&amp;quot;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&amp;quot; &amp;gt;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&amp;lt;\/a&amp;gt;&amp;quot; &amp;gt;&amp;amp;lt;a href=&amp;amp;quot;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&amp;amp;quot; &amp;amp;gt;https:\/\/www.youtube.com\/embed\/7dQbk4y3cZ8?si=2ULUVpU1mGVt2izC&amp;amp;lt;\/a&amp;amp;gt;&amp;lt;\/a&amp;gt;&lt;\/a&gt;<\/a>",
        "Main category": "Aviation Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-720759",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "ELHT-Advance",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation",
            "Video"
        ],
        "Name": "Electrohydraulic Training Kit - Advanced",
        "Description": "Advanced Electrohydraulic Training Kit with PLC\n\nThe Advanced Electrohydraulic Training Kit with PLC from Hytech Automation is a comprehensive industrial training system designed to provide hands-on learning in hydraulic systems, electrohydraulic control, PLC integration, and industrial automation applications.\n\nThe system is developed to bridge the gap between theoretical concepts and real-world industrial hydraulic applications by enabling learners to design, simulate, and execute hydraulic circuits using real industrial hydraulic components and PLC-controlled automation systems.\n\nThis advanced training platform allows participants to understand the operation of conventional hydraulic valves, electrohydraulic systems, pressure control devices, directional control valves, flow control valves, hydraulic actuators, and PLC-based hydraulic automation processes.\n\nThe training kit is specifically designed for engineering colleges, vocational institutes, technical training centers, and industrial skill development laboratories where students progress from basic hydraulic concepts to advanced electrohydraulic automation systems.\n\nThe system includes industrial-grade hydraulic components, PLC-based control architecture, field input\/output modules, simulation software integration, workstation arrangement, and mobile hydraulic hose management for real-time industrial learning experiences.\n\nLearning Outcomes:\n\n- Understand hydraulic power transmission principles and hydraulic circuit operation\n- Learn operation and applications of pressure, flow, and directional control valves\n- Design and simulate hydraulic circuits using industrial simulation software\n- Develop PLC-controlled electrohydraulic automation applications\n- Understand hydraulic actuator control using solenoid valves and PLC systems\n- Perform hydraulic circuit assembly, troubleshooting, and diagnostics\n- Integrate hydraulic systems with PLC input\/output modules and automation logic\n- Understand industrial safety practices in hydraulic and electrohydraulic systems\n- Gain practical exposure to real industrial hydraulic automation applications\n\nKey Features & Benefits:\n\n- Industrial-grade electrohydraulic training platform\n- PLC-integrated hydraulic automation system\n- Hands-on training using real industrial hydraulic components\n- Supports hydraulic circuit design, simulation, and execution\n- Built-in safety arrangements with dual pressure relief valves\n- Subplate mounted CETOP-3 valves for industrial-standard training\n- Hard-piped hydraulic manifold arrangement for better understanding\n- Online hydraulic circuit simulation and PLC ladder integration\n- Computer-controlled workstation integration\n- Supports multi-student collaborative learning environment\n\nHydraulic & Electrohydraulic Training Modules:\n\n- Hydraulic Power Pack with Industrial Protection System\n- Pressure Relief Valve System\n- Directional Control Valves\n- Flow Control Valves\n- Pressure Control Valves\n- Solenoid Operated Hydraulic Valves\n- Hydraulic Cylinders & Actuators\n- Hydraulic Hose & Connector System\n- PLC Input & Output Interface Modules\n- Electrohydraulic Automation Modules\n\nSystem Configuration:\n\n- PLC-operated hydraulic training system\n- Field Input & Output Modules for PLC interfacing\n- Licensed PLC ladder programming software\n- Hydraulic simulation software integration\n- Workstation with computer integration\n- Mobile hydraulic hose trolley arrangement\n- Double-faced aluminum profile training structure\n- Front-side advanced hydraulic valves and rear-side basic valves arrangement\n\nSafety Features:\n\n- Dual pressure relief valve arrangement for enhanced safety\n- Lockable hydraulic power pack pressure protection system\n- Student-friendly industrial safety design\n- Safe hydraulic pressure experimentation setup\n\nApplications:\n\n- Hydraulic & Pneumatic Laboratories\n- Industrial Automation Training Centers\n- Engineering Colleges & Universities\n- Vocational & Technical Training Institutes\n- Industrial Skill Development Programs\n- Electrohydraulic & PLC Automation Training",
        "Specs": "Technical Specifications \u2013 Advanced Electrohydraulic Training Kit with PLC\n\n1. Trainer Kit Structure \u2013 Basic Hydraulic Trainer\n\n- Double-sided aluminum extrusion based hydraulic training workstation\n- Horizontal Work Area (Front): 1200 \u00d7 360 mm\n- Horizontal Work Area (Rear): 1200 \u00d7 360 mm\n- Vertical Work Area (Front): 1200 \u00d7 720 mm\n- Vertical Work Area (Rear): 1200 \u00d7 720 mm\n- Heavy-duty MS structure with castor wheels\n- Load bearing capacity: 380 Kg\n- Integrated drip tray: 1200 \u00d7 800 mm\n\n2. Trainer Kit Structure \u2013 Advanced Hydraulic Trainer\n\n- Double-sided industrial hydraulic training workstation\n- Horizontal Work Area (Front): 1200 \u00d7 450 mm\n- Horizontal Work Area (Rear): 1200 \u00d7 450 mm\n- Vertical Work Area (Front): 1200 \u00d7 720 mm\n- Vertical Work Area (Rear): 1200 \u00d7 720 mm\n- MS structure with castor wheels and industrial mobility arrangement\n- Load bearing capacity: 380 Kg\n- Integrated drip tray: 1200 \u00d7 850 mm\n\n3. Hydraulic Power Pack Module\n\n- 60 Liter hydraulic tank with industrial oil cleanliness level\n- Three-phase flange mounted electric motor \u2013 2 HP, 1500 RPM\n- Industrial gear pump \u2013 8 LPM, maximum pressure 70 Bar\n- Pressure gauges (0\u2013100 Bar), glycerin filled\n- Subplate mounted pressure relief valve with locking arrangement\n- Suction and return line filtration system\n- Pressure, return, and test line manifolds with hard-piped connections\n- Hydraulic powerpack mounting tray\n\n4. Basic Hydraulic Training Modules\n\n- Direct operated pressure relief valves\n- Pressure compensated & non-pressure compensated flow control valves\n- Manual directional control valves \u2013 tandem center & closed center\n- 3\/2 and 4\/3 hydraulic directional valves\n- Hydraulic motor bidirectional operation module\n- Needle valves, sequence valves, pressure reducing valves\n- Direct operated and pilot operated check valves\n- Single acting and double acting hydraulic cylinders\n- Hydraulic cylinder proximity sensor assemblies\n- Vertical weight loading arrangement with weight set\n- Hydraulic component cut-section models for visual learning\n\n5. Electrohydraulic Automation Modules\n\n- Pressure switch integration module\n- Double solenoid operated directional control valves\n- Single solenoid operated hydraulic directional control valves\n- Relay-based electrohydraulic control module\n- Electrical push-button based power supply module\n- Relay unit module for automation control\n- 2mm industrial patch cord connector system\n\n6. PLC Based Electrohydraulic Control System\n\n- Industrial PLC with 24 Inputs and 16 Outputs\n- Industrial PLC power supply and control panel\n- PLC input module with override switches\n- Field input and output interface modules\n- PLC output module with industrial connectivity\n- Remote operation station with selector switches and push buttons\n- Industrial control panel enclosure\n\n7. Workstation & Software Integration\n\n- Industrial workstation with computer and 21\u201d LED monitor\n- Bluetooth keyboard and mouse\n- Licensed PLC programming software\n- IRAI Automgen hydraulic simulation software (Perpetual License)\n- Real-time hydraulic and electrohydraulic simulation interface\n- Direct operation of training kit through simulation software\n- Workstation mounting arrangement\n\n8. Proportional Valve Training Kit\n\n- 7\u201d Color HMI integration\n- High-pressure hydraulic filtration system\n- Pressure relief valve with locking arrangement\n- Pressure, return, and test line manifold arrangement\n- Complete industrial piping arrangement\n- Hydraulic cylinder with minimum 150 mm stroke\n- Hydraulic cylinder proximity sensor assembly\n\n9. Proportional Valve Modules\n\n- Proportional Direction Control Valve with control card\n- Proportional Pressure Reducing Valve with control card\n- Manual hydraulic directional control valves\n- Industrial proportional hydraulic control applications\n\n10. System Features\n\n- Industrial-grade electrohydraulic training platform\n- Double-sided modular workstation design\n- PLC-integrated hydraulic automation system\n- Real-time hydraulic circuit design and execution\n- Hard-piped hydraulic manifold arrangement\n- Subplate mounted CETOP-3 valve arrangement\n- Industrial safety-focused training architecture\n- Computer-controlled hydraulic automation experiments\n- Supports multi-user collaborative learning\n- Expandable proportional hydraulic training integration\n\nApplications:\n\n- Hydraulic & Pneumatic Laboratories\n- Electrohydraulic Automation Training\n- Industrial Automation Skill Development\n- Engineering Colleges & Universities\n- Vocational & Technical Training Institutes\n- Industrial Maintenance & Troubleshooting Training",
        "Url": "edquip.co\/en\/hytech\/electrohydraulic-trainer",
        "Page title": "Electrohydraulic Training Kit Advanced: Hytech - EDQUIP",
        "Page description": "Electrohydraulic Training Kit, designed for technical education. Request quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "90328100",
        "Equipment dimensions": "120 \u00d7 85 \u00d7 180",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "180",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "170 \u00d7 120 \u00d7 210 cm",
        "Packed dimensions unit": "cm",
        "Packed weight": "260",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/Electrohydraulic Training Kit - Advanced\/Electrohydraulic Training Kit - Advanced_ELHT-Advance_Hytech Automation_Electro hydraulic final.237.1-1.1 ratio.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/WmeGafkyNtk",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-892969",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "ELPT - Advanced",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation",
            "Video"
        ],
        "Name": "Electropneumatic Training Kit - Advanced",
        "Description": "Advanced Electropneumatic Training Kit with PLC\n\nThe Advanced Electropneumatic Training Kit from Hytech Automation is a comprehensive PLC-based industrial pneumatic training system designed to provide practical hands-on learning in pneumatic systems, electropneumatic automation, PLC programming, industrial process control, and mechatronics applications.\n\nDeveloped using industrial-grade pneumatic and automation components, the system enables learners to understand and implement real-world industrial automation concepts through practical experimentation, industrial wiring, pneumatic circuit design, PLC interfacing, and automated sequencing operations.\n\nThe training system features a dual-faced industrial workstation constructed using heavy-duty aluminum extrusion profiles, providing a robust and flexible platform for industrial training applications. All pneumatic components are mounted with engraved industrial symbols and identification labels, making it easier for participants to understand pneumatic logic, component functionality, and circuit development.\n\nThe system supports computer-controlled operation through PLC and industrial simulation software integration, allowing participants to design, simulate, and directly execute pneumatic and electropneumatic automation circuits in real time.\n\nIndustrial PLC input and output modules are integrated within the control panel, while field input and output modules are hardwired with industrial devices such as solenoid valves, reed switches, and pneumatic actuators using industrial sensor terminals and patch cord connectivity.\n\nLearning Outcomes:\n\n- Understand fundamentals of pneumatic and electropneumatic systems\n- Design and implement pneumatic logic circuits using industrial valves and actuators\n- Develop PLC programs for industrial electropneumatic automation applications\n- Understand industrial sensor integration and actuator interfacing\n- Perform industrial wiring using PLC input and output modules\n- Learn pneumatic sequencing, interlocking, and automated process control concepts\n- Design and simulate pneumatic circuits using IRAI Automgen software\n- Develop troubleshooting and maintenance skills for industrial pneumatic systems\n- Gain practical exposure to industrial automation, mechatronics, and Industry 4.0 applications\n\nKey Features & Benefits:\n\n- Industrial PLC-based electropneumatic training platform\n- Dual-faced heavy-duty aluminum profile workstation\n- Industrial pneumatic component mounting system\n- Patch cord-based PLC and field I\/O connectivity\n- Safe and beginner-friendly industrial wiring arrangement\n- Computer-controlled experiment operation through industrial simulation software\n- Industrial-grade field input and output modules\n- Supports pneumatic, electropneumatic, and PLC automation applications\n- Industrial connector-based wiring system for easy maintenance and troubleshooting\n- Expandable modular architecture for advanced industrial training applications\n\nMajor Components Included:\n\n- Basic Pneumatic Valves\n- Advanced Pneumatic Valves\n- Electropneumatic Valves & Automation Components\n- PLC \u2013 Siemens S7 200 Smart ST40 \/ Siemens S7 1200\n- PLC Input & Output Interface Modules\n- Field Input & Output Modules\n- Industrial Sensor Terminals\n- Solenoid Valves & Reed Switches\n- Industrial Workstation with Licensed Software\n- IRAI Automgen Pneumatic Simulation Software\n\nSystem Features:\n\n- Easy assembly and disassembly of pneumatic components\n- Industrial symbol engraved component identification\n- Computer-integrated pneumatic simulation and operation\n- Safe PLC operation without risk of hardware damage\n- Industrial connector-based wiring system\n- Rigid mounting arrangement with castor wheels\n- Industrial MDF workstation with storage pedestal\n- Supports multiple industrial pneumatic automation experiments\n- Suitable for multi-user industrial training environments\n\nApplications:\n\n- Pneumatics & Electropneumatics Laboratories\n- Industrial Automation Training Centers\n- Engineering Colleges & Universities\n- Vocational & Technical Training Institutes\n- Mechatronics & PLC Training Programs\n- Industrial Maintenance & Troubleshooting Training\n- Industry 4.0 & Smart Manufacturing Training",
        "Specs": "Technical Specifications \u2013 Advanced Electropneumatic Training Kit with PLC\n\n1. Basic Pneumatic Training Modules\n\n- FRL Unit with Pressure Gauge\n- Junction Boxes & Isolation Boxes\n- Hand Slide Valves & Flow Control Valves\n- Single Acting Pneumatic Cylinder with Flow Control Valve\n- Double Acting Pneumatic Cylinders with Flow Control Valves\n- Industrial PU Tubing & Pneumatic Connectors\n- Union Tee & Union Y Connectors\n- Industrial Tube Cutter\n\n2. Pneumatic Logic & Control Modules\n\n- Two Pressure Valve\n- Shuttle Valve\n- Quick Exhaust Valve\n- Push Button Operated Pneumatic Direction Control Valves\n- Knob Operated Pneumatic Direction Control Valves\n- Roller Operated Direction Control Valves\n- Mushroom Head Operated Pneumatic Valves\n- Lever Operated Pneumatic Valves\n- Spring Return Direction Control Valves\n- 5\/3 Pneumatic Direction Control Valve\n\n3. Advanced Pneumatic Automation Modules\n\n- Pilot Operated Direction Control Valves\n- Single Pilot Pneumatic Control Valve\n- Double Pilot Pneumatic Control Valves\n- 5\/3 Double Pilot Direction Control Valve\n- Idle Return Valve\n\n4. Pneumatic Motion & Vacuum Modules\n\n- Pneumatic Motor\n- Pressure Regulator\n- Vacuum Generator\n- Vacuum Cup Assembly\n- Vacuum Generator based Pick & Place Module\n- Time Delay Pneumatic Valve\n\n5. Electropneumatic Automation Modules\n\n- Solenoid Operated Direction Control Valves\n- Single & Double Solenoid Pneumatic Valves\n- 5\/3 Double Solenoid Direction Control Valve\n- Magnetic Reed Switches for Pneumatic Cylinders\n- Digital Pressure Switch with Analog Output\n\n6. Relay Based Electropneumatic Control System\n\n- 2mm Industrial Patch Cord Connector Set\n- Electrical Push Button based Power Supply Module\n- Relay Unit Module\n\n7. PLC Based Electropneumatic Control System\n\n- Industrial PLC with 24 Inputs and 16 Outputs\n- PLC Power Supply and Control Panel\n- PLC Input Interface Module with Override Switches\n- Field Input & Output Interface Modules\n- Industrial PLC Output Modules\n- Remote Operation Unit with Selector Switches & Push Buttons\n- Industrial Control Panel Enclosure\n- 2mm Patch Cord based PLC Wiring System\n\n8. Workstation & Software Integration\n\n- Industrial Workstation with Computer & 21\u201d LED Monitor\n- Bluetooth Keyboard & Mouse\n- Licensed PLC Programming Software\n- IRAI Automgen Pneumatic Circuit Design & Simulation Software\n- Dynamic Real-Time Simulation & Operation Interface\n- Direct Pneumatic System Operation through Simulation Software\n\n9. Compressor System\n\n- 1 HP Silent Air Compressor\n- 50 Liter Tank Capacity\n- Twin Cylinder Compressor\n- Single Phase Power Supply\n\n10. Trainer Kit Structure \u2013 Basic Configuration\n\n- Double-sided aluminum extrusion based workstation\n- Work Surface: 950 \u00d7 720 mm\n- MDF Base: 950 \u00d7 800 mm\n- Heavy-duty MS structure with castor wheels\n- Load Bearing Capacity: 250 Kg\n\n11. Trainer Kit Structure \u2013 Advanced Configuration\n\n- Double-sided industrial pneumatic training workstation\n- Aluminum extrusion based work surface: 1200 \u00d7 900 mm\n- MDF based workstation structure: 1200 \u00d7 800 mm\n- Heavy-duty MS structure with castor wheels\n- Load Bearing Capacity: 300 Kg\n\n12. Automation Module \u2013 Color Based Sorting Conveyor System\n\n- Rotary Motor with Sorting Arm\n- Guided Cylinder for Auto Loading\n- Vacuum Generator with Vacuum Cup\n- Color Sensor Integration\n- Photo Sensors for Loading & Unloading Detection\n- Industrial Conveyor System\n- AC Motor with Gearbox for Conveyor Drive\n- Automatic Sorting Bin Arrangement\n\n13. Manuals & Learning Resources\n\n- Operation Manual for Pneumatic Systems\n- Experimentation Manual\n- Pneumatics Text Book\n- Industrial Experiment Exercises & Training Applications\n\nSystem Features:\n\n- Industrial-grade PLC based electropneumatic training system\n- Dual-faced modular workstation architecture\n- Patch cord-based industrial wiring system\n- Real industrial pneumatic & automation components\n- Computer-controlled pneumatic simulation & operation\n- Expandable automation & mechatronics training platform\n- Safe industrial wiring architecture for beginners and advanced learners\n- Suitable for multi-user industrial training environments\n\nApplications:\n\n- Pneumatics & Electropneumatics Laboratories\n- Industrial Automation Training Centers\n- Engineering Colleges & Universities\n- Vocational & Technical Training Institutes\n- Mechatronics & PLC Training Programs\n- Industry 4.0 & Smart Manufacturing Training",
        "Url": "edquip.co\/en\/hytech\/electropneumatic-trainer",
        "Page title": "Electropneumatic Training Kit Advanced: Hytech - EDQUIP",
        "Page description": "Electropneumatic Training Kit, designed for technical education. Request quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "9023",
        "Equipment dimensions": "150 x 100 x 180",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "120",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "200 x 150 x 230",
        "Packed dimensions unit": "cm",
        "Packed weight": "165",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/Electropneumatic Training Kit - Advanced\/Electropneumatic Training Kit - Advanced_ELPT - Advanced_Hytech Automation_electro pneumatic final.231.1.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/awERrfM_5oQ",
        "Main category": "Pneumatics Training Systems"
    },
    {
        "Edquip ID": "PL-360662",
        "Product Type": "hardware",
        "Producer": "Test Company 1",
        "Producer product number": "TP-HW",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Webinars",
            "Video"
        ],
        "Name": "Test Product 1 HW",
        "Description": "This is a test product only, no commercial purposes.\n\n2nd edit test for IndexNow\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\n- Item 1\n- Item 2\n- Item 3",
        "Specs": "This is a test product only, no commercial purposes.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.",
        "Url": "edquip.co\/en\/test-company-1\/test-product-1-hw",
        "Page title": null,
        "Page description": "",
        "Lowest number of students": 1,
        "Highest number of students": 5,
        "System type": null,
        "Education level": null,
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "36 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Internet",
            "External ventilation",
            "Gases"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "902300.10",
        "Equipment dimensions": "210\/50\/120",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "280",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "250\/100\/150",
        "Packed dimensions unit": "cm",
        "Packed weight": "310",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Test Company Products\/test_product_1.png",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-942997",
        "Product Type": "software",
        "Producer": "Test Company 1",
        "Producer product number": "TP-SW",
        "Content languages": "en, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "Live online",
            "Webinars"
        ],
        "Name": "Test Product 2 SW",
        "Description": "This is a test product only, no commercial purposes.\n\n2nd edit test from v-portal for IndexNow\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.",
        "Specs": "This is a test product only, no commercial purposes.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.\n\nLorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions of Lorem Ipsum.",
        "Url": "edquip.co\/en\/test-company-1\/test-product-2",
        "Page title": null,
        "Page description": "",
        "Lowest number of students": 1,
        "Highest number of students": 1,
        "System type": null,
        "Education level": null,
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": [
            "FAQs",
            "Email",
            "Forum",
            "Phone support",
            "Physical visits"
        ],
        "Software requirements": [
            "Avialable offline",
            "Internet - low bandwidth",
            "Desktop - windows",
            "Desktop - chromebook",
            "Mobile - Windows",
            "Mobile - iPad",
            "Mobile - Android"
        ],
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Test Company Products\/test_product_2.png",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-803450",
        "Product Type": "hardware",
        "Producer": "ATT - Advanced Training Technologies",
        "Producer product number": "advanced",
        "Content languages": "en, de",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "HydroDidact Advanced",
        "Description": "Application:\n\nHydroDidact is a learning board to perform specific exercises in the areas of hydraulics and control engineering.\n\nTraining objective:\n\nIn addition to providing basics and systematic troubleshooting (compare training objectives HydroDidact Standard), the system is particularly suitable for the fault analysis in the field of hydraulic control technology.\n\nHighlights:\n\n- Frequency controlled servomotor with double internal gear pump (0-2500 RPM)\n- OBE Control valve with position sensor.\n- Cylinder position sensor\n- Isolating transformer for connection to 400VAC networks with FI fuse\n- Integrated pressure control via synchronous motor\n- Position control via control valve or the synchronous drive\n- Full control via smart devices through web interface\n\nDocumentation:\n\n- Operating Instructions\n- General Operation & Maintenance Manual\n- Hydraulic and electric scheme",
        "Specs": "Technical details:\n\n- Container size: approx. 40 liters\n- Pump capacity: double pump (2x ca. 5,9 l\/min)\n- Operating pressure: 120 bar\n- Drive power: 3 KW\n- Frequency: 50 Hz\n- Magnetic voltage: 24V",
        "Url": "edquip.co\/en\/att\/hydrodidact-advanced",
        "Page title": "HydroDidact Advanced: Advanced Training Technologies - EDQUIP",
        "Page description": "Training equipment which provides the basics and includes trouble shooting of hydraulics and control engineering, in an applied and hands-on manner. Learn more!",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ATT\/HydroDidact Advanced\/ATT_HydroDidact_Advanced_front.jpg",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-760304",
        "Product Type": "hardware",
        "Producer": "ATT - Advanced Training Technologies",
        "Producer product number": "mobile",
        "Content languages": "en, de",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "HydroDidact Mobile",
        "Description": "Application: For group lessons in the theory field and team work in the field of practice. Add-on module for the extension of the Hydrodidact Standard for training of mobile hydraulics (Load-Sensing; traction drive; Open-Center)\n\nHighlights:\n\n- Mobile hydraulics for agricultural machinery, construction machinery and municipal vehicles\n- Simulation of a diesel engine\n- Simulation of all known mobile hydraulic drive concepts such as Open Center and throttle control\n- Pressure-regulated, power-regulated and load-sensing pump drives\n- Loadsensing control block with 2 sections (optionally with LUDV control block), with secondary pressure limitation and LS pressure limitation\n- Hand lever operation and electrical control with joystick and touch display\n- Volumetric flow measurement technology\n\nComponents:\n\nSynchronously operated hydraulic pumps, pressure control, Power regulation, hydraulic cylinder, Position control, Force control, Air operated hydraulic pumps, PLC \/ PLC, Pneumatic valve terminals, Asynchronous electric motors, Frequency converter, bus system",
        "Specs": "Technical details:\n\n- Asynchronous motor speed- controlled (4kW)\n- Axial piston pump with pressure control; power control; Load- Sensing regulation\n- Load-Sensing control block with two sections (With manual operation and CAN BUS control) Joysticks and display\n- Hydraulic motor with load simulation",
        "Url": "edquip.co\/en\/att\/hydrodidact-mobile",
        "Page title": "HydroDidact Mobile: Advanced Training Technologies - EDQUIP",
        "Page description": "A module for training of mobile hydraulics (Load-Sensing; traction drive; Open-Center etc.). This equipment is suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ATT\/HydroDidact Mobile\/HydroDidact Mobile front.jpg",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-223548",
        "Product Type": "hardware",
        "Producer": "ATT - Advanced Training Technologies",
        "Producer product number": "basic",
        "Content languages": "en, de",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "HydroDidact Basic",
        "Description": "Application:\n\nExplanation of the physical processes and the measurement technology in the hydraulic area. Practical exercises and a simplified clear view to show the basic functions in hydraulic systems. Working with circuit symbols, circuit diagrams and building the necessary hydraulic circuits. Treatment of all important topics for hydraulic training.\n\nExercise topics for basic training:\n\nFilling, Principle of displacement, Shut off, Venting, Volume flow, Pressure measurement, Static pressure, Suction problems, Displacement problems, Transmission of movement and strength, Transfer of work and performance, Energy storage, Typical resistances, Native resistors, Working resistances, Efficiencies, Translation of movement and strength, pump, Pressure build-up, Pressure limitation, Direction control, Moving loads, Resistance control, Speed control, Displacement control, Hydraulic accumulator",
        "Specs": "Technical details:\n\n- H \/ W \/ D 1840\/1350\/750 mm\n- Pressure (max) 5 bar\n- Hydraulic fluid colored water\n- Volume flow approx. 10 l l \/ min\n- Cylinder 40 x 16 x 300 mm\n- Cylinder 60 x 20 x 300 mm",
        "Url": "edquip.co\/en\/att\/hydrodidact-basic",
        "Page title": "HydroDidact Basic: Advanced Training Technologies - EDQUIP",
        "Page description": "Basic hydraulics training equipment to learn physical processes and measurement technology in an applied and hands-on manner. Suitable for schools, colleges and",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ATT\/HydroDidact Basic\/HydroDidact_Basic front.jpg",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-514700",
        "Product Type": "hardware",
        "Producer": "ATT - Advanced Training Technologies",
        "Producer product number": "MTL",
        "Content languages": "en, de",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Maintenance Training Laboratory",
        "Description": "Integrated Maintenance Training Laboratory\n\nThe Integrated Maintenance Training Laboratory is a mobile industrial training and troubleshooting platform designed for technical education, vocational training and industrial maintenance qualification.\n\nThe system combines hydraulics, pneumatics, electropneumatics, PLC control technology, visualization and systematic fault analysis within one integrated industrial learning environment.\n\nThe laboratory enables realistic hands-on exercises, maintenance workflows and troubleshooting scenarios under practical industrial conditions. The integrated design allows interdisciplinary training across hydraulic, pneumatic and electrical systems while supporting structured diagnostic and maintenance methodologies.\n\nApplication Areas\n\n- Vocational training centers\n- Industrial maintenance departments\n- Technical schools and academies\n- Industrial qualification programs\n- Advanced technical training environments\n\nTraining Applications\n\n- Hydraulic and pneumatic system operation\n- Electropneumatic applications\n- PLC-based control exercises\n- Troubleshooting methodologies\n- Fault simulation scenarios\n- Signal tracking and diagnostics\n- Maintenance and commissioning workflows\n- Interdisciplinary industrial training exercises\n\nThe pneumatic and electropneumatic applications are integrated parts of the overall laboratory system while remaining independently usable for dedicated training exercises if required.\n\nOptional Train-the-Trainer programs can be provided to support commissioning, instructor qualification and sustainable long-term operation of the training system.",
        "Specs": "Integrated Maintenance Training Laboratory\n\nGeneral System Design\n\n- Mobile industrial maintenance training laboratory\n- Fully assembled and operational training system\n- Integrated lower and upper laboratory structure\n- Heavy-duty mobile frame construction\n- Integrated cable and hose routing\n- Organized training and operating areas\n\nHydraulic System\n\n- Hydraulic power and control components\n- Hydraulic training and troubleshooting functions\n- Hydraulic circuit training applications\n- Industrial hydraulic operating functions\n\nPneumatic and Electropneumatic System\n\n- Pneumatic supply and control components\n- Electropneumatic applications\n- Pneumatic training exercises\n- Independently usable pneumatic applications\n- Troubleshooting and maintenance exercises\n\nPLC \/ Automation Technology\n\n- PLC control system\n- Siemens S7 \/ TIA-based control technology\n- Signal processing and communication functions\n- Integrated automation and control applications\n\nVisualization and Operation\n\n- Integrated monitor and operator interface\n- Visualization of process and system states\n- Operating and monitoring functionality\n- Training-oriented visualization concept\n\nSafety Systems\n\n- Emergency stop functionality\n- Operator protection systems\n- Protective covers and safety elements\n- Integrated laboratory safety concept\n\nTraining and Troubleshooting Functions\n\n- Integrated fault simulation scenarios\n- Troubleshooting exercises\n- Maintenance workflows\n- Interdisciplinary industrial training applications\n\nSystem Integration\n\n- Mechanical integration\n- Hydraulic integration\n- Pneumatic integration\n- Electrical integration\n- Coordinated interaction between all system components\n\nDocumentation and Testing\n\n- Technical documentation\n- Operating information\n- Maintenance information\n- Functional descriptions\n- Factory testing and pre-commissioning",
        "Url": "edquip.co\/en\/att\/maintenance-training-laboratory",
        "Page title": "Hydraulics Maintenance Training Laboratory: ATT - EDQUIP",
        "Page description": "The top shelf product for training electrics, pneumatics, hydraulics, PLC and fault analysis. Excellent equipment for schools, colleges or corporate training. ",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ATT\/Maintenance Training Laboratory\/ATT_Maintenance_training_laboratory_front-s.jpg",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-366793",
        "Product Type": "hardware",
        "Producer": "ASTI Automation",
        "Producer product number": "AA087.000.02",
        "Content languages": "en, ro",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Coupled Tank System ASTANK-2+ (L,F,P,T)",
        "Description": "ASTANK 2 is an integrated platform for control techniques in systems engineering. It is designed to enable the application and testing of identification and control methods on a real process with non-linear behavior, described by fluid dynamics. Basically, it consists of a two open tanks system, between which fluid is circulated through a pumping and distribution network.\n\nThe equipment consists of:\n\nTwo interconnected graduated tanks, one with variable section;\n\n- Collector tank;\n- Two level transducers;\n- Pumping and distribution network:\n\n- frequency converter controlled pump;\n- two constant flow auxiliary pumps;\n- two pressure transducers for main pumping line monitoring;\n- two flow transducers, one for each tank feeding line;\n- two control valves (continuous electro-valves), one for each tank feeding flow adjust;\n- three manual valves;\n- Inverter driven pump;\n- Auxiliary pumps;\n\n- Heater;\n- Temperature sensor and evaluation unit;\n- Three level sensors (digital) for signaling filling \/ emptying limits;\n- Front panel for manual operation and connection of signals.\n\nASTANK 2 enables its users to study and develop non-linear control strategies for flow and level processes.\n\nWith ASTANK 2 training equipment it is possible to do many experiments, such as:\n\n- Study of the static and dynamic characteristics of transducers and actuators;\n- Process data acquisition and conditioning;\n- Analytic modeling and\/or experimental identification of the processes;\n- Designing of simple control structures (single controller of type P, PI or PID);\n- Designing of multi-model control algorithms or for multi-variable processes;\n- Implementation of adaptive structures for time-variant processes;\n- Implementation of control strategies based on evolutionary techniques (fuzzy controllers, genetic algorithms, neural networks);\n- Comparative study of control and robustness performance for the implemented algorithms.\n\nThis is why our equipment represents the best way to learn how to implement an automatic process control system on a PLC\/PC.",
        "Specs": "Includes:\n\n- INTERCONNECTED GRADUATED TANKS (one with variable section)\n- COLLECTOR TANK\n- BURKERT proportional VALVEs 24 V DC 18 W; CONTROL ELECTRONICS FOR SOLENOID VALVES\n- SIEMENS SINAMICS FREQUENCY INVERTER.\n- SIEMENS SINAMICS BASIC OPERATOR PANEL (BOP)\n- IFM PRESSURE TRANSDUCERS\n- IFM LEVEL TRANSDUCERS\n- IFM FLOW TRANSDUCERS\n- IFM TEMPERATURE TRANSDUCER with Display\n- HEATER 1000W, 230V, stainless steel, length 500mm\n- PUMP; CONSTANT FLOW AUXILIARY PUMPS; LEVEL SENSORS\n- POWER SUPPLY 24 V DC, 3A\n\nSIZE (W x H x D): 700 x 1300 x 600 mm\n\nNet weight: 42.80 kg\n\nTHE PACKAGE ALSO INCLUDES: Power cable, User manual\n\nRECOMMENDED: Safety connection cables 4mm, ASTANK-2+ Software Package",
        "Url": "edquip.co\/en\/asti-automation\/astank-2",
        "Page title": "ASTANK2: Systems Engineering Equipment: ASTI - EDQUIP",
        "Page description": "This is an integrated platform for control techniques in systems engineering. Designed to teach control methods on a real process with non-linear behavior.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ASTI Automation\/Coupled Tank System ASTANK-2- (L,F,P,T)\/Coupled Tank System ASTANK-2- (L,F,P,T) (AA087.000.02).png",
        "Video link": null,
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-564191",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SUNWIND-A2",
        "Content languages": "it",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Solar Wind Energy Advanced Trainer",
        "Description": "Modular trainer for the theoretical and practical study of the electrical installations with photovoltaic solar energy and wind energy. With the solar\/wind advanced trainer it is possible to perform experiments to determine the characteristics of a wind generator and a photovoltaic panel, study their off-grid operation with a battery charge regulator and their on-grid operation with the connection to the mains network. The complete system is supplied with a sunlight simulation module for indoor use.\n\nTRAINING OBJECTIVES\n\nStudy of wind turbine:\n\n- Identification of wind turbine components.\n- Operating the Wind Turbine Breaker.\n- Calculating wind power.\n- Measuring Wind turbine electrical power.\n- Study of wind turbine with load.\n\nStudy of off-grid wind system:\n\n- Dimensioning of an off-grid wind system.\n- Battery regulating and charging.\n- Supplying DC load with wind power stored in a battery.\n- Supplying AC load with wind power and a battery.\n- Calculating the system autonomy with different loads.\n\nStudy of on-grid wind system:\n\n- Measuring the electricity produced by the wind generator, delivered\/taken from the mains grid, and the loading of AC lamps.\n- Calculating the efficiency of the complete on-grid wind energy system.\n- Investigating the response of a wind system to a mains failure\n- Energy balance.\n- Measuring solar radiation: Changing the inclination and azimuth of the solar panel\n- Investigating the PV module response to shadow formation\n- Recording the characteristics of the solar modules: Solar Panel Voltage-Irradiation Curve, Solar Panel Current-Irradiation Curve (calculating the inner resistance of the solar panel), Obtaining the solar panel current-voltage curve, Obtaining the solar panel current-power curve, Measurement of the voltage and current of the photovoltaic module with overload\n- Off grid system: Measuring the generated power of a PV system and battery charging\n- Off grid system: Using Solar Panel and Battery to supply a DC Load\n- Off grid system: Design and testing of a standalone PV system in direct storage operation and 230V AC On grid system: Measuring the electricity delivered to the mains grid\n- On grid system: Measuring the electricity produced by the solar panel, delivered\/taken from the mains grid, and the loading of AC lamps\n- On grid system: Determining the efficiency of the grid connected inverter\n- On grid system: Investigating the response of a PV system to a mains failure",
        "Specs": "TECHNICAL SPECIFICATIONS\n\n- Three phase rectifier bridge module\n- DC load module. It includes a 20W dichroic lamp and 3W LED lamps, with independent switches.\n- Load management modules with three independent single-phase outputs for the dynamic study of different load types\n- Network monitor module used to measure electrical parameters in a single phase circuit\n- Circuit breaker module\n- Fixed single phase power source rated at mains voltage with auxiliary 12 Vdc fixed regulated voltage output to power measurement modules\n- 100Ah\/12V battery with battery protection module\n- 27Ah\/12V Battery\n- Motor\/generator group for the simulation of a wind turbine. Composed of a brushless motor and a three-phase permanent magnet generator.\n- Control module for brushless motor drive\n- Off-grid inverter module, with pure sine wave output at mains voltage.\n- Wind turbine charge controller with brake system.\n- Multifunction measurement module for wind applications: It includes four separate instruments to measure all fundamental parameters for the study of a wind-system.\n- Electronic charge regulation module, with LCD display, MPPT tracking and energy monitor.\n- Active DC load used in the renewable energies laboratories configurable as constant resistance or constant current.\n- Inclinable photovoltaic panel, 90W, 12V, complete with a cell for measuring the solar irradiation and a temperature sensor.\n- A Grid-tie inverter with output at mains voltage, 12V, 100W.\n- Multifunction measurement module: solar irradiation (up to 1000 W\/m2), solar panel temperature (up to 400\u00b0C), 2 DC power meters (65Vdc, 20Adc, 1000W) and 1 AC power meter (512Vac, 20Aac, 1000W).\n- On-grid inverter module, with sinusoidal output at mains voltage, 3ph-12V. Average power: 300 W.\n- Sun simulator consisting of halogen lamps to provide energy to the photovoltaic module for indoor use\n- Three level frame\n\nThe Solar\/Wind Energy Advanced Trainer is supplied with a software developed in LabVIEW that is able to communicate with the main components of the modular system via RS485 serial communication using Modbus RTU protocol, in order to perform a data acquisition and processing.",
        "Url": "edquip.co\/en\/de-lorenzo\/solar-wind-energy-advanced-trainer",
        "Page title": "Solar Wind Energy Advanced Trainer: De Lorenzo - EDQUIP",
        "Page description": "Solar PV + Wind Power training equipment. Request quotation today! Free price estimations, hands-on learning, suitable for  schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "339 x 75 x 160",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "351 x 102 x 198",
        "Packed dimensions unit": "cm",
        "Packed weight": "128",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Solar Wind Energy Advanced Trainer\/Solar Wind Energy Advanced Trainer_DL SUNWIND-A2 xs.jpg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-158257",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SUNWIND-24V3",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Hybrid solar - wind energy trainer",
        "Description": "The main target of a hybrid power system is to combine multiple sources to deliver non-intermittent electric power, trying to take advantage of multiple available renewable energies.\n\nComplete with connecting cables, experiment manual and software for data acquisition and processing.\n\nTRAINING OBJECTIVES\n\nSolar energy:\n\n- Measurement of solar irradiance and irradiation\n- Graph tracing of the following characteristics of a photovoltaic module:\n- voltage at no-load, function of irradiance\n- short circuit current, function of irradiance\n- current \u2013 voltage, function of irradiance\n- voltage and current in overload condition\n- series and parallel connected configurations\n- Regulating and charge of the battery\n- DC solar plant\n- AC installation.\n\nWind energy:\n\n- Activating the braking action\n- Regulating and charging the battery\n- DC wind installation\n- AC installation: standby function investigation.\n\nHybrid system:\n\n- AC parallel connected, DC low voltage battery bank feed by different sources.\n\nGENERAL FEATURES\n\nThe Trainer is composed of two sub- systems for the conversion to electric energy, one from solar energy through a photovoltaic panel and the other from wind energy through a wind turbine. In this trainer, two inverters work parallel connected; one acting as master, synchronizes the frequency of the second inverter, acting as slave; this architecture allows creating a connection between the two outputs that operate as a single line with double available power. This configuration can be expanded up to 9 inverters connected.\n\nAverage training hours: 12h.",
        "Specs": "The trainer is composed of:\n\n- Two solar photovoltaic panels (85W, 12V) mounted on a support with wheels and complete with graduated scales for adjustment of the inclination and calibrated cell in the upper part for measuring the solar irradiance and temperature.\n-\n- Motor\/generator group for the simulation of a wind turbine. Composed of a brushless motor coupled to 24V AC 3ph generator, motor controller module, anemometer for real wind detection\n- Wind turbine electronic regulator for battery charging.\n- Two 2400W DC\/AC converter modules (2400 W each), with sinusoidal output to generate an electrical network (mains). With a circuit breaker to switch on and off the inverter. It operates as master or slave. Complete with control panel. Integrated MPPT solar charge controller, two 12V batteries.\n- Two 24Vdc load modules with two 20W halogen lamps each, with an On\/Off control switch.\n- Two 24Vdc load modules with two 3W LED lamps each, with an On\/Off control switch.\n- Two mains voltage load modules with a 35W halogen lamp and a 3W LED lamp each, with an On\/Off control independent switch.\n- Three-phase bridge rectifier module.\n- Two residual circuit breaker modules, 10A, I\u0394n 30mA.\n- Variable logarithmic rheostat module, 80\u03a9, 6A max., to load the photovoltaic panel to detect the voltage-current characteristic curves.\n- Instruments module for measuring solar parameters. It displays voltage-current-power, solar irradiance, temperature of the solar panel.\n- Instruments module for measuring wind parameters. It displays voltage-current-power, Wind and Rotor data.\n- Two sun simulators for solar photovoltaic panel internal use.\n- The intensity of the light can be controlled by the operator locally through a potentiometer and remotely through a DC 0 \u00f7 10 V signal or ModBus command.\n- Three-level frame for the modules.",
        "Url": "edquip.co\/en\/de-lorenzo\/hybrid-solarwind-energy-trainer",
        "Page title": "Hybrid Solar \/ Wind Energy Trainer: De Lorenzo - EDQUIP",
        "Page description": "Solar PV & Wind power training equipment. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "263 x 35 x 126",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "120",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "215 x 112 x 113",
        "Packed dimensions unit": "cm",
        "Packed weight": "470",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/wind energy trainer\/1727184796_DL SUNWIND-24V3 xs.jpg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-514399",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL WPP",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Wind Power Plant",
        "Description": "This trainer allows the students to study the functions and operations of a modern wind power plant simulating on it the effects of the wind force. It is designed starting with a few related concepts providing in-depth coverage of basic topics related to the field of electrical energy produced from the wind and some major aspects about Wind Power Plant management.\n\nThis system operates through a brushless machine and the simulation software, and the Doubly-fed Asynchronous Generator (DFAG) or (DFIG \u2013 Doubly-fed Induction Generator) allows a practical and effective approach to this trainer.\n\nDoubly fed electrical generators are like AC electric generators but have additional features which allow them to run at speeds slightly above or below their natural synchronous speed. This is useful for large variable speed wind turbines because wind speed can change suddenly.\n\nThe DFAG can change the speed of the generator rotor by means of controlling the frequency of the rotor field current. When a gust of wind hits a wind turbine, the blades try to speed up, but a synchronous generator is locked to the speed of the power grid and cannot speed up. So large forces are developed in the hub, gearbox, and generator as the power grid pushes back. This causes wear and damage to the mechanism. If the turbine is allowed to speed up immediately when hit by a wind gust, the stresses are lower with the power from the wind gust still being converted to useful electricity.\n\nOne approach to allowing wind turbine speed to vary is to accept whatever frequency the generator produces, convert it to DC, and then convert it to AC at the desired output frequency using an inverter. This is common for small house and farm wind turbines. But the inverters required for megawatt-scale wind turbines are large and expensive.\n\nThis proposed trainer has a modular structure that will grant teachers and students extreme flexibility during the study of the related topics and the performance of the experiments.\n\nIt is divided, from the hardware point of view, in:\n\n- PC with the specific software,\n- Wind sub-model,\n- Turbine sub-model,\n- Frame with modules required for running the Wind Power Plant trainer.\n\nFor the Wind sub-model, it has the architecture shown below:\n\nThe frame includes all the remaining modules of the DL WPP trainer such as:\n\n- PC with SCADA application,\n- Three- phase power supply unit,\n- Three- phase power measuring unit,\n- High power switches with local and remote control,\n- Brushless driver,\n- Hub for communication.\n\nAnd the main essential control unit of the trainer is the Back-to back converter\n\nThis control unit allows approaching and theoretically in depth analyzing the following topics:\n\n- Operation of the DFAG,\n- Integrated power switch for switching the generator online,\n- Reactive and active power, frequency, and voltage control,\n- Mains synchronization.\n\nAs previously mentioned, this trainer is complete with interactive multimedia SCADA software that can control and set several operations of the system; with this software it is possible to adjust the wind speed and profile and to examine the effects on the operating functions of a real Wind Power Plant. Another important feature of this software is related to the possibility to control, parameterize and visualize the obtained data.",
        "Specs": "With this software it is possible to perform the following activities:\n\n- Measurement, calculation, and graphic representation of many mechanical and electrical operating parameters,\n- Selection of the set-point values for reactive and active power,\n- Definition and simulation of wind power and profiles,\n- Interactive experiments set-up,\n- Values and graphs can be stored,\n- Experiments instructions can be viewed directly from the software,\n- Possibility to print documents for easy hardcopy printing of experiments instructions with solutions.\n\nWith this Wind Power Plant trainer, it is possible to perform the following experiments:\n\n- Study of functions and operations of a modern Wind Power Plant,\n- Relationships between a pitch control system and the wind,\n- Analysis of the mechanical parameters within an induction generator,\n- Analysis of the electrical parameters within an induction generator,\n- AC\/DC and DC\/AC IGBT converter,\n- Starting method of a Wind system,\n- DFIG (Doubly fed Induction Generator).\n\nOptional modules could be added to the main configuration of DL WPP (see Configurations at the end of this catalogue) to also perform:\n\n-  Experiments on the Fault Ride Through control.\n\nThis last optional part Fault Ride Through (FRT), sometimes Under-Voltage Ride Through (UVRT), or Low Voltage Ride Through (LVRT), is the capability of electric generators to stay connected in short periods of lower electric network voltage. It is needed at distribution level to prevent a short circuit at HV or EHV level from causing a widespread loss of generation.\n\nThe DL WPP trainer is dedicated, first, to students with some electromechanical background who want to understand the use of the wind power plant in the generation of electrical energy.\n\nIt is also suggested to be used in the following:\n\nDepartments and\/or faculties such as for:\n\n- Mechanical Engineers,\n- Electrical Engineers,\n- Wind farm developers,\n- Renewable Energy field Engineers,\n- Control system Engineers,\n- SCADA developers.\n- Postsecondary schools such as for\n- Wind energy technicians,\n- Electromechanical technicians,\n- Power systems electrical technicians,\n- SCADA technicians,\n- Electrical utility technicians.\n- Trade schools\/colleges and technical institutes and further education such as for\n- Senior multi skilled technicians in electromechanical Engineering,\n- Electrical\/Mechanical technology technicians,\n- Field service technicians,\n- Electrical utilities technicians.\n-  Vocational secondary school of electrical and\/or mechanical Engineering.\nPower supply: Three-phase 400V+N+PE\/50Hz, 2kVA.",
        "Url": "edquip.co\/en\/de-lorenzo\/wind-power-plant",
        "Page title": "Wind Power Plant: De Lorenzo - EDQUIP",
        "Page description": "Wind power plant for training. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "200 x 100 x 200",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "150",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 127 x 238",
        "Packed dimensions unit": "cm",
        "Packed weight": "178",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Wind Power Plant\/Wind Power Plant DL WPP.jpg",
        "Video link": "<a href=\"https:\/\/www.youtube.com\/embed\/-U-63jynJXA?si=K7t6ooxXJ9CUldd2\" >https:\/\/www.youtube.com\/embed\/-U-63jynJXA?si=K7t6ooxXJ9CUldd2<\/a>",
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-397353",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SPP",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": null,
        "Name": "Solar Power Plant",
        "Description": "Modular didactic system for the study of a photovoltaic power system and the operation of a three-phase solar inverter connected to the power grid.\n\nMonitoring and control of the trainer via software.",
        "Specs": "TRAINING OBJECTIVES\n\n- Introduction to solar photovoltaic energy.\n\n- Introduction to three-phase PV systems:\n\n- Main components description\n\n- Solar Plant installation.\n\n- Connection to the power grid.\n\n- Three-phase inverter operation:\n\n- Measuring generated power.\n\n- MPP (Maximum Power Point) tracking.\n\n- Grid-tied efficiency.\n\n- Grid operation:\n\n- Inverter response to voltage variation.\n\n- Grid fault simulation.\n\n- PV panel arrays emulator for powering the three-phase inverter:\n\n- Vdc min 200V.\n\n- Power 600W\n\n- Short circuit current 10 A\n\n- Solar three-phase inverter:\n\n- MPP tracking\n\n- Vdc input voltage 200 \u00f7 800V.\n\n- Power: 1000VA\n\n- Three-phase power circuit breaker with normally closed auxiliary contact.\n\n- Three-phase network monitoring device.\n\n- Bipolar magneto-thermic switch.\n\n- Three-phase residual Current Circuit Breaker.\n\n- Variable resistive load.\n\n- Variable three-phase transformer to simulate different grid conditions.\n\n- Fixed three-phase power distribution module for connection to the mains.\n\n- Data acquisition module to observe the voltage and current waveforms of the 3 phases simultaneously with isolated inputs.",
        "Url": "edquip.co\/en\/de-lorenzo\/solar-power-plant",
        "Page title": "Solar Power Plant: De Lorenzo - EDQUIP",
        "Page description": "Solar PV Power Plant. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "90 x 90 x 185",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "150",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "102 x 117 x 213",
        "Packed dimensions unit": "cm",
        "Packed weight": "178",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Solar Power Plant\/Solar Power Plant Traning Equipment DL SPP.jpg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-577995",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SGWD",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Smart Grid",
        "Description": "Since the early 21st century, opportunities to take advantage of improvements in electronic communication technology to resolve the limitations and costs of the electrical grid have become apparent.\n\nTechnological limitations on metering no longer force peak power prices to be averaged out and passed on to all consumers equally.\n\nIn parallel, growing concerns over environmental damage from fossil fuel-fired power stations have led to a desire to use large amounts of renewable energy.\n\nDominant forms such as wind power and solar power are highly variable, and so the need for more sophisticated control systems became apparent, to facilitate the connection of sources to the otherwise highly controllable grid. Power from photovoltaic cells (and to a lesser extent wind turbines) has also, significantly, called into question the imperative for large, centralized power stations.\n\nThe rapidly falling costs point to a major change from the centralized grid topology to one that is highly distributed, with power being both generated and consumed right at the limits of the grid.\n\nFinally, growing concern over terrorist attack in some countries has led to calls for a more robust energy grid that is less dependent on centralised power stations that were perceived to be potential attack targets.\n\nWHAT IS A SMART GRID?\n\nThe Smart Grid is a system for an \"intelligent distribution\" of electricity, able to know the consumption of the various end users and to manage the generation and distribution of electricity according to demand.\n\nSimply put, if in each area we have a potential overload of energy, the excess energy can be redistributed to other areas that need it, based on the actual requests from end users.\n\nFurthermore, the software that runs the Smart Grid monitors the electrical flow of the system, integrates renewable energy into the network and activates \/ suspends the industrial or domestic processes during periods when electricity costs less \/ more.\n\nThe smart grid knows our requirement of power consumption. When the demand for electricity is at its maximum, the smart grid automatically adapts to the demand by picking up excess energy from many sources to avoid overload problems or interruptions of power.\n\nIt has, therefore, the function of sharing the electricity that is generated from various sources, both public and private, traditional and renewable, and ensuring that electrical devices use electricity as efficiently as possible.\n\nWHAT IS A SCADA SOFTWARE?\n\nThe SCADA (Supervisory Control And Data Acquisition) is an industrial control system that performs the following functions:\n\n- acquisition of the physical quantities that are needed for the control and the supervision of the system;\n-\n- control, by means of actuators, of its operation;\n- supervision, to visually monitor, through the so termed synoptic diagrams, the operating status of the system, the alarms, etc., also in remote control.\n\nSCADA systems supervise, control, optimize and manage the systems for the generation and transmission of electrical energy as well as the distribution networks. They allow to collect, store and analyse data from hundreds of thousands of data points in national or regional networks, to model networks, to simulate operations, highlight faults, prevent them and finally participate in the energy markets.\n\nThey are a vital part of modern networks and enable the development of the smart grids that must handle enormous amounts of energy from renewable sources produced by generators of large and small scale, to maintain stability in the network despite the intermittency of these sources and the bidirectionality of the energy flow.\n\nThe different sections of the educational system communicate via Ethernet and dedicated RS485 serial buses using a standard industrial communication protocol such as MODBUS RTU.",
        "Specs": "DE LORENZO SOLUTION The smart grid system developed by De Lorenzo can be organized in eight subsystems, each comprised of several modules. The first four subsystems are simulations of energy sources; the first one is the main power supply of the grid with a three-phase supply unit that represents a coal plant.\n\nThe other three subsystems correspond to alternative sources of energy: wind, hydroelectric and solar. The wind plant simulation is made with a three-phase induction motor acting as a generator while the hydroelectric plant simulation is made with a three-phase synchronous machine, additionally with a generator synchronizing relay module to make possible the connection to the grid. Finally, the solar energy part of the system is generated with a solar panel and four dimmable lamps simulating the sun, which is connected to an inverter module that allows the energy generated to be transferred to the grid.\n\nA fifth subsystem in the smart grid consists of modules for fault protection; the modules are a feeder manager relay that measures in real time voltages and currents to detect faults in the grid and four power circuit breakers controlled by the previous module to disconnect faulty lines.\n\nThe sixth subsystem refers to modules for measuring; it has three maximum demand meters that measure AC voltages, currents, frequencies, active power, reactive power, apparent power, power factor and THD for each of the three available phases in the grid and two electrical power digital measuring units that, besides measuring the same as the previous module, make measurements of DC voltage, current, power and energy.\n\nThe seventh subsystem is for power factor control with 2 modules, the first one is a switchable capacitor battery with four different values of capacitors, and the second one is a reactive power controller that activates the capacitors of the previous module to make a power factor correction.\n\nThe last subsystem is composed of passive elements; three modules with different kind of loads (capacitive, inductive, resistive) that simulate the loads in a house or factory and two modules with impedances simulating the losses generated in transmission lines, specifically in lines of 10 and 100 km length.\n\nA SCADA software provides to the acquisition and storage of the data coming from the measurement instruments and to the control of the actuators for an \u201cintelligent\u201d management of the whole electrical system. The SCADA software can also be supplied on request in an OPEN version, so that the teacher can implement his own project and select modes and procedure for visualizing the parameters and controlling the actuators.\n\nThe system described above represents the basic configuration of our laboratory (DL SGWD).\n\nOptionally, it is also possible to add an additional wind energy small scale generation system, with a real wind turbine connected to an inverter module to make possible the connection to the grid.\n\nTHE EDUCATIONAL OBJECTIVES The Smart Grid trainer can be considered a multidisciplinary laboratory, because it allows studying and exercising different technical subjects, that are then integrated into a full Smart Grid system setup.\n\nActually, the Smart Grid trainer is an integrated laboratory that can be useful for a huge number of undergraduate and graduate courses in the engineering school. The laboratory equipment can be configured to create different exercises, which reinforce basic and advanced concepts in electric energy. The equipment can be interconnected to form a full smart grid system. However, as you can see from the list of experiments in the next paragraph, conventional topics, such as electric machines, distribution systems and so on could be covered by the Smart Grid trainer; this innovative laboratory can include class demonstrations and laboratory experiments under regular laboratory classes. There are fundamental topics that are needed for understanding the smart grid concept and they must relate to real life situations, yet a set of different topics could be added to get a special curricula. The core topics include electric circuits, electric machinery, hydroelectricity, wind energy, photovoltaic solar energy, renewable energies, power transmission, power distribution.\n\nFurthermore, additional courses can benefit from the smart grid trainer, such as, for example: power system engineering & analysis, electric machines, linear control systems, electrical distribution engineering and smart grids automation, power generation operation and control, power electronics, cost and construction of electrical supply, power system stability, optimization methods, stochastic processes, embedded systems.\n\nThe smart grid system can be used by mechanical and electrical engineering students as a longtime project as it comprises enough elements to cover most of the topics listed above. Electric circuits\u2019 particular subjects can be studied through load modules, enabling the full understanding of resistive, capacitive and inductive loads, fed by AC or DC supply. Protected equipment permits the application of domestic and industrial rated electric magnitudes as well as their instrumentation. Effects of inductive loads and power factor correction are issues which can also be addressed.\n\nThe study of AC electric machinery can also be complemented with the practical insight provided by the induction and synchronous generators used to emulate a wind and a hydro-electrical power plant respectively.\n\nSynchronization methods, power and instrumentation transformers, and the inner physical phenomena can be measured and studied as individual elements or as part of the whole power distribution system.\n\nThe entire system can be tested under many considerations as it is configurable, so different experiments can be driven based on the same principles. When analyzing distribution systems and fault schemes, the instrumentation and logical equipment can provide enough flexibility to understand the process between power generation and usage, together with abnormal events and their respective protective relaying issues. In this way, the topics added in the curricula which regard power management and distribution can also find room in the integrated smart grid project, which can be also evaluated under efficiency concerns depending on load conditions or generators\u2019 states.\n\nIn this way, the smart grid as a set of individual modules or as a whole, enables the student to move towards a single objective necessarily going through each individual area, making possible the full understanding of smart grid theory, application, and capabilities, as well as the concerning steps of its integration. The Smart Grid trainer also allows us to understand advanced topics like energy production in wind plants that are connected to the main electric grid, or they can be isolated as micro-grids, so the students can comprehend real problems in engineering which are imperative in the energy progress; thus, the basic and advanced courses can be combined in the wind turbine system. For example, wind generators include a pitch controller that increases energy efficiency and the energy generated is sent to the central electric grid; hence, the students must use several topics such as control systems, digital control, electric machines, and so on.\n\nAs an additional example, a combination of 3 energy sources can be studied when they are providing energy to the load. If the conventional source is combined with wind and hydro energy, the student will be able to understand in a clear manner the process of providing energy to the load by alternative energy. Moreover, environmental questions can be included in the exercise (carbon footprint).\n\nThe number of exercises and topics can be expanded, and the student is able to propose novel ideas about how to solve problems that affect society; hence, the motivation of student can be increased.\n\nIn conclusion, engineering courses need to cover experimental concepts that increase the engineering knowledge of students, but it is not easy to find experimental systems that allow them to combine those concepts.\n\nAlthough Smart Grid is a quite complex problem that is impacting electrical energy, it could be used for leaning basic concepts like electric circuits; hence, this system includes all the elements for providing real experience in the mechanical and electrical engineering curricula and impact the advanced and basic topics in the curricula. Smart Grid is a perfect system for teaching and involving students in experimental engineering problems. Besides, the student can deal with ecological and economic problems. The experimental use of solar and wind energy provides information about how the alternative sources of electrical energy can be used in large and low scale.\n\nOur proposal includes exercises with the Smart Grid in different topics; thus, this system is the conductor for connecting theoretical and practical concepts.\n\nLIST OF EXPERIMENTS\n\nSECTION 1: LOAD ANALYSIS\n\n- Characteristics of R-L-C loads.\n- Active energy measurement.\n- Reactive energy measurement.\n- Manual power factor compensation.\n- Automatic power factor compensation.\n\nSECTION 2: HYDROELECTRIC SYSTEM\n\n- Generator characteristics at no load.\n- Generator characteristics with load.\n- Performance regulation characteristics.\n- Automatic synchronization to the grid.\n- Overcurrent protection.\n- Overvoltage or undervoltage protection.\n- Over frequency or underfrequency protection.\n\nSECTION 3: WIND SYSTEM\n\n- Blade pitch control.\n- Analysis of mechanical parameters within an induction generator.\n- Analysis of electrical parameters within an induction generator.\n\nSECTION 4: RENEWABLE ENERGY MICROGRID\n\n- Characterization of a photovoltaic panel in the off-load state.\n- Characterization of a photovoltaic panel under load.\n- Connection of a photovoltaic system to the real grid using a single-phase grid inverter.\n- With Wind Extension (for the DL SGWD-W version):\n- Measuring the output power of a wind turbine.\n- Wind turbine system connection to the real grid using a three-phase grid inverter.\n- Efficiency of the grid-connected wind turbine inverter.\n- Islanding protection of the grid-connected wind turbine inverter.\n- Powering an AC load in a wind turbine inverter system.\n\nSECTION 5: TRANSFORMERS\n\n- Vector group study.\n- No-load performance study.\n- Load performance study.\n- Performance with asymmetric loads.\n- Study of the regulation and performance of power transformers.\n\nSECTION 6: TRANSMISSION\n\n- No-load performance study.\n- Performance study with matched load.\n- Performance study with ohmic-inductive load.\n- Performance study with ohmic-capacitive load.\n- Radial network.\n- Mesh network.\n- Study of transmission lines underground-fault conditions.\n-  Study of transmission lines under three-phase short-circuit fault conditions.\n- Study of transmission lines under two-phase short-circuit fault conditions.\n- Transmission line: ground-fault protection.\n- Transmission line: overcurrent protection.\n- Transmission line: undervoltage protection.\n- Transmission line: overvoltage protection.\n\nSECTION 7: SMART GRID\n\n- Powering a load in radial power networks under Smart Grid conditions.\n- Contribution of hydroelectric energy under Smart Grid conditions.\n- Contribution of wind farms under Smart Grid conditions.\n- Addition of local energy under Smart Grid conditions.\n- Power balance.\n\nMANUALS AND EXAMPLE OF AN EXPERIMENT\n\nThe system includes a comprehensive manual of experiments with a detailed description including the theory, procedure, and objectives for each of the 46 experiments.\n\nAdditionally, the system comes with a 300-page English-language book, \u201cEXPERIMENTAL CONCEPTS OF SMART GRID TECHNOLOGY BASED ON DE LORENZO SMART GRID,\u201d written by Professors Pedro Ponce and Arturo Molina of the Monterrey Institute of Technology (Mexico).\n\nEXPERIMENT (extract from Section 2) AUTOMATIC GENERATOR SYNCHRONIZATION\n\nThis experiment provides insight into a frequently performed operation in power grids. It is very important to synchronize a generator before placing it in parallel with another generator, as this ensures quality, reliability, and optimal performance within the system.\n\nFollow the diagram in the following figure and connect the power cables: Control the brushless motor (M) until it reaches the rated alternator speed. This can be done automatically by pressing the \"Auto\" button in SCADA. Increase the excitation voltage by pressing INC from SCADA, until the nominal voltage at the generator terminals (400Vac) is read on the digital measurement module. Before proceeding, it is very important to verify the correct phase sequence of the generator (check the wiring between the power supply and the power meter). If the phase sequence is incorrect, a message will appear in SCADA (Pay attention, generator phase sequence wrong). Slowly increase\/decrease the generator speed by pressing INC\/DEC until the generator frequency is as close as possible to the mains frequency. After the three synchronization conditions (phase sequence, frequency and voltage amplitude) have been met, the relay CLOSES the circuit breaker and the generator is synchronized with the grid.\n\nTHE LIST OF MODULES of \u201cDL SGWD\u201d VERSION:\n\nDL 2108T26, Brushless Controller With Motor DL 1021\/4, Squirrel cage three phase asynchronous motor DL 1013A, Base DL 1026P4, Three-Phase Synchronous Machine DL 1017R, Resistive Load DL 1017L, Inductive Load DL 1017C, Capacitive Load DL 2108TAL\u2010CP, Three Phase Supply Unit DL 1067S, Motor Driven Power Supply DL 7901TT, Overhead Line Model \u2013 360 Km DL 7901TTS, Overhead Line Model \u2013 110 Km DL 10065N, Electrical Power Digital Measuring Unit DL 2109T29, Three\u2010Phase Power Meter DL 2108T25, Generator Synchronizing Relay DL 2108T23, Feeder manager relay DL 2108T02, Power Circuit Breaker DL 2108T02A, Power Circuit Breaker DL 2108T19, Reactive Power Controller DL 2108T20, Switchable Capacitor Battery DL 2108T20C, Power factor correction capacitor module for induction machine DL 9031, Circuit Breaker DL 9013G, Inverter grid PFS-85, Photovoltaic Solar Panel DL SIMSUN, Lamps for the Photovoltaic Solar Panel DL WINDSIM, Wind Simulator DL HUBRS485F, Modbus Communication Hub DL SCADA3+, SOFTWARE SCADA DL 1080TT, Three\u2010Phase Transformer DL 1155SGWD, Kit of connecting leads DL T12090_SK, Multipurpose table (120x90x80cm) basic version with Shuko socket DL T06090, 60x90 Working Bench DL A120-3M, Three-level Frame DL SP-120-LED, LED cap for DL A120-3M frame DL PCGRID, All-In-One Personal Computer DL 2100TTI, Three-phase isolation transformer DL 1196, Holder For Leads",
        "Url": "edquip.co\/en\/de-lorenzo\/smart-grid",
        "Page title": "Smart Grid Training System: De Lorenzo - EDQUIP",
        "Page description": "Smart grid training system. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "500 x 90 x 185",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "200",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "212 x 112 x 224",
        "Packed dimensions unit": "cm",
        "Packed weight": "859",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Smart Grid\/smart-grid-2019.jpg",
        "Video link": "<a href=\"https:\/\/www.youtube.com\/embed\/mCG4wTVtWtc?si=wu2ydTyRPRZQeceV\" >https:\/\/www.youtube.com\/embed\/mCG4wTVtWtc?si=wu2ydTyRPRZQeceV<\/a>",
        "Main category": "Smart Grid Lab"
    },
    {
        "Edquip ID": "PL-319743",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL 8110H",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Hydraulics Bench Trainer",
        "Description": "The DL 8110H is a robust and flexible hydraulic bench with industrial characteristics designed for the study of basic hydraulic automation topics. The bench characteristics permits to broaden the didactic experience with additional trainer kit as: additional kit for the study of advanced hydraulic (DL 8110H-2), additional kit for the study of electromechanics hydraulic (DL 8110EH) and additional kit for study of proportional control (DL 8110HCA).",
        "Specs": "Highlights\n\n- The system can be used to design hydraulic circuits and to learn the hydraulic control techniques.\n- The components of the trainer are based on standard industrial hydraulic components.\n- A T-slot aluminium platform allows a rapid connection of the components\n- Multiple didactic experiences with the addition of accessories kit\n\nTechnical features:\n\n-  Dimensions: 1500mm x 780mm x 1700mm\n-  The bench includes 4 wheels and three drawers.\n-  Power supply: Three phase by the mains\n\nTHIS TRAINER IS COMPOSED AS FOLLOWS:\n\n-  Work bench complete with metal working panel with holes for clamping the hydraulic components without using additional tools, 4 wheels and 3 drawers for storing components.\n-  Hydraulic power unit assembled onto the metal structure, under the panel; 4.5 liters \/min., noise level 60 db - 1 meter, pressure relief valve, oil level viewfinder, air inlet filter, oil return filter, 1 pressure gauge, oil reservoir 30 liters, on-off control box with two push buttons and motor overload protection.\n-  Pressure relief valves 2 \u2026125 bar (2 off )\n- One way flow restrictor\n- Shut off ball valve\n- Two way flow restrictor\n- \u201cT\u201d distributor with pressure gauge\n- Cross distributor, 4 connections\n- Pressure compensated one way flow regulator\n- Four connections distributor on manifold with pressure gauge 0 .. 100 bar\n- One way restrictor (non-return valve)\n- Double acting differential cylinder\n- Piloted one way restrictor\n- 2\/2 manual acting valve, spring return\n- 3\/2 manual acting valve, spring return\n- 4\/2 manual acting valve, spring return\n- 4\/3 manual acting valve, spring centred\n- Set of tubes for testing pressure drops\n- Set of 12 hoses with quick female connectors\n\nADDITIONAL KIT\n\nADVANCED HYDRAULIC KIT - DL 8110H-2\n\n- Four connections distributor on manifold with pressure gauge 0 .. 100 bar\n- Pressure reducing valve. 3 ways, 2 ..125 bar\n- Pressure relief valve with spool and clamping, 2\u2026125 bar\n- Pressure relief valve with spool, piloted, 2\u2026125bar\n- Hydraulic motor\n- Double acting cylinder, 32, 16 x 200mm stroke\n- 2\/2 valve, ball actuated, spring return\n- Counter\u2010weight 10 Kg with protection.\n- Hydraulic diaphragm accumulator, 2 manual valves and a relief security valve\n- Set of 10 hoses with quick female connectors 10pcs\n\nELECTRO\u2010HYDRAULIC TRAINER KIT - DL 8110EH\n\n- Electronic power supply module, with overload and short circuit protection\n- Control unit, with 4 push buttons, 1 switch, 1 connection \/ disconnection electronic timer, 4 indicator lights, 6 connection dividers for positive voltage and 6 for negative voltage\n- Relay module, with 3 relay units, with 4 exchanged (switched) contacts each, an on-off light indicator on every relay solenoid, spark suppressing\n- diode on every solenoid\n- 4\/2 solenoid valve, spring return\n- 4\/3 solenoid valve, spring centered\n- Set of connectors for solenoids\n- Limit switch, with 1 normally closed contact + 1 normally open contact (3 off) with support.\n- Adjustable pressure switch, max. pressure = 125 bar.\n- Cable + connector for pressure switch, limit switch\n- Sets of 4mm banana connect cables and wires\n-\n\nPROPORTIONAL CONTROL KIT - DL 8110HCA\n\n- Tee couplings to distribute flow to 2 components\n- Hydraulic sequence valve, operating pressure 60 bar, max. 120 bars\n- Balanced pressure hydraulic valve\n- Check valves controlled, DC 24V, operating pressure 60 bar, max. 120 bars\n-  Proximity sensors, inductive with LED (yellow) indicating the switching state. The sensor is protected against reverse polarity, overload and short circuit. Switching voltage: 10 - 30 V DC\n- Proportional amplifiers and setpoint module\n- Proportional pressure-limiting valve\n\n- Pressure maximum 12 MPa (120 bar)\n- Pressure adjustment of 6.3 MPa (63 bar) for 600 mA at 1 l \/ min\n- Electro proportional valve 4\/3\n\n- Operating pressure p: 6 MPa (60 bar)\n- Max. Permissible pressure Pmax: 12 MPa (120 bar)\n- Design: with direct drive drawer\n- Control: Proportional coil, sealed, pushing\n- Nominal flow qN: 1.5 l \/ min, with dpN = 0.5 MPa (5 bar) \/ pilot edge\n- Rated current: 800 mA\n- Proportional amplifiers\n\n- Controlling proportional valves, designed to allow the control of two independent coils (1 channel) or a two-coil (2-channel) distributor, such as 4\/3 proportional valve.\n-  Setpoint values unit with the following functions:\n\n- Generation of programmable setpoint values, Programmable ramps, Cyclical sequence of setpoint values and ramps, stopwatch\n- Pressure filter\n\n- Filter blocking indicator\n- Service pressure p: 6 MPa (60 strips)\n- Maximum allowable pressure Pmax: 12 MPa (120 bar)\n- Filter micro: 5 microns\n- 4\/2-way monostable solenoid valve\n- 4\/3-way solenoid valve, spring center",
        "Url": "edquip.co\/en\/de-lorenzo\/hydraulics-trainer",
        "Page title": "Hydraulics Trainer: De Lorenzo - EDQUIP",
        "Page description": "Hydraulics Trainer, with elctrohydraulic options. Request your quotation today! Free price estimations, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": "cm",
        "Equipment weight": null,
        "Equipment weight unit": "Kg",
        "Packed dimensions": "152 x 82 x 206",
        "Packed dimensions unit": "cm",
        "Packed weight": "355",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Hydraulics Trainer\/Hydraulics_Trainer_DeLorenzo_8110H.jpg",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-404831",
        "Product Type": "hardware",
        "Producer": "DENSO Robotics",
        "Producer product number": "VP-5 2 430 \/ VP-6 2 430",
        "Content languages": "en, de, it, es, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "VP-Robot Education Package",
        "Description": "The VP series 5243 (5-axis) \/6242 (6-axis) are characterized by their very compact dimensions and high performance. With a handling weight of 3 KG and a reach of 430 mm, the 5- or 6-axis robot fits very well for a variety of tasks in training and further education.\n\nIn addition to the manipulator and the controller RC8A, the training package includes all necessary cables, the WINCAPS III software package with online\/offline programming and 3D simulation, as well as the ORiN interface as a middleware for high-level language programming and direct connection of various peripheral units.\n\nBenefits in educational areas:\n\n- very powerful for their small size\n\n- compact design: arm footprint 160 x 160 mm\n\n- integrated air piping for tools (4 lines) and electric wiring (9 core wires)\n\n- Floor or suspended from the ceiling",
        "Specs": "Arm length: 430 mm\n\nMax. Payload: 2.5 \/ 3 kg\n\nPosition repeatability: \u00b1 0.02 mm\n\nMax. speed (mm\/s): 3900\n\nController size: 440x94x300 mm\n\nPC based offline\/online robot programming and 3D Simulation Software\n\nHigh level programming languages e.g. Python, C++, Java, Visual Basic, LabVIEW, etc\n\nMotor & Encoder Cable (4m)\n\nMini I\/O cable (8m) incl. safety I\/O\n\nOptions:\n- 6-axis (VP-5243)\n- ProfiNET, EtherCAT, Ethernet\/IP, CC-Link",
        "Url": "edquip.co\/en\/denso-robotics\/vp-robot-education-package",
        "Page title": "VP-Robot Education Package: Denso - EDQUIP",
        "Page description": "This high performance 5 or 6 axis robot can lift weights up to 3 kilos. It  fits very well for a variety of tasks in training and further education. ",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
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        "Equipment weight unit": "",
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        "Packed dimensions unit": "",
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        "Packed weight unit": "",
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        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/DENSO\/VP-Robot Education Package\/denso_robotics_VP-robot_education_package.png",
        "Video link": null,
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-373260",
        "Product Type": "hardware",
        "Producer": "DENSO Robotics",
        "Producer product number": "HS-045A1-N20NNN-NNNNN-NNNN",
        "Content languages": "en, es, de, it, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Start Smart SCARA Package",
        "Description": "The HS-045A1 is a compact, high-speed, high precision DENSO industrial SCARA robot, based on the standard DENSO robot controller RC8A.\n\nWith a handling weight of 5 KG and a reach of 450 mm, the SCARA robot fits very well for a variety of tasks in training and further education.\n\nIn addition to the manipulator and the controller, the offer includes all necessary cables.\n\nBenefits in educational areas:\n- very powerful for their small size\n- compact design: footprint 150 x 193 mm\n- integrated air piping for tools (4 lines) and electric wiring 19 (for proximity sensor signals, etc.)",
        "Specs": "Arm length: 450 mm\n\nZ-axis: 200 mm\n\nMax. Payload: 5 kg\n\nMax. speed (mm\/s): 6300\n\nPosition repeatability: \u00b1 0.02 mm\n\nController size: 440x94x300 mm\n\nHigh level programming languages e.g. Python, C++, Java, Visual Basic, LabVIEW, etc\n\nMotor & Encoder Cable (4m)\n\nFlange kit\n\nMini I\/O cable (8m) incl. safety I\/O\n\nOptions:\n- ProfiNET, EtherCAT, Ethernet\/IP, CC-Link",
        "Url": "edquip.co\/en\/denso-robotics\/start-smart-scara-package",
        "Page title": "Start Smart SCARA Package: Denso - EDQUIP",
        "Page description": "This powerful 5kg SCARA robot fits very well for a variety of tasks in training and further education, suitable for colleges and universities. Learn more here!",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
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        "Packed dimensions unit": "",
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        "Packed weight unit": "",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/DENSO\/Start Smart SCARA Package HS-045A1\/denso_robotics_scara.png",
        "Video link": null,
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-455621",
        "Product Type": "hardware",
        "Producer": "Techno CNC",
        "Producer product number": "Atlas",
        "Content languages": "en",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "ATLAS SERIES CNC ROUTER",
        "Description": "The Atlas series machine is an all steel constructed machine providing a rigid foundation required for ultra-smooth routing results. The Atlas machine includes a 4HP HSD collet spindle includes a dust hood that has concentrated air flow at the cutter which provides optimal dust collection performance. The multi-zone vacuum t-slot table is constructed from very hard Phenolic which is very stable material, and holds tight tolerances for precision cutting, connected to a 10HP Rotary vane vacuum pump (twin pack optional) which has very quiet operation (82db). The Atlas series is powered by brushless stepper motors (servo optional), and is controlled via easy to learn and use hand held controller (PC based controller optional).\n\n- 4\u2032 x 4\u2032, 4\u2032 x 8\u2032 and 5\u2032 x 10\u2032 stock sizes (Special sizes available upon request.)\n- 4 HP HSD high-frequency collet spindle\n- Maintenance free brushless stepper drive motors\n- Multi-zone vacuum t-slot table\n- Easy to use hand-held controller (optional PC based system available)\n- Open architecture works with all industry standard CAD\/CAM software\n\nSPINDLE\n\nThe Atlas machine comes standard with a 4 HP HSD high frequency collet spindle. These precision spindles require no maintenance, use industry standard ER collets, come fully programmable speeds from 6000 to 18000 RPM, and come complete with a vacuum hood and wrenches.\n\nGANTRY\n\nThe gantry is constructed of tubular steel with reinforcing ribs, welded throughout the length of the column, which results in a steady firm beam assembly. This quality engineering and workmanship result in smooth precision cutting.\n\nVACUUM TABLE\n\nThe vacuum plenum table surface is single-zoned, which is controlled via main gate valve. The table can be zoned by easily moving gasket around to customize specific sections. Gasketing can also be routed to accommodate various material sizes and styles\n\nBASE\n\nThe base frame is fabricated from heavy-duty tubular steel that is welded, stress relieved and precision machined, so that the foundation remains true and steady over the operational life of the machine\n\nDRIVE TRAIN ASSEMBLY\n\nThe Techno Atlas CNC Router uses precision helical gear racks on the X and Y axes. The mounting of the rack is inverted to help keep dust and debris from building up on the drive system. This assures smooth motion and long term reliability. The precision gearbox is directly coupled to the stepper motor and pinion. This eliminates belt stretch inaccuracies, assuring high-speed machining while the system positions the spindle accurately\n\nTOOL CALIBRATION\n\nAutomatic tool calibration pad allows for easy and accurate \u201cZ\u201d zero position.\n\nGANTRY UPRIGHTS\n\nThe gantry uprights are cast iron with heavy duty gussets formed into the casting. Each support is machined for housing the various drive assemblies including motors, bearings, belts, and wiring harnesses.\n\nELECTRONICS\n\nAll the electrical components are housed and wired in a doubledoored Nema 4 electrical enclosure. This allows for easy access and service when needed. All wiring is tagged so that when service is required, the customer can easily navigate the cabinet. In addition, the cabinet serves as a work bench for the tools required\n\nOPTIONAL\n\nRAISED GANTRY\n\n11-1\/2\u2033 or 16\u2033 raised gantry option available\n\nDUAL SPINDLE\n\nTechno can equip an Atlas model machine with up to 3 spindles, so 3 identical parts can be cut simultaneously, thus increasing a company\u2019s part production. Mounted on a common single t-slot plate provides users the ability to quickly, and easily, change spindle center spacing.\n\nCONTROLLER OPTIONS (see product pictures)\n\n- Hand-Held Controller\n- SSA 5000 Controller\n- Win CNC Controller",
        "Specs": null,
        "Url": "edquip.co\/en\/techno-cnc\/atlas-series-cnc-router",
        "Page title": "Atlas Series CNC Router: Techno CNC - EDQUIP",
        "Page description": "The Atlas series machine is an all steel constructed machine providing a rigid foundation required for ultra-smooth routing results. The Atlas machine includes ",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Industry-Grade Equipment",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Techno CNC Systems\/Atlas Series\/Techno_CNC_Systems_Atlas_series_CNC_router_1.png",
        "Video link": null,
        "Main category": "CNC Training Machines"
    },
    {
        "Edquip ID": "PL-722152",
        "Product Type": "hardware",
        "Producer": "Techno CNC",
        "Producer product number": "HD-II",
        "Content languages": "en",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "HD II TABLETOP",
        "Description": "The HD-II Table top CNC router. This machine includes a 2HP HSD high frequency collet spindle, vacuum t-slot table which allows for mechanical clamping or vacuum hold down (pump optional). The gantry height is 7-1\/2\" which provide maximum flexibility to route sheet goods and larger taller parts if so desired. The machine drive motors are Nema 34 powerful high speed stepper motors, thus providing the power to route any wood, plastic, foam, or non-ferrous metals.\n\nThe controller is a stand-alone hand held controller. The buttons on the controller are all pre-programmed to perform certain machine instructions, thus making machine operations easy for instructors and student to learn and use the machine. No other machine on the market includes all of these features and capabilities. In addition the machines base has casters with locking wheels thus making this machine very portable.\n\n- Steel base with casters\n- Full safety enclosure\n- Cam Clamp\n- Clamp bar\n- Vise\n- Vacuum pump\n- 1 1\/2 HP dust collector\n- Toggle clamp set (4 pc)\n- Coolant system\n- 4th Axis rotary table with tailstock\n\nFEATURES:\n\n- 20\u201d x 30\u201d Process Area\n- Precision ball screws on all three axes\n- 2 HP HSD high frequency collet spindle\n- Brushless micro stepper motors and controls\n- Vacuum T-slot table for easy part fixturing\n- Easy-to-use hand held controller\n- Automatic tool calibration pad\n- Precision linear rails and bearings\n\nSPINDLE\n\nThe HD II Tabletop CNC router comes equipped with a 2 HP HSD high frequency collet spindle.\n\nVACUUM TABLE\n\nTechno vacuum t-slot table comes standard on our HD-II machine. This unique design features multi-port zone sections which allows users to move gasketing around to create concentrated vacuum zones, where desired. The heavy duty aluminum t-slots allow for mechanical fixturing, if vacuum is not required.\n\nTECHNICAL SUPPORT\n\nTechnical support, application engineering assistance, and remote diagnostics is FREE for the life of the machine via telephone, email, and remote logins\n\nCONTROLLER OPTIONS\n\nHand-Held Controller\n\nThe hand-held controller is the heart of the operational system. This hand-held controller redefines the phrase \u201ceasy-to-use\u201d. Customers can be up and running the same day power is connected to the machine. The setup introduction manual provides information that will have users cutting parts in minutes\n\nSSA 5000 Controller\n\nOur New Techno PC based industrial SSA 5000 controller is a Windows 10 based operating system. System connection is Ethernet for high speed communication resulting in high speed uninterrupted processing.\n\nWin CNC Controller\n\nThe WinCNC interface is a controller system with step jog for fine incremental control, start, stop and pause buttons, single button for safety clearance position, absolute and relative coordinates control, and more.\n\nOPTIONAL\n\nSafety Enclosure:\n\nTechno\u2019s heavy duty steel base includes hand jack center cross strut for easy maneuverability. Techno\u2019s safety enclosure feature ergonomic front main door with vertical swing, two side doors, (8) enclosure viewing windows, and 3.0\u201d top dust collection port. Techno\u2019s HD-II Table top router with stand and enclosure is designed to roll through a standard 36\u201d door opening making this model machine easy and convenient to move around the facility.\n\nCoolant System:\n\nThe Micro-Drop Coolant System is ideal for use with the Techno machines. The unit\u2019s micro dispenser delivers a very small amount of high-performance vegetable-based lubricant to the cutting tool by atomizing the lubricant in a high-velocity air stream. The result is higher material removal rates, improved finish, tighter tolerances and increased productivity.",
        "Specs": null,
        "Url": "edquip.co\/en\/techno-cnc\/hd-ii-tabletop",
        "Page title": "HD II Tabletop CNC Machine: Techno CNC - EDQUIP",
        "Page description": "The HD-II Table top CNC router. This machine includes a 2HP HSD high frequency collet spindle, vacuum t-slot table which allows for mechanical clamping or vacuu",
        "Lowest number of students": null,
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            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
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        ],
        "Warranty": "12 months",
        "Voltage availability": [
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Techno CNC Systems\/HD II TABLETOP\/Techno-CNC-Systems_HD-II-Tabletop-CNC-Router_1.png",
        "Video link": null,
        "Main category": "CNC Training Machines"
    },
    {
        "Edquip ID": "PL-478952",
        "Product Type": "hardware",
        "Producer": "Techno CNC",
        "Producer product number": "Titan",
        "Content languages": "en",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Titan Series CNC Router",
        "Description": "The Titan Series machine is all steel construction, providing the rigid foundation required for ultra-smooth routing results. The Titan machine includes a 12HP HSD automatic tool changer with 8-position tool rack, and a pneumatically operated dust collection hood that concentrates air flow at the cutter, which provides optimal dust collection performance. The multi-zone vacuum t-slot table is constructed from very hard Phenolic, which is very stable material, and holds tight tolerances for precision cutting. The Titan series is connected to a 10HP Rotary vane vacuum pump, which has very quiet operation (82db). For easy sheet alignment, (3) material pop-up pins are included and precisely placed to handle and align various size materials. The Titan series is powered by brushless drive motors, and is controlled via easy to use and learn hand held controller (PC based controller optional).\n\nFEATURES:\n\n12 HP HSD high frequency automatic tool changer spindle\n\nMaintenance free brushless motors and drives\n\nMulti-zone vacuum t-slot table\n\nPneumatic material pop-up pins\n\nAutomatic tool length calibration via closed loop touch pad\n\nAutomatic z-zero via secondary touch pad\n\nEasy-to-use hand held controller (optional PC based system available)\n\nOpen architecture works with all industry standard CAD\/CAM software\n\nSPINDLE\n\nThe Titan Series machine comes standard with a 12 HP HSD high frequency automatic tool changer spindle. This precision spindle requires no maintenance, uses industry standard ER collets and ISO 30 tool holders, is fully programmable with speeds from 6000 to 24000 RPM, and comes complete with a pneumatically retractable vacuum hood\n\nGANTRY\n\nThe gantry is constructed of tubular steel with reinforcing ribs welded throughout the length of the column which results in a steady firm\nbeam assembly. This quality engineering and workmanship result in smooth precision cutting.\n\nTOOL HOLDER CLAMP\n\nThe Techno Titan CNC Machine comes equipped with a tool holder clamp fixture, providing a much easier way of inserting and tightening the CNC router bits into your tool holder. This method is safer and easier than using the common procedure of tightening the collet nut with two wrenches\n\nGANTRY UPRIGHTS\n\nThe gantry uprights are cast iron with heavy duty gussets formed into the casting. Each support is machined for housing the various drive assemblies including motors, bearings, belts, and wiring harnesses.\n\nDRIVE TRAIN ASSEMBLY\n\nThe Techno Titan Series CNC Router uses precision helical gear racks on the X and Y axes. The mounting of the rack is inverted to help keep dust and debris from building up on the drive system, this assures smooth motion and long term reliability. The precision gearbox is directly coupled to the drive motor and pinion. This eliminates belt stretch inaccuracies assuring high-speed machining while the system.\n\nVACUUM TABLE\n\nThe Titan machine includes a vacuum t-slot table that can be easily customized to fit your particular part geometry. The grid allows the gasketing to be routed around the table sections. In addition it included rubber plugs for zoning off specific areas. Vacuum flow is controlled via a main gate valve which lowers operating costs and save vane life.\n\nELECTRONICS\n\nAll the electrical components are housed and wired in a doubled-doored Nema electrical enclosure. This allows for easy access and service when needed. All wiring is tagged so that when service is required, the customer can easily navigate the cabinet. In addition, the cabinet serves as a work bench for the tools\n\nTOOLING\n\nThe Titan Series machine includes an 8-position tool rack in the rear of the machine. The position of this rack allows for easy loading and unloading of material from either side of the machine.\n\nDRIVE MOTORS\n\nThe Titan Series CNC Router utilizes brushless drive motors and drives. These motors require no regular maintenance \u2014 therefore, reducing any maintenance downtime.\n\nTOOL CALIBRATION\n\nTool Calibration is used for recording tool length offsets. This is an automatic process for easy storage of tool length offsets\n\nZ-ZERO TOUCH PAD\n\nAutomatic tool calibration pad allows for easy and accurate \u201cZ\u201d zero position for single and multiple tool changes through the program.\n\nCONTROLLER OPTIONS\n\nHand-Held Controller\n\nThe hand-held controller is the heart of the operational system. This hand-held controller redefines the phrase \u201ceasy-to-use\u201d. Customers can be up and running the same day power is connected to the machine. The setup introduction manual provides information that will have users cutting parts in minutes\n\nSSA 5000 Controller\n\nOur New Techno PC based industrial SSA 5000 controller is a Windows 10 based operating system. System connection is Ethernet for high speed communication resulting in high speed uninterrupted processing.\n\nWin CNC Controller\n\nThe WinCNC interface is a controller system with step jog for fine incremental control, start, stop and pause buttons, single button for safety clearance position, absolute and relative coordinates control, and more.",
        "Specs": null,
        "Url": "edquip.co\/en\/techno-cnc\/titan-series-cnc-router",
        "Page title": "Titan Series CNC Router: Techno CNC Systems - EDQUIP",
        "Page description": "The Titan Series machine is all steel construction, providing the rigid foundation required for ultra-smooth routing results. The Titan machine includes a 12HP ",
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    {
        "Edquip ID": "PL-917603",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "SCARA Cell",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
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            "Live online",
            "Documentation",
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        "Name": "SCARA Training Cell with PLC, HMI and IIOT",
        "Description": "SCARA Training Cell with PLC, HMI and IIOT\n\nThe SCARA Training Cell from Hytech Automation is an advanced industrial robotics training platform designed to provide hands-on experience in SCARA robot programming, PLC-HMI integration, IIoT communication, industrial networking, digital twin technology, and smart manufacturing applications.\n\nThe training system combines industrial robotics with automation and Industry 4.0 technologies, enabling learners to develop practical skills in robotic handling, pick-and-place operations, automated sorting systems, industrial communication, sensor integration, and real-time process monitoring.\n\nThe SCARA robot training cell is fully integrated with PLC, HMI, I\/O-Link infrastructure, Industrial IIOT hardware, conveyor systems, smart sensors, and digital twin software platforms, allowing trainees to work on real-world industrial automation applications.\n\nThe system supports both weight-based and color-based sorting operations where the SCARA robot performs automated inspection, pick-and-place, and sorting tasks using industrial sensors, load cells, vacuum grippers, and PLC-controlled automation logic.\n\nThe training platform is designed to bridge the gap between academic learning and industrial robotics practices by providing exposure to industrial robot programming, PLC synchronization, HMI visualization, data acquisition, digital twin simulation, and smart factory concepts.\n\nLearning Outcomes:\n\n- Understand industrial SCARA robot architecture and robot operations\n- Learn robot programming using teach pendant and offline programming software\n- Develop PLC programs for robotic automation applications\n- Design HMI screens for robot control, diagnostics, and monitoring\n- Understand industrial communication protocols and I\/O-Link integration\n- Perform real-time robot and PLC synchronization\n- Integrate smart sensors, load cells, conveyors, and actuators with robotic systems\n- Understand IIOT concepts including dashboard development, remote monitoring, and industrial data acquisition\n- Develop digital twin models and simulate robotic operations before execution\n- Gain practical exposure to Industry 4.0 and smart manufacturing technologies\n\nKey Features & Benefits:\n\n- Industrial SCARA Robot integrated with PLC, HMI and IIOT\n- Weight-based and color-based automated sorting applications\n- Vacuum gripper based robotic pick-and-place system\n- Integrated conveyor with automatic feeder stations\n- I\/O-Link based smart sensor infrastructure\n- Digital Twin integration using Siemens Tecnomatix and Visual Components\n- Industrial Edge based IIOT integration and dashboard monitoring\n- Real-time PLC, robot and HMI communication\n- Offline robot programming and simulation capability\n- Expandable industrial automation architecture for advanced experimentation\n\nCore Industrial Components:\n\n- SCARA Robot with Teach Pendant\n- Vacuum Gripper with Vacuum Generator\n- PLC \u2013 Siemens S7 1200 \/ Mitsubishi FX5\n- 7 Inch Industrial HMI\n- Industrial IIOT Hardware\n- I\/O-Link Master with Smart Sensor Integration\n- I\/O-Link based Smart Light\n- Color Sensor for Color Based Sorting\n- Load Cell with Amplifier for Weight Based Sorting\n- Industrial Conveyor with Auto Feeder\n- Photo Sensors and Proximity Sensors\n- Workstation with Preconfigured Industrial Software\n\nIndustrial Applications:\n\n- Weight-Based Robotic Sorting System\n- Color-Based Robotic Sorting System\n- Automated Pick-and-Place Operations\n- Industrial Material Handling\n- Smart Factory & Industry 4.0 Applications\n- Robot and PLC Synchronization\n- Industrial Data Acquisition & Monitoring\n\nDigital Twin & Industry 4.0 Integration:\n\n- Integration with Siemens Tecnomatix\n- Integration with Visual Components\n- Offline Robot Programming\n- Virtual Simulation before Real Execution\n- Real-Time Robot Communication\n- Industrial Edge based IIOT Dashboards\n- Remote Monitoring & Industrial Analytics\n\nLearning Management System (LMS):\n\n- Structured Robotics Training Courses\n- PLC, HMI and Robot Programming Modules\n- Industry 4.0 & IIOT Learning Content\n- Trainer & Student Learning Support\n- Custom Training Module Creation\n- Assessment & Certification Support\n\nIdeal For:\n\n- Industrial Robotics Laboratories\n- Engineering Colleges & Universities\n- Industrial Automation Training Centers\n- Mechatronics & Robotics Training Institutes\n- Industry 4.0 Skill Development Centers\n- Advanced Manufacturing Training Programs",
        "Specs": "Technical Specifications \u2013 SCARA Training Cell with PLC, HMI and IIOT\n\n1. Mechanical Structure & Safety Enclosure\n\n- Industrial-grade structure made using heavy-duty Aluminium Extrusions\n- Overall Dimensions: 1800 \u00d7 720 \u00d7 800 mm (Height)\n- 1000 mm working section constructed using Aluminium Extrusions\n- Remaining workstation area constructed using industrial MDF panels\n- Heavy-duty Mild Steel SCARA pedestal with rigid mounting arrangement\n- Horizontal worksurface made using Aluminium Extrusion profiles\n- 4 Industrial Castor Wheels with brakes and anti-vibration mounts\n- Complete transparent industrial safety enclosure with 4 access doors\n- Integrated door latching safety switches for operator protection\n\n2. Industrial SCARA Robot System\n\n- KUKA \/ Mitsubishi Industrial SCARA Robot\n- Industrial Teach Pendant for robot programming and manual operation\n- Minimum Payload Capacity: 3 Kg\n- Minimum Robot Reach: 400 mm\n- Vacuum Gripper with Vacuum Generator for pick-and-place applications\n- Industrial robotic handling and sorting operations\n- High-speed precision robotic movement for industrial training applications\n\n3. Digital Twin & Offline Programming Integration\n\n- Complete SCARA Robot setup available in STP format\n- Offline robot programming and simulation support\n- Integrated with Siemens Tecnomatix\n- Integrated with Visual Components software platform\n- Real-time Digital Twin based simulation capability\n- Virtual process validation before physical execution\n\n4. PLC, HMI & Industrial Control Architecture\n\n- Integrated PLC-HMI control panel mounted with SCARA cell\n- Industrial electrical panel with transparent front safety doors\n- Door interlocking safety switches integrated with control panel\n- PLC Options:\n\n- Siemens S7-1200\n- Mitsubishi FX5\n\n- HMI Options:\n\n- Siemens MTP 700\n- Mitsubishi GT2110\n\n- Siemens TIA Portal Software License (Latest Version \u2013 Perpetual)\n- I\/O Link Master with minimum 8 ports\n- I\/O Link based Smart Tower Light\n- Industrial operator station with:\n\n- Cycle Start Push Button\n- Cycle Reset Push Button\n- Emergency Stop Push Button\n\n5. Industrial Workstation & Visualization System\n\n- Industrial Workstation with Intel i5 based Computer\n- 21\u201d Industrial LED Monitor\n- Optional High-Performance Laptop with preconfigured software\n- Minimum 40\u201d TV Screen for Digital Twin visualization\n- Minimum 20\u201d LED Monitor for PLC & Robot Programming\n- Wireless Keyboard and Mouse\n- Pre-installed Industrial Robotics & Automation Software Environment\n\n6. Conveyor System with Auto Feeder\n\n- Industrial Conveyor with DC Geared Motor\n- Pneumatically actuated Auto Feeder System\n- Minimum Conveyor Travel Length: 500 mm\n- Minimum Conveyor Width: 70 mm\n- Inductive Proximity Sensor for metallic component detection\n- Capacitive Proximity Sensor for non-metallic component detection\n- Automatic workpiece transfer and positioning arrangement\n\n7. Colour-Based Sorting Station\n\n- I\/O Link based Industrial Colour Sensor\n- Pallet equipped with 6 Photo Sensors for workpiece detection\n- 6 Workpieces available in 3 different colour categories\n- Automated colour identification and robotic sorting operation\n\n8. Weight-Based Sorting Station\n\n- Analog Output based Industrial Load Cell with Amplifier\n- Pallet equipped with 6 Photo Sensors for workpiece detection\n- 6 Workpieces available in 3 different weight categories\n- Automated weight measurement and robotic sorting operation\n\n9. Digital Twin Software Options\n\nOption 1 \u2013 Siemens Tecnomatix:\n\n- 1 Seat License\n- 1 Year Subscription License\n- Industrial robot simulation and offline programming platform\n\nOption 2 \u2013 Visual Components:\n\n- 15 Seat License\n- Perpetual License with 1 Year AMC\n- Industrial factory simulation and Digital Twin software platform\n\n10. Industrial IIOT & Industry 4.0 Integration\n\n- Optional Siemens Industrial Edge Integration\n- Node-RED based industrial programming environment\n- Pre-installed dashboards for industrial monitoring and analytics\n- Real-time industrial data acquisition and visualization\n- Remote monitoring and smart factory implementation capability\n\n11. Key Industrial Training Applications\n\n- Industrial Pick-and-Place Automation\n- Colour-Based Robotic Sorting\n- Weight-Based Robotic Sorting\n- PLC-HMI-Robot Synchronization\n- Industrial Sensor Integration\n- I\/O Link Communication & Smart Sensor Applications\n- Digital Twin Simulation & Validation\n- IIOT Dashboard Development\n- Smart Factory & Industry 4.0 Applications\n\n12. Educational & Industrial Learning Outcomes\n\n- Industrial Robotics Programming\n- PLC & HMI Application Development\n- Robot & PLC Communication Architecture\n- Industrial Networking & IIOT Integration\n- Sensor & Actuator Interfacing\n- Offline Robot Programming & Simulation\n- Industrial Automation System Troubleshooting\n- Smart Manufacturing System Development",
        "Url": "edquip.co\/en\/hytech\/scara-training-kit",
        "Page title": "SCARA training kit: Hytech - EDQUIP",
        "Page description": "SCARA training kit, for technical education. Suitable for schools, colleges & universities. Request your quotation today! Get free price estimations.",
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        "HS Code": "84795000",
        "Equipment dimensions": "180 \u00d7 72 \u00d7 80",
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        "Equipment weight": "150",
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        "Packed dimensions": "250 \u00d7 200 \u00d7 170",
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        "Packed weight": "200",
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        "Video link": "https:\/\/www.youtube.com\/embed\/f-qTTOK2Su0",
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    },
    {
        "Edquip ID": "PL-809494",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "Industrial Handling Robocell",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
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        "Name": "Handling Robocell with PLC, HMI and IIOT",
        "Description": "Handling RoboCell with PLC, HMI and IIOT\n\nThe Handling RoboCell from Hytech Automation is an advanced industrial robotic automation platform designed for smart manufacturing, industrial robotics training, automation research, and Industry 4.0 implementation.\n\nBuilt using industrial-grade aluminum extrusion architecture, the system integrates robotics, PLC-HMI control, vision systems, RFID technology, I\/O-Link communication, IIOT infrastructure, and Digital Twin technology into a compact, modular, and highly flexible automation cell.\n\nThe Handling RoboCell enables learners and industrial users to gain hands-on experience in robotic material handling, automated assembly, intelligent inspection, RFID-based traceability, color and weight-based sorting, smart conveyor systems, and industrial data acquisition.\n\nThe system combines real industrial hardware with advanced software technologies such as Siemens Tecnomatix, Visual Components, IIOT dashboards, and offline robot programming tools, making it an ideal platform for modern smart factory training environments.\n\nLearning Outcomes:\n\n- Understand industrial 6-axis robot architecture and robotic automation systems\n- Learn robot programming using teach pendant and offline programming tools\n- Develop PLC-HMI integrated robotic automation applications\n- Understand automated material handling and robotic pick-and-place operations\n- Work with industrial vision systems for shape detection and inspection\n- Implement RFID-based industrial traceability systems\n- Understand color and weight-based industrial sorting applications\n- Learn I\/O-Link communication and smart sensor integration\n- Develop IIOT dashboards for real-time monitoring and analytics\n- Simulate and validate robotic operations using Digital Twin software\n- Gain practical exposure to Industry 4.0 and smart manufacturing technologies\n\nKey Features & Benefits:\n\n- 6-Axis Industrial Robot with multi-tool handling capability\n- Automatic Tool Changer Station for flexible robotic operations\n- Integrated PLC, HMI and IIOT architecture\n- Vision-based assembly and inspection system\n- RFID-enabled product traceability and sorting applications\n- Color and weight-based automated sorting modules\n- Industrial conveyor with auto-loader functionality\n- I\/O-Link based smart sensor integration\n- Digital Twin integration with offline programming support\n- Industrial-grade modular aluminum structure\n- Smart pneumatic fixtures with magnetic locking arrangement\n- Visual status indication through industrial smart lamp\n\nCore Industrial Modules:\n\n- 6-Axis Industrial Robot with Teach Pendant\n- Automatic Tool Changer System\n- Electrical Grippers & Vacuum Gripper System\n- RFID Based Sorting Module\n- Vision Based Inspection & Assembly Module\n- Weight & Color Based Sorting Module\n- Industrial Conveyor with Auto Feeder\n- PLC \u2013 Siemens S7 1200 \/ Mitsubishi FX5\n- Industrial HMI System\n- I\/O-Link Master with Smart Sensors\n- Industrial IIOT Dashboard System\n- Pneumatic System with Solenoid Valves & Sensors\n\nDigital Twin & Industry 4.0 Integration:\n\n- Integrated with Siemens Tecnomatix\n- Integrated with Visual Components Software\n- Complete setup available in STP format for offline robot programming\n- Virtual simulation before real hardware execution\n- Real-time communication between Digital Twin and robotic cell\n- Node-RED based IIOT programming environment\n- Industrial dashboards for monitoring and analytics\n- Supports Smart Factory and Industry 4.0 applications\n\nIndustrial Applications:\n\n- Automated Material Handling\n- Industrial Pick-and-Place Operations\n- Vision Based Inspection & Assembly\n- RFID Based Product Tracking\n- Color and Weight Based Sorting\n- Industrial Process Automation\n- Smart Manufacturing Systems\n- Robotics & Mechatronics Training\n\nLMS & Training Support:\n\n- Integrated Learning Management System (LMS)\n- Structured Robotics Training Courses\n- Robot Programming & PLC Integration Modules\n- Digital Twin & IIOT Training Content\n- Step-by-step guided learning methodology\n- Trainer and student learning resources\n- Assessment and certification support\n\nIdeal For:\n\n- Industrial Robotics Laboratories\n- Engineering Colleges & Universities\n- Mechatronics & Automation Training Centers\n- Industry 4.0 Skill Development Centers\n- Industrial Automation Research Labs\n- Advanced Manufacturing Training Programs",
        "Specs": "Technical Specifications \u2013 Handling RoboCell with PLC, HMI and IIOT\n\n1. Mechanical Structure & Safety Enclosure\n\n- Industrial-grade structure made using heavy-duty Aluminium Extrusions\n- Outer Dimensions: 1700 \u00d7 1300 \u00d7 1900 mm (Height)\n- Heavy-duty structure with industrial modular design\n- 4 Industrial Castor Wheels with brakes and anti-vibration mounts\n- Complete transparent industrial safety enclosure with 4 access doors\n- Door latching safety switches integrated for operator protection\n- Horizontal worksurface made using Aluminium Extrusions\n- Robot \/ Cobot pedestal made in Mild Steel with rigid mounting arrangement\n- Dedicated Robot Controller arrangement with integrated electrical control panel\n- Transparent controller enclosure door with safety interlock switch\n\n2. Industrial Robot System\n\n- KUKA \/ FANUC \/ Mitsubishi Industrial Robot with Teach Pendant\n- Minimum Payload Capacity: 7 KG\n- Minimum Robot Reach: 700 mm\n- Pneumatic Parallel Gripper with minimum 7 KG gripping capacity\n- Minimum Gripper Opening: 20 mm\n- Industrial robotic pick-and-place and material handling capability\n- High-speed precision robotic operations for smart manufacturing applications\n\n3. Digital Twin Integration\n\n- Complete robotic setup available in STP format for offline programming\n- Integrated with Siemens Tecnomatix\n- Integrated with Visual Components software platform\n- Offline robot programming and simulation capability\n- Real-time Digital Twin based validation before execution\n- Supports virtual commissioning and process optimization\n\n4. Central Control Unit\n\n- Separate industrial structure made using Aluminium Extrusions\n- Top work surface dimensions: 720 \u00d7 1000 mm\n- Top surface partially made in Aluminium Extrusions and partially in industrial MDF\n- 4 Industrial Castor Wheels with brakes and anti-vibration mounts\n- Complete industrial electrical control panel with PLC integration\n- Transparent front doors with door latching safety switches\n- Aluminium extrusion based mounting arrangement for LED TV, LED Monitor and HMI\n\n5. PLC, HMI & IIOT Architecture\n\n- PLC Options:\n\n- Siemens S7-1200\n- Mitsubishi FX5\n\n- HMI Options:\n\n- Siemens MTP 700\n- Mitsubishi GT2110\n\n- Siemens TIA Portal License (Latest Version \u2013 Perpetual)\n- Optional Siemens Industrial Edge for IIOT applications\n- I\/O Link Master with minimum 8 Ports\n- I\/O Link based Smart Tower Light\n- Industrial HMI operator station with:\n\n- Cycle Start Push Button\n- Cycle Reset Push Button\n- Emergency Stop Push Button\n\n6. Industrial Workstation & Visualization System\n\n- Industrial Workstation with Intel i5 Computer\n- 21 Inch LED Monitor preconfigured with software environment\n- Optional High-Performance Laptop preconfigured with the system\n- Wireless Keyboard and Mouse\n- Integrated visualization and industrial programming environment\n\n7. Table 1 \u2013 Conveyor with RFID Based Sorting\n\n- Industrial Conveyor with DC Geared Motor\n- Pneumatically actuated Auto Feeder System\n- Minimum Conveyor Travel Length: 500 mm\n- Minimum Conveyor Width: 70 mm\n- I\/O Link based RFID Reader and Writer\n- RFID Tags (08 Qty)\n- Workpieces with RFID tag mounting arrangement (08 Qty)\n- Pallet for workpiece positioning and handling\n- RFID based product identification and traceability application\n\n8. Table 2 \u2013 Weight & Colour Based Sorting System\n\n- I\/O Link based Industrial Colour Sensor\n- Load Cell with Analog Output and Digital Set Point\n- Workpieces in 3 different colours for colour-based sorting (06 Qty)\n- Workpieces in 3 different weight categories for load-based sorting (06 Qty)\n- Pallet for workpiece handling and sorting operations\n- Automated robotic sorting based on weight and colour parameters\n\n9. Table 3 \u2013 Vision Based Sorting & Assembly System\n\n- Cognex Vision Camera with Profinet Communication\n- Pneumatic Guided Cylinder for workpiece clamping\n- Workpieces in different shapes (06 Qty)\n- Pallet for workpiece positioning\n- Industrial vision-based inspection and assembly application\n- Shape recognition and automated assembly verification capability\n\n10. Table 4 \u2013 Automatic Robot Tool Changer System\n\n- Robot Side Tool (01 Qty)\n- Tool Side Clamping Units (03 Qty)\n- Vacuum Gripper with Vacuum Generator\n- Pneumatic Parallel Gripper\n- Aluminium Extrusion based mounting arrangement for robotic grippers\n- Automatic robotic tool changing functionality\n- Supports multi-process robotic handling applications\n\n11. Digital Twin Software Options\n\nOption 1 \u2013 Siemens Tecnomatix:\n\n- 1 Seat License\n- 1 Year Subscription-Based License\n- Industrial robot simulation and offline programming platform\n- License validity: 1 Year\n\nOption 2 \u2013 Visual Components:\n\n- 15 Seat License\n- Perpetual License with 1 Year AMC\n- Industrial factory simulation and Digital Twin software platform\n- Permanent License with software updates for 1 year\n\n12. Industry 4.0 & IIOT Integration\n\n- Industrial IIOT architecture using Siemens Industrial Edge\n- Node-RED based industrial programming environment\n- Industrial dashboards for monitoring and analytics\n- Real-time production data acquisition and visualization\n- Remote monitoring and smart factory implementation capability\n- I\/O Link based smart sensor communication infrastructure\n\n13. Key Industrial Training Applications\n\n- Industrial Pick-and-Place Automation\n- RFID Based Product Traceability\n- Weight & Colour Based Sorting\n- Vision Based Inspection & Assembly\n- Automatic Robot Tool Changing\n- PLC-HMI-Robot Synchronization\n- Industrial Conveyor Automation\n- Digital Twin & Virtual Commissioning\n- Smart Manufacturing & Industry 4.0 Applications\n\n14. Learning & Skill Development\n\n- Industrial Robot Programming\n- PLC & HMI Development\n- Robot Communication & Synchronization\n- Industrial Vision System Integration\n- RFID & Smart Sensor Applications\n- IIOT Dashboard Development\n- Offline Robot Programming & Simulation\n- Industrial Troubleshooting & Diagnostics\n- Advanced Smart Manufacturing System Training",
        "Url": "edquip.co\/en\/hytech\/industrial-handling-robocell",
        "Page title": "Industrial Handling Robocell: Hytech - EDQUIP",
        "Page description": "Industrial Handling Robocell, for technical education & training. Request quotation today! Free price estimations, suitable for schools, colleges & universities",
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        "HS Code": "84795000",
        "Equipment dimensions": "170 \u00d7 130 \u00d7 190",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "250",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "230 \u00d7 190 \u00d7 200",
        "Packed dimensions unit": "cm",
        "Packed weight": "320",
        "Packed weight unit": "Kg",
        "Support types": null,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/Handling Robocell with PLC - HMI - IIOT\/1753516047_Handling Robocell Pic 1.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/dKDmN1wC_3o",
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-190281",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "PH - Advanced",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation",
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        ],
        "Name": "PLC & HMI Training Kit with SCADA and IIOT- Advanced",
        "Description": "Advanced PLC & HMI Training Kit\n\nThe Advanced PLC & HMI Training Kit from Hytech Didactics is a comprehensive industrial automation training solution designed to provide hands-on experience in PLC programming, HMI development, industrial networking, SCADA integration, and Industry 4.0 technologies.\n\nDeveloped using real industrial automation components, the system enables learners to understand and implement modern automation concepts through practical experimentation and real-time process control applications. The modular architecture of the system allows seamless integration of PLC, HMI, SCADA, sensors, actuators, pneumatic systems, drives, and industrial communication modules.\n\nThe training kit supports multiple PLC and HMI platforms and can be configured with various industrial brands based on institutional or project requirements. Safety-protected input and output interface modules with patch cord connectivity ensure easy operation, simplified wiring, and safe usage for beginners as well as advanced learners.\n\nThe system is designed to simulate real industrial automation processes including motor control, conveyor automation, process control, pneumatic automation, smart sensing, VFD applications, and IIoT-based monitoring systems.\n\nLearning Outcomes:\n\n- Understand PLC hardware architecture, industrial I\/O interfacing, and control panel wiring\n- Develop PLC logic using ladder programming, timers, counters, interlocks, and sequencing operations\n- Create and configure HMI applications for monitoring and controlling industrial processes\n- Integrate sensors, actuators, pneumatic systems, motors, drives, and industrial devices with PLC and HMI systems\n- Understand industrial communication protocols such as Ethernet, PROFINET, Modbus, and IO-Link\n- Perform real-time process monitoring, diagnostics, fault finding, and troubleshooting\n- Work with SCADA and Industrial IoT concepts for smart manufacturing and connected industry applications\n- Gain practical exposure to industrial automation applications used in manufacturing, packaging, process industries, and smart factory environments\n\nKey Features & Benefits:\n\n- Hands-on training using real industrial automation components\n- Flexible modular design for multiple industrial automation experiments\n- Supports Industry 4.0, SCADA, and IIoT-based learning applications\n- Safe and student-friendly interface for practical learning\n- Patch cord-based connectivity for simplified understanding and operation\n- Compatible with major PLC and HMI brands\n- Suitable for engineering colleges, universities, vocational institutes, and industrial training centers",
        "Specs": "Technical Specifications \u2013 Advanced PLC & HMI Training Kit\n\nSystem Configuration:\n\n- Industrial-grade PLC & HMI based modular training system\n- Designed for hands-on industrial automation and control system training\n- Supports PLC, HMI, SCADA, Industrial Networking, and Industry 4.0 applications\n- Expandable modular architecture for customized training requirements\n\nPLC & HMI Compatibility:\n\n- Compatible with Siemens, Allen Bradley, Mitsubishi, Delta, Omron, and other major PLC brands\n- Supports multiple HMI platforms and industrial communication protocols\n- Configurable according to customer-specific PLC and HMI requirements\n\nIndustrial Communication & Networking:\n\n- Ethernet-based industrial communication support\n- PROFINET \/ Modbus \/ OPC communication compatibility (depending on PLC platform)\n- IO-Link enabled smart sensor integration\n- Support for SCADA and Industrial IoT (IIoT) applications\n\nSystem Features:\n\n- Patch cord-based wiring for easy connectivity and troubleshooting\n- Safety-protected digital and analog I\/O interface modules\n- Modular PCB-based training structure\n- Plug-and-play industrial automation modules\n- Designed for beginner to advanced level industrial automation training\n\nIndustrial Automation Modules Included:\n\n- Digital Sensor Module\n- Analog Sensor Module\n- Switchgear & Indicator Module\n- Pneumatic System with Solenoid Valves & Cylinders\n- Stepper Motor Module\n- Servo Motor Module\n- AC Motor with Encoder\n- VFD-based Motor Speed Control Module\n- Temperature Control Module\n- Load Cell with Digital Display\n- Flow Sensor Module\n- Conveyor Automation Module\n- Pneumatic Pressure Switch Application Module\n- Smart Sensor & IO-Link Demonstration Module\n\nStatic Automation Modules:\n\n- Traffic Light Control System\n- Elevator Control System\n- Water Level Control System\n- Staircase Lighting Automation\n- Conveyor Control Module\n- AC Motor Star-Delta Starter Module\n\nIndustry 4.0 & IIoT Features:\n\n- Real-time industrial process monitoring\n- Cloud connectivity and smart factory concept demonstration\n- Industrial data acquisition and visualization support\n- Support for connected manufacturing applications\n\nMechanical Specifications:\n\nWithout Workstation:\n\n- Length: 1200 mm\n- Depth: 800 mm\n- Height: 1600 mm\n\nWith Workstation:\n\n- Length: 1600 mm\n- Depth: 800 mm\n- Height: 1600 mm\n\nConstruction Details:\n\n- Powder-coated mild steel structure\n- Industrial-grade MDF panels\n- 4-drawer storage pedestal\n- Ergonomic workstation with monitor mounting arrangement\n- Heavy-duty castor wheels with locking mechanism\n\nOptional Add-ons:\n\n- SCADA software integration\n- Industrial IoT (IIoT) modules\n- Additional dynamic automation modules\n- Customized PLC & HMI configuration\n- Training manuals and experiment documentation\n\nApplications:\n\n- Engineering Colleges & Universities\n- Technical & Vocational Training Institutes\n- Industrial Automation Training Centers\n- Industry 4.0 & Smart Manufacturing Labs\n- Skill Development Programs",
        "Url": "edquip.co\/en\/hytech\/plc-training-kit-advanced",
        "Page title": "PLC Training Kit Advanced: Hytech - EDQUIP",
        "Page description": "PLC training equipment for technical education & training. Request your quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Internet"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "90230090",
        "Equipment dimensions": "158 x 80 x 170",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "120",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "200 x 150 x 230",
        "Packed dimensions unit": "cm",
        "Packed weight": "145",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/PLC & HMI Training Kit with SCADA and IIOT- Advanced\/PLC & HMI Training Kit with SCADA and IIOT- Advanced_PH - Advanced_Hytech Automation_adv plc eduip 1.1 ratio.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/iffjQp4w8m4",
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-537844",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "PH - Basic",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation",
            "Video"
        ],
        "Name": "PLC & HMI Training Kit with SCADA and IIOT - Basic",
        "Description": "Basic PLC & HMI Training Kit\n\nThe Basic PLC & HMI Training Kit from Hytech Automation is an entry-level industrial automation training system designed to provide practical hands-on learning in PLC programming, HMI development, industrial wiring, and automation control concepts.\n\nDeveloped using real industrial automation components, the system bridges the gap between classroom learning and real-world industrial applications. The training kit enables students and trainees to understand PLC hardware architecture, digital and analog I\/O interfacing, ladder logic programming, HMI operation, sensor integration, pneumatic control, and industrial troubleshooting in a safe and user-friendly environment.\n\nThe system is ideal for beginners and serves as the foundation platform before progressing to advanced PLC, SCADA, motion control, and Industry 4.0 training systems. It supports major industrial PLC and HMI platforms including Siemens, Mitsubishi, and Allen Bradley depending on customer requirements.\n\nThe training kit features a PCB-based modular architecture with dedicated PLC input and output modules, banana patch cord connectivity, and built-in safety protection circuits that simplify wiring and reduce the risk of short circuits during practical training.\n\nLearning Outcomes:\n\n- Understand PLC hardware architecture, power supply, CPU, memory, and industrial I\/O systems\n- Develop PLC programs using ladder logic, timers, counters, comparators, and sequencing operations\n- Create and configure HMI applications for process monitoring and operator control\n- Perform industrial wiring using patch cord-based PLC I\/O interfacing\n- Integrate digital sensors, switchgear devices, pneumatic systems, and automation modules with PLCs\n- Understand industrial automation concepts such as motor control, process automation, and sensor-based applications\n- Develop troubleshooting skills for industrial automation systems and communication networks\n- Gain practical exposure to real-world automation systems used in manufacturing and process industries\n\nKey Features & Benefits:\n\n- Entry-level industrial automation training platform for beginners\n- Hands-on training using real industrial automation components\n- Compatible with Siemens, Mitsubishi, and Allen Bradley PLC platforms\n- Industrial-grade PCB-based modular architecture\n- Built-in safety protection for student-friendly operation\n- Patch cord-based wiring for easy understanding and troubleshooting\n- Supports digital and analog I\/O training applications\n- Expandable system with portable and static automation modules\n- Available in tabletop and floor-mounted configurations\n- Ideal for engineering colleges, vocational institutes, technical training centers, and industrial skill development programs\n\nIncluded Automation Modules:\n\n- Switchgear Module\n- Digital Sensor Module\n- Pneumatic Pressure Switch Module\n- Pneumatic Solenoid Automation Module\n- PLC Input & Output Interface Modules\n- HMI Integration Module\n\nOptional Portable Automation Modules:\n\n- DC Motor & Encoder Module\n- AC Motor & VFD Module\n- Temperature Control Module\n- Servo Motor Module\n- Load Cell Module\n- Conveyor Automation Module\n\nStatic Automation Applications:\n\n- Traffic Signal Control\n- Water Level Controller\n- Elevator Operation\n- Conveyor Automation\n- Star-Delta Motor Starter\n- Staircase Lighting Automation\n\nMechanical Specifications:\n\nTabletop Version:\n\n- Width: 1100 mm\n- Depth: 700 mm\n- Height: 910 mm\n- Approximate Weight: 44 Kg\n\nOptional Floor-Mounted Version:\n\n- Width: 1200 mm\n- Depth: 800 mm\n- Height: 1610 mm\n\nThe floor-mounted structure includes castor wheels with locking arrangement, industrial MDF work surface, ergonomic workstation layout, and monitor mounting provision for enhanced user convenience and industrial training simulation.",
        "Specs": "Technical Specifications \u2013 Basic PLC & HMI Training Kit (Mitsubishi Configuration)\n\n1. Training Kit Structure\n\n- Industrial-grade tabletop PLC & HMI training workstation\n- Model: PH Basic\n- Rigid mounting arrangement with ergonomic design\n- Dimensions: 1100 \u00d7 700 \u00d7 910 mm (H)\n- Powder-coated industrial structure with modular PCB architecture\n\n2. PLC & HMI System (Mitsubishi)\n\n- Mitsubishi FX5U-32MT\/ESS PLC with 16 Digital Inputs & 16 Digital Outputs\n- Mitsubishi FX5-8AD Analog Input Module \u2013 8 Channel\n- Mitsubishi FX5-40SSC-S Position Control Card \u2013 4 Axis\n- Mitsubishi GS2107-WTBD 7\u201d HMI\n- Industrial power supply and PLC control panel\n- PLC Input Interface Module with 24 Input Override Switches\n- PLC Output Interface Module \u2013 24 Outputs\n- Field Input Module \u2013 24 Inputs\n- Field Output Module \u2013 24 Outputs\n- 2mm Banana Patch Cord Connector Set\n\n3. Industrial Communication Module\n\n- 5-Port Industrial Unmanaged Ethernet Switch\n- PROFINET communication support\n- PLC-to-Switch Industrial Ethernet Communication Cable\n- HMI-to-Switch Industrial Ethernet Communication Cable\n\n4. Digital Sensor Module\n\n- Capacitive Sensor (PNP, NO Type)\n- Photo Sensor (PNP, NO Type)\n- Inductive Proximity Sensor (PNP, NO Type)\n- Inductive Proximity Sensor (PNP, NC Type)\n- Industrial sensor makes: BALLUFF \/ Omron or equivalent\n\n5. Switchgear Module\n\n- Push Button \u2013 NO Type\n- Push Button \u2013 NC Type\n- Selector Switch \u2013 NO Type\n- Selector Switch \u2013 NC Type\n- Emergency Mushroom Head Switch\n- Two-Hand Safety Push Button Arrangement\n- Industrial Indicators (Red & Green)\n- Industrial Buzzers\n- Components from Schneider \/ Siemens \/ equivalent brands\n\n6. Pneumatic Automation Module\n\n- Double Acting Solenoid Valve \u2013 3 Nos.\n- Single Acting Solenoid Valve \u2013 1 No.\n- Double Acting Pneumatic Cylinders (30 mm Stroke) \u2013 3 Nos.\n- Pneumatic Motor\n- Pneumatic Junction Box \u2013 5 Port\n- Pneumatic Push-Pull Connectors\n- Pneumatic components from SMC \/ Festo or equivalent\n\n7. Pneumatic Pressure Control Module (Analog Control)\n\n- Pneumatic Pressure Switch with Digital Display & Analog Output\n- 5\/3 Way Hand Lever Operated Pneumatic Valve\n- 5\/2 Way Double Acting Solenoid Valve\n- Double Acting Pneumatic Cylinder with Reed Switches\n- Industrial pneumatic components from SMC \/ Festo or equivalent\n\nSystem Features:\n\n- PCB-based modular training architecture\n- Banana patch cord-based industrial wiring system\n- Built-in safety protection for PLC and HMI operation\n- Real industrial automation components for hands-on training\n- Expandable modular configuration for advanced automation experiments\n- Supports industrial networking, motion control, analog control, and process automation applications\n\nSupported Learning Applications:\n\n- PLC Programming & Ladder Logic\n- HMI Development & Visualization\n- Industrial Sensor Integration\n- Pneumatic Automation\n- Analog Signal Processing\n- Motion Control Applications\n- Industrial Networking & Communication\n- Industrial Troubleshooting & Diagnostics\n\nApplications:\n\n- Engineering Colleges & Universities\n- Technical & Vocational Training Institutes\n- Industrial Automation Laboratories\n- Skill Development Centers\n- Industrial Training Programs",
        "Url": "edquip.co\/en\/hytech\/plc-training-kit-basic",
        "Page title": "PLC Training Kit Basic: Hytech - EDQUIP",
        "Page description": "Basic PLC training kit for technical education & training. Request your quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "90230090",
        "Equipment dimensions": "110 \u00d7 70 \u00d7 91",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "48",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "140 \u00d7 90 \u00d7 120",
        "Packed dimensions unit": "cm",
        "Packed weight": "80",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/PLC & HMI Training Kit with SCADA and IIOT - Basic\/PLC & HMI Training Kit with SCADA and IIOT - Basic_PH - Basic_Hytech Automation_Basic PLC .412 11.1.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/ns9HJjnPyA0",
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-527390",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EBDC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Biodiesel Process Unit",
        "Description": "The [Computer Controlled Biodiesel Process Unit, \u201cEBDC](https:\/\/www.edibon.com\/en\/computer-controlled-biodiesel-process-unit),\u201d performs the conversion of fatty acids from vegetable oils into a high-energy biofuel. This process is structured in two main stages:\n\n- Stage I: Mixing and Reaction with Agitation. This first stage begins by introducing vegetable oil into the main reactor, while the catalyst is prepared separately in a smaller secondary reactor. The catalyst and reagent are then combined, and the mixture is subjected to intense agitation and consistent heating. This process is facilitated by a centrifugal pump for recirculation and an electric resistance heater, both of which are computer-controlled for precision. The stainless steel reactor is equipped with a temperature sensor and level switches, ensuring safe and accurate operation throughout the process.\n\n- Stage II: Product Separation and Washing. After the reaction phase, the primary product (biodiesel) is separated from by-products. This is achieved through an initial biphasic decantation process, which is ideal for immiscible substances like biodiesel and glycerin. Due to its higher density, glycerin settles at the bottom and is extracted through the conical base of the reactor. The biodiesel is then directed to a washing stage, where it circulates through an ion exchange column to remove remaining impurities and water. Finally, the biodiesel is filtered through a diesel filter to ensure purity before being stored.\n\nAdditionally, the unit\u2019s performance and biodiesel quality can be assessed using a load cell in the product tank and a titration kit, which includes a pipette and droppers.\n\nThe [EBDC](https:\/\/www.edibon.com\/en\/computer-controlled-biodiesel-process-unit) system is integrated with the [EDIBON](https:\/\/www.edibon.com\/en\/) Computer Control System ([SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)), which provides the main unit, a Control Interface Box, a Data Acquisition Board, and software for process control, data acquisition, and data management to oversee each aspect of production.",
        "Specs": "- [EBDC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-biodiesel-process-unit):\n\n- Stainless steel frame and painted steel panels.\n- The unit includes wheels for easy mobility.\n- Main metallic elements made of stainless steel.\n- Diagram on the front panel with similar distribution to that of the elements in the real unit.\n- Circulation hose in specific polymer for fuels.\n- Cellulose filter with ten micron pore size.\n- Purification compartment with ion exchange resin.\n- Computer controlled single-phase pump specific for diesel fuels:\n- Reactor tank.\n- Mixing tank.\n- Oil tank.\n- Methylate tank.\n- Glycerin tank.\n- Biodiesel tank.\n- Instrumentation.\n- Titration kit.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EBDC\/CIB. Control Interface Box\n- EBDC\/CCSOF. PID Computer Control + Data Acquisition + Data Management Software\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals: Required services, Assembly and Installation, Interface and Control Software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study and performance of tests to determine the appropriate amount of catalyst to be used in the biodiesel generation process (titration).\n- Familiarization with the operation of a biodiesel production unit during the products reaction, extraction and washing process.\n- Study of the agitation and mixing level influence on the final quality of the obtained biodiesel.\n- Study of the washing and purifying stage influence on the final quality of the obtained biodiesel.\n- Study of the influence of temperature during the vegetable oils preheating and reaction stage on the final quality of the obtained biodiesel.\n- Analysis and tests to determine the biodiesel quality",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-biodiesel-process-unit",
        "Page title": "Computer Controlled Biodiesel Process Unit: Edibon - EDQUIP",
        "Page description": "Biodiesel Process Unit for education and training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit:  2500 x 2500 x 1600 mm approx.  (98,42 x 98,42 x 62,99 inches approx.) Control Interface Box: 490 x 330 x 310 mm approx.  (19.29 x 13 x 12.20 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "210",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Biodiesel Process Unit\/Computer Controlled Biodiesel Process Unit_EBDC.jpg",
        "Video link": "",
        "Main category": "Bioenergy Training Systems"
    },
    {
        "Edquip ID": "PL-634049",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EBMC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Biomass Process Unit",
        "Description": "The [Computer Controlled Biomass Process Unit, \"EBMC](https:\/\/www.edibon.com\/en\/computer-controlled-biomass-process-unit)\" designed to heat water, which circulates through connected components to distribute thermal energy. Built with a robust 5 mm-thick steel body, this biomass boiler is compatible with both pellets and other granulated fuels. It features a high-temperature-resistant stainless steel burner with a self-cleaning system, allowing flexibility in fuel types. Additionally, the boiler includes ash extraction compartments and is designed for easy access for maintenance and cleaning.\n\nA computer-regulated circulating pump directs heated water throughout the system. A three-way solenoid valve, also computer-controlled, distributes water between two main circuits: one circuit routes to the double-jacketed storage tank for domestic hot water, while the other leads to a unit heater for space heating. When the valve is active, it allows water flow in both directions; when inactive, it restricts flow to the unit heater, increasing supply to the storage tank.\n\nThe 60-liter storage tank is constructed from corrosion-resistant AISI 316 Ti stainless steel and includes a double jacket, through which the heated water circulates as part of the primary circuit. A computer-controlled solenoid valve at the tap water inlet manages flow as needed. The heating unit also features a computer-controlled heater located in a PMMA box, enabling users to monitor and control the heating time required to reach a desired temperature. The heater\u2019s temperature is controlled by a PID system that works in coordination with the three-way solenoid valve.\n\nThe primary circuit completes by recycling water from both the storage tank and unit heater circuits, returning it to the boiler. This computer-controlled unit comes equipped with [EDIBON](https:\/\/www.edibon.com\/en\/)\u2019s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) system, which includes the main unit, Control Interface Box, Data Acquisition Board, and software packages to manage and monitor the process and all operational parameters.",
        "Specs": "- [EBMC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-biomass-process-unit):\n\n- Anodized aluminum frame and panels of painted steel.\n- Main metallic elements of stainless steel.\n- Diagram in the front panel with similar distribution to the elements in the real unit.\n- This unit includes wheels for its mobility.\n- Biomass boiler of 16 kW. It works with pellets and other granulated fuels.\n- Double jacket storage tank made of stainless steel of 50 l for the DHW.\n- Computer controlled unit heater.\n- Box made of PMMA where the unit heater is located. PID control of the box temperature.\n- Computer controlled three-ways electronic valve\n- Computer controlled solenoid valve located at the storage tank tap water inlet line.\n- Three regulation valves of the hot water through the different circuits.\n- Manometer, range: 0 - 4 bar.\n- Ten \u201cJ\u201d type temperature sensors.\n- Three water flow sensors, range: 1.5 - 30 l\/min.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA and PID Control.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user's knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EBMC\/CIB. Control Interface Box:\n- EBMC\/CCSOF. PID Computer Control + Data Acquisition + Data Management Software:\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals: Required Services, Assembly and Installation, Interface and Control Software, Starting-up, Safety, Maintenance, Calibration and Practices Manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Familiarization with the operation of a heating and DHW system with biomass boilers.\n- Start-up of a biomass boiler.\n- Energy balance in the heating circuit (unit heater) with different types of biomass fuels.\n- Energy balance in the sanitary water circuit with different types of biomass fuels.\n- Influence of the heating water flow variation in the heat transfer.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-biomass-process-unit",
        "Page title": "Computer Controlled Biomass Process Unit: Edibon - EDQUIP",
        "Page description": "Biomass Process Unit for education and training. Request your quotation today! Free price estimations, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply",
            "Water drain",
            "External ventilation"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: : 2500 x 750 x 1500 mm approx.  (98.42 x 29.52 x 59.05 inches approx.)  Control-Interface Box:   490 x 330 x 310 mm approx.  (19.29 x12.99 x12.20 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "260",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Biomass Process Unit\/Computer Controlled Biomass Process Unit_EBMC.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-560447",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "PBGC\/CTS",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Biogas Processing Plant",
        "Description": "The [\"PBGC\/CTS\" Computer Controlled Biogas Processing Plant](https:\/\/www.edibon.com\/en\/computer-controlled-and-touch-screen-biogas-processing-plant) features two stainless steel reactors outfitted with level sensors and stirring systems, enabling flexible operation in either single-stage or two-stage processing modes. This setup supports separate digestion phases, with hydrolysis, acidogenesis, and acetogenesis occurring in the first digester, while methanogenesis takes place in the second. This separation allows for optimized conditions in each reactor.\n\nA computer-controlled pump delivers substrate from a supply tank, equipped with a stainless steel agitator, to the first reactor. The system can run in continuous or batch mode, with an additional pump transferring the substrate to the second reactor and another moving the digestate to a collection tank, facilitating the study of post-fermentation impacts on biogas production.\n\nBoth digesters are equipped with heating jackets that use circulating hot water to regulate temperature, tailored to support specific microbial requirements. Temperature control is maintained through PID regulation, with the hot water circulating in a closed loop, heated in a dedicated tank with a heating element.\n\nFor pH regulation, two computer-controlled peristaltic pumps introduce acid or base independently into each reactor, with separate connections from the acid and base tanks. The biogas generated is passed through a silica gel drying column before reaching a measurement pipe. Here, parameters like flow rate, humidity, methane and carbon dioxide concentrations, and temperature are analyzed to assess biogas quality and energy potential.\n\nIntegrated with [EDIBON](https:\/\/www.edibon.com\/en\/)\u2019s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) system, this unit includes a touch screen interface and software for computer control, data acquisition, and data management, providing comprehensive monitoring and control across all process parameters.",
        "Specs": "- [PBGC\/CTS. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-and-touch-screen-biogas-processing-plant):\n\n- Anodized aluminum frame and panels made of painted steel\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Supply tank made of stainless steel. Capacity: 25 l.\n- Three computer controlled pumps to impel the substrate. Max flow rate: 25 l\/h.\n- Two reactors made of stainless steel. Capacity: between 20 l \u2013 70 l.\n- Digestate collection tank made of stainless steel. Capacity: 25 l.\n- pH adjustment system.\n- Heating system.\n- Silica gel column for biogas drying.\n- Valves to select the circuits\n- Sampling point with valve for external sampling of generated biogas.\n- Biogas analysis section:\n- Computer and touch screen control: PLC controller to control the unit locally.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA and PID Control.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- CTS. Computer and touch screen control.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user's knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- PBGC\/CTS\/CCSOF. PID Computer Control + Data Acquisition + Data Management Software:\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals: Required Services, Assembly and Installation, Interface and Control Software, Starting-up, Safety, Maintenance, Calibration and Practices Manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study of the stabilization process.\n- Study of the effect of temperature on the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the pH effect on the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the volumetric load influence on the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the type of substrate influence on the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the inhibitors influence on the anaerobic digestion, purification and quality of the obtained biogas.\n- Influence of the working mode, with one or two stages, on the generation of biogas.\n- Influence of the working mode, continuous or batch, on the generation of biogas.\n- Influence of the working mode, with or without prior fermentation, on the generation of biogas.\n- Determination of the optimum operation temperature.\n- Determination of the optimum feeding rate.\n- Determination of the flow rate, output and quality of biogas under different working conditions.",
        "Url": "edquip.co\/en\/edibon\/biogas-processing-plant",
        "Page title": "Computer Controlled Biogas Processing Plant: Edibon - EDQUIP",
        "Page description": "Biogas Process Plant for education & training. Request quotation today! Free price estimations, hands-on learning, suitable for schools, colleges & universities",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Gases",
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Frame with supply tank: 1000 x 800 x 2000 mm approx.  (39.36 x 31.49 x 78.73 inches approx.) Frame with reactors: 2000 x 800 x 2000 mm approx.  (78.73 x 31.49 x 78.73 inches approx.)  Frame",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "500",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Biogas Processing Plant\/Computer Controlled Biogas Processing Plant_PBGC_CTS.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-354972",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EGTWC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Geothermal Energy Unit with Two-Well System",
        "Description": "The [\"EGTWC\" Computer Controlled Geothermal Energy Unit](https:\/\/www.edibon.com\/en\/computer-controlled-geothermal-energy-unit-with-two-well-system) with Two-Well System is designed at laboratory scale to explore thermal energy extraction from underground sources. This unit simulates a two-well geothermal system, allowing in-depth study of subsurface heat exploitation.\n\nThe system has two primary components: a plate heat exchanger where heat exchange occurs between the external fluid flow and the simulated groundwater, and a transparent main tank for visualizing soil behavior. The tank features a central working section and two side chambers for water inlet and outlet, with a sand bed through which simulated groundwater flows. Flow adjustments can be made through height-adjustable overflows, and manometric tubes allow visualization of fluid dynamics within the simulated soil.\n\nA self-contained water supply tank simulates groundwater, and a computer-controlled pump drives the water into the sand bed's feed chamber. Before reaching the feed chamber, water is heated by a controlled heating element, making it possible to set a specific groundwater temperature. The water then flows through the working section with a production well and an absorption well, separated by filtering materials. In the production well, water is pumped through a plate heat exchanger to transfer thermal energy to an external working fluid. Flow and temperature measurements at both input and output streams allow for precise energy balance calculations.\n\nTap water from the lab can serve as the working fluid in the exchanger, which exits to the bottom of the absorption well. From there, water flows through the height-adjustable overflow in the outlet chamber back to the supply tank, completing the circuit.\n\nThis unit integrates with [EDIBON](https:\/\/www.edibon.com\/en\/)\u2019s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) system for full computer control and data acquisition, including the Control Interface Box, Data Acquisition Board, and software packages for monitoring, control, and data management.",
        "Specs": "- [EGTWC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-geothermal-energy-unit-with-two-well-system):\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Sand bed tank measuring 1700 mm x 300 mm x 540 mm.\n- Supply tank capacity: 250 l.\n- Supply tank level switch.\n- Heating tank capacity: 6.5 l.\n- Computer controlled pump for groundwater pumping. Qmax: 150 l\/min and Hmax: 6 m.\n- Plate heat exchanger.\n- Temperature sensors to measure inlet and outlet temperatures of the heat exchanger.\n- Flow sensor of the working fluid (external flow).\n- Groundwater flow sensor.\n- Flow sensor of the water driven from the production well.\n- Sand filters.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EGTWC\/CIB. Control Interface Box:\n- EGTWC\/CCSOF. PID Computer Control + Data Acquisition + Data Management Software.:\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals: Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- 1.- Study of the basic principles of low enthalpy geothermal energy.\n- Calculation of the transferred thermal power.\n- Visualization of the operation of a two-well system.\n- Study and analysis of the hydraulic and thermal properties of the soil.\n- Determination of the useful thermal power.\n- Fundamentals and energy balance of a heat pump.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-geothermal-energy-unit-with-two-well-system",
        "Page title": "Geothermal Energy Unit with Two-Well System: Edibon - EDQUIP",
        "Page description": "Geothermal training equipment for learning about the climate control of buildings, heat pumps etc. Request your quotation today! Free price estimations.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: 1800 x 800 x 2000 mm approx.  (70.86 x 31.49 x 78.73 inches approx.) Control Interface Box: 490 x 330 x 310 mm approx.  (19.29 x 12.99 x 12.20 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "110",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Geothermal Energy Unit with Two-Well System\/Computer Controlled Geothermal Energy Unit with Two-Well System_EGTWC.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-298617",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EESTC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Thermal Solar Energy Unit",
        "Description": "The \"[EESTC](https:\/\/www.edibon.com\/en\/computer-controlled-thermal-solar-energy-unit)\" Computer Controlled Thermal Solar Energy Unit is designed to convert solar energy into usable thermal energy using both thermosiphon and traditional pumping systems. This unit utilizes simulated solar radiation from a powerful lamp panel to heat water, demonstrating the principles of solar thermal energy collection.\n\nKey components of the [EESTC](https:\/\/www.edibon.com\/en\/computer-controlled-thermal-solar-energy-unit) unit include:\n\n- Thermal Solar Collector: This collector is mounted on an aluminum frame, where water circulates through copper tubes. Its geometrical design maximizes solar energy absorption, enhancing efficiency.\n\n- Accumulator Tank: Coated with an anti-corrosive material, the accumulator tank includes a computer-controlled heating element equipped with a safety mechanism to prevent overheating.\n\n- Solar Simulator: The solar simulator features lamps that emit radiation mimicking sunlight, with a radiation sensor measuring the intensity of this light. The collected light is converted into heat within the solar collector, which then heats the transfer fluid. The simulator can operate in three configurations: all lamps on, half in a zigzag pattern, or a single lamp activated.\n\n- Pumping System: A computer-controlled pump enables forced convection of the heat transfer fluid through the accumulator tank, facilitating efficient heat transfer.\n\nThe unit is outfitted with sensors and meters to monitor critical parameters such as temperature, flow rate, and solar radiation levels. Additionally, safety valves are included for overpressure protection.\n\nThis unit is integrated with the [EDIBON](https:\/\/www.edibon.com\/en\/) Computer Control System ([SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)), which provides comprehensive control capabilities. It includes the main unit, a Control Interface Box, a Data Acquisition Board, and software for computer control, data acquisition, and process management.",
        "Specs": "The [\"EESTC\" Computer Controlled Thermal Solar Energy Unit](https:\/\/www.edibon.com\/en\/computer-controlled-thermal-solar-energy-unit) is designed to convert solar energy into usable thermal energy using both thermosiphon and traditional pumping systems. This unit utilizes simulated solar radiation from a powerful lamp panel to heat water, demonstrating the principles of solar thermal energy collection.\n\nKey components of the [EESTC](https:\/\/www.edibon.com\/en\/computer-controlled-thermal-solar-energy-unit) unit include:\n\n- Thermal Solar Collector: This collector is mounted on an aluminum frame, where water circulates through copper tubes. Its geometrical design maximizes solar energy absorption, enhancing efficiency.\n\n- Accumulator Tank: Coated with an anti-corrosive material, the accumulator tank includes a computer-controlled heating element equipped with a safety mechanism to prevent overheating.\n\n- Solar Simulator: The solar simulator features lamps that emit radiation mimicking sunlight, with a radiation sensor measuring the intensity of this light. The collected light is converted into heat within the solar collector, which then heats the transfer fluid. The simulator can operate in three configurations: all lamps on, half in a zigzag pattern, or a single lamp activated.\n\n- Pumping System: A computer-controlled pump enables forced convection of the heat transfer fluid through the accumulator tank, facilitating efficient heat transfer.\n\nThe unit is outfitted with sensors and meters to monitor critical parameters such as temperature, flow rate, and solar radiation levels. Additionally, safety valves are included for overpressure protection.\n\nThis unit is integrated with the [EDIBON](https:\/\/www.edibon.com\/en\/) Computer Control System ([SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)), which provides comprehensive control capabilities. It includes the main unit, a Control Interface Box, a Data Acquisition Board, and software for computer control, data acquisition, and process management.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-thermal-solar-energy-unit",
        "Page title": "Computer Controlled Thermal Solar Energy Unit: Edibon - EDQUIP",
        "Page description": "Computer controlled Solar Thermal training equipment. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply",
            "Water drain"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: 2350 x 1430 x 1800 mm approx.  (92.51 x 56.29 x 70.86 inches approx.) Control-Interface Box:  490 x 330 x 310 mm approx.  (19.29 x 12.99 x 12.2 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "300",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Thermal Solar Energy Unit\/Computer Controlled Thermal Solar Energy Unit_EESTC (con SCADA) ojo cables.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/AiWUmptrGTk",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-856084",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "MINI-EESTC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Thermal Solar Energy Basic unit",
        "Description": "The [\u201cMINI-EESTC\u201d Computer Controlled Thermal Solar Energy Basic Unit](https:\/\/www.edibon.com\/en\/computer-controlled-thermal-solar-energy-basic-unit) is designed to effectively demonstrate the principles of solar thermal heating for domestic water. This compact unit utilizes a thermosiphon system and a traditional pumping system to convert solar energy into usable thermal energy. The simulated solar radiation is provided by powerful luminous sources.\n\nThe unit is comprised of the following key components:\n\n- Thermal Solar Panel: Constructed from polycarbonate, this panel is mounted on a metal frame and features a conduit for the thermal fluid. Its design optimizes the geometrical shape of the absorbing surface to achieve maximum efficiency.\n\n- Tank: The tank is built to meet established technical standards and is equipped for safe and effective operation. Hot water exits through an overflow positioned at the tank's top.\n- Solar Simulator: The system includes lamps that emit radiation characteristics similar to sunlight, allowing for accurate simulation of solar heating conditions.\n\n- Pumping System: This system supports both thermosiphon mode\u2014where water circulates due to temperature differences without a pump\u2014and pumping mode, where a pump actively moves the water.\n\n- Sensors and Controls: The unit features five temperature sensors to monitor temperature at various points within the system. Additionally, a flowmeter and flow sensor measure the water flow through the pump and collector, ensuring effective operation.\n\n- Valves: The unit is equipped with valves that facilitate operation in either thermosiphon or pumping mode, enhancing flexibility in demonstration.\n\nEvery necessary pipe and connection is included to ensure optimal performance of the unit.\n\nThis Computer Controlled Unit is integrated with the [EDIBON](https:\/\/www.edibon.com\/en\/) Computer Control System ([SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)), which comprises the main unit, a Control Interface Box, a Data Acquisition Board, and software packages for computer control, data acquisition, and management of all process parameters.",
        "Specs": "- [MINI-EESTC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-thermal-solar-energy-basic-unit):\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Solar panel (thermal solar collector).\n- Tank of 30 l.\n- Solar simulator.\n- Pumping system.\n- Five temperature sensors, type \u201cJ\u201c, at different points of the unit.\n- The unit includes two \u201cVenetian\u201d type blinds to reduce a direct visual contact with the lamps and to reduce the direct contact with the solar panel when the unit is working.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board (250 KS\/s, kilo samples per second).\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- MINI-EESTC\/CIB. Control Interface Box.\n- MINI-EESTC\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals: Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study of the thermosiphon operation.\n- Study of the luminosity profile of the lamps.\n- Study of the efficiency of the solar panel.\n- Study of the influence of the inclination angle of the lamp panel on the unit efficiency.\n- Study of the relation between the flow and the temperature.\n- Study of the energy balance of the solar collector.\n- Experimental efficiency determination.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-thermal-solar-energy-basic-unit",
        "Page title": "Computerized Thermal Solar Energy Basic unit: Edibon - EDQUIP",
        "Page description": "Thermal solar training equipment. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: 1300 x 800 x 1500 mm approx.  (51.18 x 31.49 x 59.05 inches approx.) Control-Interface Box: 490 x 330 x 310 mm approx.",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "80",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Thermal Solar Energy Basic unit\/Computer Controlled Thermal Solar Energy Basic unit_MINI-EESTC.png",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-738109",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "MINI-EESF",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Photovoltaic Solar Energy Modular Trainer",
        "Description": "The [\u201cMINI-EESF\u201d Photovoltaic Solar Energy Modular Unit (Complete Version)](https:\/\/www.edibon.com\/en\/photovoltaic-solar-energy-modular-unit-complete-version) designed by [EDIBON](https:\/\/www.edibon.com\/en\/) is a laboratory-scale system designed to comprehensively explore the parameters involved in the direct conversion of solar radiation into electricity. This unit features application modules and photovoltaic solar panels mounted on mobile structures, enabling flexibility and ease of use.\n\nThe [MINI-EESF](https:\/\/www.edibon.com\/en\/photovoltaic-solar-energy-modular-unit-complete-version) unit is tailored for both theoretical and practical studies of photovoltaic solar energy systems, including the typical configurations found in solar installations and the operation of various components involved in energy conversion.\n\nThe solar energy captured can be utilized in several ways:\n\n- Regulated DC Power: The system can charge batteries while monitoring parameters such as the current output from the solar modules and the battery voltage.\n\n- DC Loads: The unit can deliver power directly to DC loads, allowing for the analysis of solar module output and the current consumption of connected devices.\n\n- AC Power Conversion: The system can convert the solar energy into AC power for use by AC loads, facilitating the study of load consumption patterns.\n\n- Public Grid Injection: Users can simulate the injection of energy into the public grid, examining output current and voltage from the solar modules, as well as power supplied to the grid, including frequency and voltage metrics.\n\nThe [MINI-EESF](https:\/\/www.edibon.com\/en\/photovoltaic-solar-energy-modular-unit-complete-version) unit is available in two different versions, offering varying practical applications and levels of complexity: MINI-EESF\/M and MINI-EESF\/B. This flexibility makes it an ideal educational tool for understanding solar energy systems and their integration into electrical installations.",
        "Specs": "- [MINI-EESF. Unit:](https:\/\/www.edibon.com\/en\/photovoltaic-solar-energy-modular-unit-complete-version)\n\n- Supply and Consumption at 12 VDC.\n- Supply and Consumption in alternating current (AC).\n- Supply to the electrical grid.\n- Photovoltaic module.\n- Lamp module.\n- Battery offering optimal performance with low power applications.\n- Set of interconnection cables.\n\nThe \u201cMINI-EESF\u201d unit includes the following elements:\n\n- EE-HYB-KIT. Hybrid Grid Inverter Kit with Self-Energy Management.\n- MINI-EESF\/M. Photovoltaic Solar Energy Modular Unit (Intermediate Version).\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Determination of the constituent material of the solar cell.\n- Determination of the I-V first quadrant curve without illuminating the solar cell.\n- Determination of the inverse (or saturation) current of the cell without illumination.\n- Determination of parallel and series resistance of a solar cell without illumination.\n- Dependency of the open circuit voltage (Voc) with lumens (luminous flux).\n- Determination of the parameters that describe the quality of a solar cell.\n- Solar energy measurement.\n- Measurement of the solar panel voltage with no load.\n- Determination of the disposition of cells in a solar panel.\n- Familiarisation with the regulator parameters.\n- Loads connection to 12 VDC.\n- Loads connection to 220 VAC.\n- Study of the inverter with grid connection.\n- Battery charging.\n- Practices of serial and parallel panel configuration (minimum two MINI-EESF units).\n- Study of the hybrid inverter\u2019s grid connection procedure: correct sequence of battery and grid switches (EE-HYB-KIT).\n- Study of the hybrid inverter configuration (EE-HYB-KIT).\n- Study of the hybrid inverter in grid connection mode (EE-HYB-KIT).\n- Study of the hybrid inverter in island mode (EE-HYB-KIT).\n- Study of the behavior of the hybrid inverter in the event of a blackout (EE-HYB-KIT).\n- Study of the charging process of the battery from the laboratory grid through the hybrid inverter (EE-HYB-KIT).\n- Study of the battery charging process from a renewable energy source (EE-HYB-KIT).\n- Study of the power flows of the battery and the grid under variations of the energy demand with the variable resistive load (EE-HYB-KIT).\n- Study of the response of the hybrid inverter when the critical discharge point of the battery is reached (EE-HYB-KIT).\n- Study of the energy balance between the battery-charge-grid by means of the analog ammeters and voltmeters incorporated in the kit (EE-HYB-KIT).",
        "Url": "edquip.co\/en\/edibon\/photovoltaic-solar-energy-modular-trainer",
        "Page title": "Photovoltaic Solar Energy Modular Trainer: Edibon - EDQUIP",
        "Page description": "Solar PV training equipment. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": "Rack with modules: Dimensions: 645 x 325 x 925 mm approx. (25.39 x 12.79 x 36.41 inches approx.)  Photovoltaic module:  Dimensions: 730 x 510 x 1150 mm approx. (28.74 x 20.07 x 45.27 inches",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "50",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Photovoltaic Solar Energy Modular Trainer\/Photovoltaic Solar Energy Modular Trainer_MINI-EESF.png",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-610674",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EESFC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Photovoltaic Solar Energy Unit",
        "Description": "The [Computer Controlled Photovoltaic Solar Energy Unit, \u201cEESFC](https:\/\/www.edibon.com\/en\/computer-controlled-photovoltaic-solar-energy-unit)\u201d, includes equipment that uses the photo-conversion law, which directly converts solar radiation into electricity. The absorbed energy is provided by simulated solar radiation, which in our case is supplied by a panel with powerful light sources (solar lamps).\n\nThis unit is composed of:\n\n- Photovoltaic solar panels.\n- Solar simulator composed of solar lamps.\n- Ventilation system.\n- DC load and battery charger regulator.\n- Auxiliary battery charger.\n- Battery.\n- DC loads module.\n- Sensors (temperature, light radiation, DC current and DC voltage).\n\nThis Computer Controlled Unit is supplied with the [EDIBON](https:\/\/www.edibon.com\/en\/) Computer Control System ([SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)), and includes: The unit itself + a Control Interface Box + a Data Acquisition Board + Computer Control, Data Acquisition and Data Management Software Packages, for controlling the process and all parameters involved in the process.",
        "Specs": "- [EESFC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-photovoltaic-solar-energy-unit):\n\n- The \u201cEESFC\u201d unit is a computer controlled unit for the study of the conversion of solar energy into electric energy.\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n\nThe unit includes:\n\n- Two photovoltaic solar panels (polycrystalline).\n- Solar simulator.\n- Ventilation system, computer controlled, that allows to analyze the temperature influence on the unit operation.\n- DC load and battery charger regulator.\n- Auxiliary battery charger.\n- Battery.\n- DC loads module.\n- Sensors.\n- The connection of solar panels in parallel or series, the measurement of the voltage and the current before or after the regulator and the regulation of the light intensity of lamps of the two independent circuits are computer controlled.\n- The unit includes four blinds to reduce a direct visual contact with the halogen lamps and to reduce the direct contact with the photovoltaic solar panels when the unit is working.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EESFC\/CIB. Control Interface Box.\n- EESFC\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- - Identification and familiarization with all components of the unit and how they are associated with its operation.\n- Determination of the solar panel characteristic parameters.\n- Study of the materials that make up the solar cell.\n- Study of the p and n sides of a solar cell.\n- Study of the I-V and P-V curves.\n- Study of the inverse current or the saturation current.\n- Study of V, I and W according to different loads.\n- Measurement of the open-circuit voltage and the short-circuit current for a solar panel with load.\n- Measurement of the maximum power for a solar panel with load.\n- Study of the relationship between power generated and solar radiation power.\n- Study of the solar panel maximum power.\n- Study of the influence of temperature on the solar panel opencircuit voltage.\n- Determination of the photo-conversion efficiency.\n- Study of the efficiency of the solar panels connected in parallel.\n- Study of the efficiency of the solar panels connected in series.\n- Study of the efficiency, depending on the temperature, of the photovoltaic system connected in parallel.\n- Study of the operation of the photovoltaic generation system supplying power to different DC loads without an auxiliary battery.\n- Study of the photovoltaic power generation system operation with an auxiliary battery and supplying different DC\/AC loads.\n- Study of the operation of the photovoltaic system in series\/ parallel with connection of different loads and without the support of the storage battery.\n- Study of the operation of the photovoltaic system in series\/ parallel with connection of different loads DC and with the support of the storage battery.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-photovoltaic-solar-energy-unit",
        "Page title": "Computerized Photovoltaic Solar Energy Unit: Edibon - EDQUIP",
        "Page description": "Photovoltaic Solar Energy Unit for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit:  2200 x 1200 x 2005 mm approx.  (86.61 x 47.24 x 78.93 inches approx.)  Control-Interface Box: 490 x 330 x 310 mm approx.  (19.29 x 12.99 x 12.20 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "310",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Photovoltaic Solar Energy Unit\/Edibon_Computer_Controlled_Photovoltaic_Solar_Energy_Unit.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/JoqWlF4Ejzw?si=85jxgbckljObe6qp",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-263405",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EEEC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Wind Energy Unit",
        "Description": "The [\"EEEC\" Computer Controlled Wind Energy Unit](https:\/\/www.edibon.com\/en\/computer-controlled-wind-energy-unit?video_modal=on) is a laboratory-scale system that facilitates the study of kinetic wind energy conversion into electrical power and allows examination of various factors affecting this generation process. It features a stainless steel tunnel, an aerogenerator, and an axial fan with variable speed control, which is computer-operated. The main elements of the aerogenerator include a rotor, capable of holding multiple blades, and a generator that forms the core of the energy conversion system. The unit's fan speed can be adjusted, allowing the airflow to rotate the aerogenerator\u2019s rotor, which in turn drives the generator to convert this kinetic energy into electricity.\n\nWith adjustable settings, the aerogenerator allows modification of the incidence angle and blade angle. The blades are removable, providing flexibility in blade configurations, which makes it possible to analyze their effects on energy efficiency and power output. The unit includes a DC load regulation system with an auxiliary battery charger, battery, and DC loads module, comprising lamps, rheostat, motor, load selector, and switches for various load selections. Sensors within the unit provide real-time measurement of critical parameters, including air temperature, airflow speed, rotor speed (rpm), voltage, and current. A temperature sensor before the rotor and an airflow sensor in the tunnel contribute to a comprehensive analysis of both environmental and performance variables. Additionally, voltage and current sensors measure power output, both before and after regulation, enabling precise assessments of efficiency and power.\n\nFurthermore, the unit can determine the thrust force applied to the wind turbine in the direction of the wind and measure the mechanical torque during turbine operation. The [EEEC](https:\/\/www.edibon.com\/en\/computer-controlled-wind-energy-unit?video_modal=on) unit is equipped with the [EDIBON](https:\/\/www.edibon.com\/en\/) [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) system, which includes the main unit, a Control Interface Box, Data Acquisition Board, and specialized software for process control, data acquisition, and monitoring of all operational parameters, supporting in-depth exploration and analysis of wind energy applications.",
        "Specs": "- [EEEC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-wind-energy-unit?video_modal=on):\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n\nThe unit includes\n\n- Stainless steel tunnel.\n- Aerogenerator.\n- Computer controlled axial fan with variable speed for wind simulation.\n- DC load regulator.\n- Auxiliary battery charger.\n- Battery.\n- DC loads module.\n- Sensors.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EEEC\/CIB. Control Interface Box.\n- EEEC\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Identification and familiarization with all components of the unit and how they are associated with its operation.\n- Familiarization with the regulator parameters and the wind energy measurements.\n- Study of the conversion of kinetic wind energy into electrical energy.\n- Study of the power generated by the aerogenerator depending on the wind speed.\n- Determination of the typical parameters of the aerogenerator (short circuit current, open-circuit voltage, maximum power).\n- Determination of the I-V curve.\n- Study of voltage, current and power in function of different loads.\n- Study of the influence of the load variation on the aerogenerator.\n- Determination of the maximum power output of the aerogenerator.\n- Determination of the P-air speed curve.\n- Study of the power generated by the aerogenerator depending on the incident angle of the air.\n- Study of the characteristic curve of the rotor.\n- Study of the connection of loads to direct voltage.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-wind-energy-unit",
        "Page title": "Computer Controlled Wind Energy Unit: Edibon - EDQUIP",
        "Page description": "Wind energy tunnel for training purposes. Request your quotation today! Free price estimations, suitable for techncial schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE",
            "UL"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Unit: 2300 x 630 x 1080 mm approx.  (90.55 x 24.80 x 42.52 inches approx.) Control Interface Box:  : 490 x 330 x 310 mm approx.  (19.29 x 12.99 x 12.20 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "130",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Wind Energy Unit\/Computer Controlled Wind Energy Unit_EEEC.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/15Njf7Lq3uE?si=7HM88qtwdOMyqmdY",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-511198",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-WPP",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Wind Power Plants with Double Feed Induction Generator",
        "Description": "The [\"AEL-WPP\" Wind Power Plants with Double Feed Induction Generator Application](https:\/\/www.edibon.com\/en\/computer-controlled-wind-power-plants-with-double-feed-induction-generator-application) is designed for studying the structure and operation of modern wind power stations. It includes a prime motor that drives a double-feed induction generator, emulating the core function of a wind power plant. This unit is managed by a [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) Control System, offering several essential features for both configuration and analysis.\n\nThe [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) system enables users to set up a wind curve that the experiment will follow. Once the desired wind curve is configured, the \"AEL-SERIN\/CA-1K\" motor automatically recreates it, providing realistic wind simulation during testing. [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) also displays critical system signals, such as rotor and stator currents, line voltage, and the DC bus voltage of the back-to-back inverter, as well as system metrics like rotor and stator active and reactive power, total power, and generator shaft speed.\n\nThe data collected during the experiment can be saved and analyzed using the included data visualizer, which is compatible with Microsoft Excel. Additionally, [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) allows users to simulate voltage dips within the electrical network, affecting the doubly fed induction generator. This simulation capability includes voltage drops of 20%, 40%, and 60%, with adjustable injection times, allowing users to safely observe the turbine\u2019s behavior under different stress conditions without risk of equipment damage. This comprehensive control system provides a complete environment for exploring the performance and response of wind turbines under varying conditions.",
        "Specs": "- [AEL-WPP. Unit:](https:\/\/www.edibon.com\/en\/computer-controlled-wind-power-plants-with-double-feed-induction-generator-application)\n\n- EMT8B\/1.5K. 3PH Wound Motor, 1.5 kW, 4 Poles.\n- N-DFGC. Double-feed Generator Control Module.\n- N-FRT. Fault Ride Trough Module\n- N-BTBINV. Back to Back Inverter.\n- N-SERINCA1K. Advanced Industrial Servosystems Module for AC Motors.\n- AEL-PC. Touch Screen and Computer\n- AEL-WBR. Electrical Workbench (Rack).\n- All necessary cables to realize the practical exercises are included\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- AEL-WPP\/CCSOF. Computer Control + Data Acquisition + Data Management Software:\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Identifying elements and devices.\n- Supply and modules signals wiring.\n- Commissioning of application.\n- Analyzing the system states: starting and loading the DC bus.\n- Identifying modulation inverter start back to back.\n- Stop sequence double feed induction generator.\n- Study of the double-feed asynchronous machine with subsynchronous speed.\n- Study of the double-feed asynchronous machine with supersynchronous speed.\n- Study of the system behavior during the simulation of voltage dips in the network (\u201cfault ride-through\u201d).",
        "Url": "edquip.co\/en\/edibon\/wind-power-plants-with-double-feed-induction-generator",
        "Page title": "Wind Power Plant Double Feed Induction Generator: Edibon - EDQUIP",
        "Page description": "Wind Power Plant (DFIG), for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "2000 x 400 x 2000 mm approx.  (78.74 x 15.75 x 78.74 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Wind Power Plants with Double Feed Induction Generator\/Wind Power Plants with Double Feed Induction Generator_AEL-WPP.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-345875",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-SWT",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Stand-Alone Wind Turbine Application",
        "Description": "The [\"AEL-SWT\" Stand-Alone Wind Turbine Application](https:\/\/www.edibon.com\/en\/stand-alone-wind-turbine-application) by [EDIBON](https:\/\/www.edibon.com\/en\/) offers comprehensive training at both theoretical and practical levels in wind turbine technology. It is designed to provide users with a complete understanding of wind turbine principles, stand-alone power generation, and energy storage.\n\nThis application is equipped with real industrial components, including a permanent magnet wind turbine, AC\/DC rectifier, load regulator, analog ammeter, and voltmeter, allowing users to take various measurements within the DC circuit. A servo motor and controller are included to adjust the turbine\u2019s rotational speed, enabling simulation of diverse wind and power generation conditions. Additionally, a variable resistive load is included to study different energy consumption scenarios.\n\nOptional modules such as a single-phase inverter and an energy meter further expand the setup, allowing for the study of an isolated wind energy system. A detailed manual accompanies the application, covering essential theoretical topics such as wind turbine operation, energy storage in batteries, and DC and AC power usage at different wind speeds. This complete setup facilitates a deep exploration of the principles, control, and functioning of small-scale wind turbines and energy systems.",
        "Specs": "- [AEL-SWT application:](https:\/\/www.edibon.com\/en\/stand-alone-wind-turbine-application)\n\n- N-ALI02. Domestic Main Power Supply Module.\n- MED65. Digital Multimeter.\n- N-REV01. Single-Phase Variable Resistor Module 0-700 Ohm.\n- WT-KIT-400W. 400 W Wind Turbine Kit with Regulator and Measurement Instrumentation.\n- N-REG-24V\/400W. Wind Turbine Regulator Module 24 V, 400 W.\n- N-TPAD-3PH\/400V. 400 V Three-Phase AC\/DC Converter Module.\n- N-MED16. DC Voltmeter Module (0-50 V).\n- N-MED81. DC Ammeter Module (0-30 A).\n- BAT2. AGM Battery, 25 Ah, 12 V (2 units).\n- N-SERV400W. 400 W Servomotor Controller Module.\n\nAdditional recommended elements (Not included):\n\n- N-MED72. Single-Phase Energy Counter Module.\n- N-MED10. AC Ammeter Module (0-5 A).\n- TECNEL\/TM. Hand Tachometer.\n- All necessary cables to realize the practical exercises are included.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Commissioning of the servomotor coupled to the wind turbine.\n- Obtaining the characteristic curve of the wind generator.\n- Energy measurement.\n- Study of permanent magnet generator with AC to DC rectifier.\n- Study of the complete circuit of a wind turbine energy storage system.",
        "Url": "edquip.co\/en\/edibon\/stand-alone-wind-turbine-application",
        "Page title": "Stand-Alone Wind Turbine Application: Edibon - EDQUIP",
        "Page description": "Stand-Alone Wind Turbine, for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1600 x 550 x 2000 mm approx.  (62.99 x 21.65 x 78.74 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "180",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Stand-Alone Wind Turbine Application\/Stand-Alone Wind Turbine Application_AEL-SWT.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-104694",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-WPPI",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Wind Power Plant with Induction Generator Application",
        "Description": "The [\"AEL-WPPI\" Wind Power Plants with Induction Generator Application](https:\/\/www.edibon.com\/en\/wind-power-plants-with-induction-generator-application), developed by [EDIBON](https:\/\/www.edibon.com\/en\/), enables students to explore the electrical performance of wind turbines using three-phase squirrel cage induction generators that feed power into the grid.\n\nThis application allows users to study various operating modes\u2014sub-synchronous, synchronous, and super-synchronous. Each mode presents a unique set of electrical parameters, which can be analyzed through the unit\u2019s advanced network analyzer. This analyzer provides insights into key parameters such as active, reactive, and apparent powers (P, Q, and S), line and total power factors, line currents, phase and line voltages, and current and voltage harmonics.\n\nFor simulating varying wind speeds, a three-phase induction motor with a squirrel cage rotor is paired with the induction generator. The motor\u2019s speed is adjusted through a frequency variator, allowing users to replicate different wind conditions and observe the generator's behavior in relation to the grid.\n\nAdditionally, a frequency controller included in the application enables students to measure the wind turbine\u2019s speed and applied torque, facilitating a thorough examination of electrical and mechanical parameters. Through hands-on experience, students gain a deeper understanding of wind turbines utilizing induction generators.",
        "Specs": "- [AEL-WPPI. Unit:](https:\/\/www.edibon.com\/en\/wind-power-plants-with-induction-generator-application)\n\n- N-ALI01. Industrial Main Power Supply Module.\n- N-CAR19T3. Three-Phase Bench of Commutable Capacitors Module.\n- N-VVCA2K. 2 kW Motor Speed Controller Module.\n- N-EALD. Electrical Network Analyzer Module with Oscilloscope and Data Acquisition.\n- N-MPS. Motor Protection Module (1.6 A - 2.5 A).\n- N-ARS. Automatic Resistors Starter Module.\n- GMG1.25K3PH. 1.25 kW Generator-Motor Group.\n- All necessary cables to realize the practical exercises are included.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Commissioning of the induction generator.\n- Wiring procedure of the induction generator to the grid.\n- Study of operation regimes of the wind turbines with threephase induction generator of squirrel cage.\n- Analysis of the induction generators coupled to the grid in subsynchronous state.\n- Analysis of the induction generators coupled to the grid in synchronous state.\n- Analysis of the induction generators coupled to the grid in super-synchronous state.\n- Study of electrical parameters of the induction generator coupled to the grid in sub-synchronous state.\n- Study of electrical parameters of the induction generator coupled to the grid in synchronous state.\n- Study of electrical parameters of the induction generator coupled to the grid in super-synchronous state.\n- Efficiency study of the induction generator comparing the injected power in the grid with the mechanical power shaft of the turbine.\n- Power factor influence with the speed variations and analysis of the possible solutions to automate the regulation of the power factor.\n- Active power compensation by mean capacitor banks and electrical measurement of the electrical machine response.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/wind-power-plants-with-induction-generator-application",
        "Page title": "Wind Power Plant Induction Generator Application: Edibon - EDQUIP",
        "Page description": "Wind Power Plant, for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": "1600 x 550 x 2000 mm approx.  (62.99 x 21.65 x 78.74 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "120",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Wind Power Plant with Induction Generator Application\/Wind Power Plant with Induction Generator Application_AEL-WPPI.png",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-828329",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-SAPV",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Stand-Alone Photovoltaic Application",
        "Description": "The [\"AEL-SAPV\" Stand-Alone Photovoltaic Application](https:\/\/www.edibon.com\/en\/stand-alone-photovoltaic-application), designed by [EDIBON](https:\/\/www.edibon.com\/en\/), is intended for studying the generation of electrical energy from photovoltaic panels. This application equips users with foundational knowledge and skills in photovoltaic panel operation, as well as the role of essential components in converting solar energy to electricity. A detailed manual is included, covering theoretical aspects related to key system components such as the charge controller and current inverter. Additionally, a series of modules allow users to practically apply these concepts by powering both DC and AC loads using solar energy.\n\nThe photovoltaic panel is mounted on a mobile and adjustable frame, enabling users to study energy generation under different solar angles. Furthermore, the application includes lamps to simulate varying levels of solar radiation, allowing users to observe changes in the panel\u2019s output characteristics. This functionality provides a consistent learning experience, regardless of external weather conditions, and enables users to explore the photovoltaic panel\u2019s response under controlled, variable conditions.",
        "Specs": "- [AEL-SAPV. Unit:](https:\/\/www.edibon.com\/en\/stand-alone-photovoltaic-application)\n\n- N-ALI02. Domestic Main Power Supply Module.\n- LP3. Three Lamps Panel.\n- FVP96. 96 W Photovoltaic Panel.\n- N-SWIN. Sine Wave Inverter Module.\n- N-BER. Battery Electronic Regulator Module.\n- BAT2. AGM Battery, 25 Ah, 12 V.\n- N-LAM16. Halogen Lamp Module.\n- N-ES20. 12 VDC Load Module.\n- N-REV. Single Phase Variable Resistor Module.\n- MED65. Digital Multimeter (2 units).\n\nAdditional recommended elements (Not included):\n\n- N-MED84. Photovoltaic Parameters Meter Module.\n- N-EALD. Electrical Network Analyzer Module with Oscilloscope and Data Acquisition.\n- All necessary cables to realize the practical exercises are included.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Wiring of the photovoltaic installation.\n- Measurement of solar irradiation.\n- Measurement of the open-circuit voltage.\n- Measurement of the short-circuit current.\n- Obtaining the I-V characteristic curve of the photovoltaic panel.\n- Finding the MPP for the panel under the previously established conditions.\n- Study of the influence of the solar irradiation on energy production.\n- Study of the inclination angle of the panel in the production of energy.\n- DC isolated photovoltaic installation and study of the consumption of electrical loads.\n- AC stand-alone photovoltaic installation and study of the consumption of electrical loads.\n- Study of the battery charge\/discharge operation.\n- Study of inverter losses.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/stand-alone-photovoltaic-application",
        "Page title": "Stand-Alone Photovoltaic Application: Edibon - EDQUIP",
        "Page description": "Stand-Alone PV Application, for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": "Mobile workbencht with modules:  640 x 320 x 920 mm approx.  (25.19 x 12.59 x 36.22 inches approx.).  Photovoltaic panel:  730 x 510 x 1150 mm approx.  (28.74 x 20.07 x 45.27 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "70",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Stand-Alone Photovoltaic Application\/Stand-Alone Photovoltaic Application_AEL-SAPV.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-243409",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-PHVG",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Photovoltaic Application with Connection to Grid",
        "Description": "The [\"AEL-PHVG\" Photovoltaic Application with Connection to Grid](https:\/\/www.edibon.com\/en\/photovoltaic-application-with-connection-to-grid), developed by [EDIBON](https:\/\/www.edibon.com\/en\/), is designed for studying photovoltaic energy production and the integration of this energy into the electrical grid. To facilitate a hands-on learning experience in solar energy production, the \"[AEL-PHVG](https:\/\/www.edibon.com\/en\/photovoltaic-application-with-connection-to-grid)\" includes a programmable power supply that simulates an array of photovoltaic panels connected to a three-phase grid inverter. This inverter is programmable, allowing users to manage energy output under various conditions and perform dynamic power control with the energy injected into the grid. For this reason, the application is compatible with any of EDIBON's Smart Grid systems.\n\nTo further enhance experimentation, it is recommended to acquire an actual photovoltaic panel along with a mobile halogen lamp panel. The mobile lamp panel is equipped with a current regulator, enabling users to simulate variations in solar irradiance. Additionally, a variable resistor module and multimeters are suggested for conducting load tests on the photovoltaic panel.\n\nThe application can operate alongside other power generation units to analyze energy mixes and explore the benefits and challenges of integrating alternative energy sources into a single power system. This compatibility allows it to be combined with other generation, transmission, distribution, and load applications, offering a comprehensive study of interconnected power systems.",
        "Specs": "- [AEL-PHVG. Unit:](https:\/\/www.edibon.com\/en\/photovoltaic-application-with-connection-to-grid)\n\n- N-ALI01. Industrial Main Power Supply Module.\n- N-EALD\/A. Network Analyzer Ethernet Module with Oscilloscope and Data Acquisition.\n- PSPS\/A. Advanced Panel Simulator Power Supply.\n- N-PSM. Power Switch Module.\n- N-INV02. Three-Phase Grid Inverter Module 02.\n- N-ZIS. Z-WAVE Zero Injection Smart Meter Module.\n- N-REL09. Time Electronic Relay against Overcurrents Module (0-16 A).\n- N-REVT\/1K. 1kW Three-Phase Variable Resistors Module.\n- N-INDT\/3C. 3 x 300 Var Three-phase Configurable Inductances Module.\n- All necessary cables to realize the practical exercises are included.\n\nAdditional recommended elements (Not included):\n\n- MED65. Digital Multimeter (2 units).\n- N-REV01. Single-Phase Variable Resistor Module 0-700 Ohm.\n- LP3. Three Lamps Panel.\n- FVP96. 96 W Photovoltaic Panel.\n- TPEL\/1800W. Three-Phase DC\/AC Electronic Load of 1800 W.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Measurement and calculation of the active power consumed by a three-phase variable resistive load.\n- Measurement and calculation of the total power consumed by a three-phase R-L load.\n- Configuration of the programmable power supply as PV Array.\n- Maximum production of photovoltaic power with grid injection thorugh the grid inverter.\n- Maximum production of photovoltaic power with grid injection and local energy consumption.\n- Dynamic control of active power with the photovoltaic inverter. Zero injection control.\n- Dynamic control of active power with the photovoltaic inverter. Grid injection control.",
        "Url": "edquip.co\/en\/edibon\/photovoltaic-application-with-connection-to-grid",
        "Page title": "Photovoltaic Application with Connection to Grid: Edibon - EDQUIP",
        "Page description": "Solar PV training equipment, with connection to grid. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": "Unit: 1380 x 840 x 2010 mm approx.  (54.33 x 33.07 x 79.13 inches approx.). Photovoltaic Panel: 730 x 510 x 1150 mm approx.  (28.74 x 20.07 x 45.27 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "110",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Photovoltaic Application with Connection to Grid\/Photovoltaic Application with Connection to Grid_AEL-PHVGC.png",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-919251",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-PHIP",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Photovotaic Systems Application in Isolated and Parallel Grids",
        "Description": "The [\"AEL-PHIP\" Photovoltaic Systems Application in Isolated and Parallel Grids](https:\/\/www.edibon.com\/en\/photovotaic-systems-application-in-isolated-and-parallel-grids), developed by [EDIBON](https:\/\/www.edibon.com\/en\/), is designed for examining the operations of photovoltaic systems in both isolated (island mode) and grid-connected (parallel mode) configurations. This application allows users to explore electricity generation using photovoltaic panels by simulating various setups and irradiance conditions. It facilitates the study of both independent operation and grid-integration of photovoltaic systems, providing insight into the principles of control, regulation, and energy storage devices commonly utilized in real-world applications.\n\nThe \"[AEL-PHIP](https:\/\/www.edibon.com\/en\/photovotaic-systems-application-in-isolated-and-parallel-grids)\" application includes specialized kits, each offering a unique focus on specific aspects of photovoltaic power plants:\n\n- PHIP-K1: Analysis of Series and Parallel Photovoltaic Modules Kit.\n- PHIP-K2: Off-Grid Single-Phase Photovoltaic Systems Kit.\n- PHIP-K3: Single-Phase Photovoltaic Systems for Parallel to Grid Operation Kit.\n\nThis modular approach allows students to gain a comprehensive understanding of photovoltaic system configurations, control mechanisms, and performance under both isolated and grid-connected conditions.",
        "Specs": "- [AEL-PHIP. Unit:](https:\/\/www.edibon.com\/en\/photovotaic-systems-application-in-isolated-and-parallel-grids)\n\n- N-ALI02. Domestic Main Power Supply Module.\n- PESS. Photovoltaic Module with Solar Path Simulation.\n- N-EAL-DC. DC Network Analyzer Unit.\n- N-REV01. Single-Phase Variable Resistor Module 0-700 Ohm.\n- N-SSM. Solar Simulation Module.\n- BAT6. Lead-Acid Battery 6.\n- N-MED85. DC Ammeter (-6+6A).\n- N-MED86. DC Voltmeter (0-15 V).\n- N-REG02. Current Electronic Regulator Module 2.\n- N-SWIN. Sine Wave Inverter.\n- N-EALD. Network Analyzer Module with Oscilloscope and Data Acquisition.\n- N-LAM34. 3 AC Lamps Module.\n- N-LAMP35. 2 DC Lamps Module.\n- N-INV04. Single-Phase Grid Inverter Module 4.\n- All necessary cables to realize the practical exercises are included.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nPractical possibilities with the PHIP-K1 kit:\n\n- Daily and yearly curves display.\n- Calculation of the photovoltaic modules optimal position.\n- Display of the photovoltaic modules characteristic curves.\n- Working of bypass diodes.\n- Series and parallel configuration of the photovoltaic modules.\n- Analysis of the simulated generation with different configurations of the photovoltaic modules and different solar irradiation conditions.\n\nPractical possibilities with the PHIP-K2 kit:\n\n- Installation of photovoltaic plants.\n- Measuring the electrical parameters of the photovoltaic generation system.\n- Designing and testing a photovoltaic system isolated from the grid in direct operation.\n- Designing and testing a photovoltaic system isolated from the grid in storage operation.\n- Designing and testing a photovoltaic system isolated from the grid with AC voltage supply and energy storage.\n\nPractical possibilities with the PHIP-K3 kit:\n\n- Installation of photovoltaic plants.\n- Measuring the electrical parameters of the photovoltaic generation system.\n- Designing and testing grid-connected (or parallel) photovoltaic systems.\n- Determining the industrial inverter efficiency.\n- Analysis of the photovoltaic system response to a grid blackout.\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/photovotaic-systems-application-in-isolated-and-parallel-grids",
        "Page title": "Photovotaic Trainer, Isolated & Parallel Grids: Edibon - EDQUIP",
        "Page description": "Solar photovoltaic power systems training equipment. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": "640 x 320 x 670 mm approx.  (25,19 x 12,59 x 26,37 inches approx).",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "35",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Photovotaic Systems Application in Isolated and Parallel Grids\/Edibon_Photovotaic_Systems_Application_in_Isolated_and_Parallel_Grids.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-586257",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-WPTC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Wind Power Application with Permanent Magnets Synchronous Generator with SCADA",
        "Description": "The [\"AEL-WPTC\" Wind Power Application with Permanent Magnet Synchronous Generator](https:\/\/www.edibon.com\/en\/wind-power-application-with-permanent-magnets-synchronous-generator-with-scada), created by [EDIBON](https:\/\/www.edibon.com\/en\/), facilitates the study of wind energy conversion into electrical power through a permanent magnet synchronous generator. This application gives users an in-depth understanding of the components and operational principles of control, regulation, and storage devices in real wind power systems.\n\nThe \"[AEL-WPTC](https:\/\/www.edibon.com\/en\/wind-power-application-with-permanent-magnets-synchronous-generator-with-scada)\" system includes a three-phase permanent magnet synchronous generator paired with a servomotor and control module, effectively simulating a real wind turbine setup. The servomotor enables users to examine power generation under various wind conditions regardless of actual weather, providing a flexible and controlled environment for study. Additionally, the application incorporates an inverter and regulator for control and regulation, a battery for energy storage, and a set of AC and DC loads as power consumption elements.\n\nWith the \"[EM-SCADA](https:\/\/www.edibon.com\/en\/control-and-data-acquisition-system-software-for-electrical-machines)\" Control and Data Acquisition Software, users can monitor both mechanical (torque, rotational speed) and electrical (voltage, current, power, torque) parameters, enabling them to derive characteristic curves and operational points of the generator. For further practical experience, acquiring a small permanent magnet wind turbine is recommended to observe its operation in real wind conditions when available.",
        "Specs": "- [AEL-WPTC. Unit](https:\/\/www.edibon.com\/en\/wind-power-application-with-permanent-magnets-synchronous-generator-with-scada):\n\n- N-ALI01. Industrial Main Power Supply Module.\n- N-EALD. Network Analyzer Module with Oscilloscope and Data Acquisition.\n- N-INV01. Single-Phase Isolated Inverter Module 01.\n- N-LAM34. 3 AC Lamps Module.\n- N-LAM35. 2 DC Lamps Module.\n- N-REV01. Single-Phase Variable Resistor Module 0-700 Ohm.\n- N-SERV1K. 1 kW Servomotor Module.\n- N-REG02. Current Electronic Regulator Module 2.\n- N-TPAD-3PH\/400V. 400 V Three-Phase AC\/DC Converter Module.\n- BAT6. Lead-Acid Battery 6 (2 units).\n- EMT6C. Permanent Magnets 3PH Synchronous Motor-Generator, 8 poles, 24 VAC.\n- EM-SCADA. Control and Data Acquisition System Software for Electrical Machines.\n- All necessary cables to realize the practical exercises are included.\n\nAdditional recommended elements (Not included):\n\n- PMSWG. Permanent Magnets Small Wind Turbine.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- AEL-WPTC\/CCSOF. Computer Control + Data Acquisition + Data Management Software:\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Start-up and working of the permanent magnets synchronous generator.\n- Structure and operation of a wind power plant.\n- Study of the energy storage and system optimization.\n- Operation and working characteristics with different wind speeds and loads (AC and DC).\n- Operation of a wind power plant in island mode for the generation of AC current.\n- Real time torque monitoring.\n- Real time speed monitoring.\n- Real time monitoring of current, voltage and power values.\n- Real time monitoring of current and voltage waveforms.\n- Electrodynamic study of the motor\/generator.\n- Obtaining characteristic curves (torque-velocity curve, torquecurrent curve, etc.) and working points for operating conditions.\n- Real time monitoring of the results.",
        "Url": "edquip.co\/en\/edibon\/wind-power-application-with-permanent-magnets-synchronous-generator-with-scada",
        "Page title": "Wind Power Application, Synchronous Generator: Edibon - EDQUIP",
        "Page description": "Wind Power Application, for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1600 x 550 x 2000 mm approx.  (62,99 x 21,65 x 78,74 inches approx).",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "180",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Wind Power Application with Permanent Magnets Synchronous Generator with SCADA\/Wind Power Application with Permanent Magnets Synchronous Generator with SCADA_AEL-WPTC.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-107468",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EOMC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Waves Energy Unit",
        "Description": "The [\"EOMC\" Computer Controlled Waves Energy Unit](https:\/\/www.edibon.com\/en\/computer-controlled-waves-energy-unit), developed by [EDIBON](https:\/\/www.edibon.com\/en\/), provides a scaled-down platform for studying wave energy and examining the effects of various influencing factors. This unit consists of a Base Service Unit and Waves Generator (\"EOMC-UB\"), along with several compatible modules that enable exploration of wave-to-mechanical energy conversion processes.\n\nThe base \"EOMC-UB\" unit primarily comprises a flow channel and wave generator. The flow channel is a transparent rectangular section (80 x 300 mm, 5 m in length) that facilitates the controlled movement of water. Water is circulated from a storage tank via a computer-controlled hydraulic pump, which directs it to an inlet tank for stabilization. The water then flows through the channel to the reception tank, finally returning to the storage tank, creating a closed-loop system. A wave sensor placed within the channel allows for the measurement of wave height and frequency.\n\nWater flow regulation through the channel is achieved with a control valve at the pump outlet, where a flow sensor measures the water flow rate. A differential pressure sensor is also positioned at the pump's water outlet to measure pressure drops, either at the orifice plate or within the Venturi tube. The waves are generated by a blade mechanism, which pulls water to create various wave forms. Wave frequency is adjusted by varying the blade's rotational speed, which is computer-controlled, while wave size can be changed by modifying the water level in the tank or adjusting the blade\u2019s depth within the channel. Additionally, a speed sensor monitors the blade's rotational speed, enabling comprehensive data collection and analysis.\n\nThrough this detailed setup, the \"[EOMC](https:\/\/www.edibon.com\/en\/computer-controlled-waves-energy-unit)\" unit provides a complete and versatile environment for studying the mechanics of wave energy and related variables.",
        "Specs": "- [EOMC-UB. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-waves-energy-unit):\n\n- CF80\/5. Flow Channel (section: 80 x 300 mm), length: 5 m.\n- CFGO-K1. Mechanical Wave Generation Elements Kit.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EOMC\/CIB. Control Interface Box.\n- EOMC\/CCSOF. Computer Control + Data Acquisition + Data Management Software:\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nPractices to be done with the Base Service Unit and Waves Generator, \u201cEOMC-UB\u201d:\n\n- Study of the characteristic parameters of waves.\n- Measurement of flow using Venturi tube.\n- Measurement of flow using orifice plate.\n\nPractices to be done with the Floating Buoy Module, \u201cEOMC-1\u201d:\n\n- Determination of the extracted energy with a floating buoy module.\n- Study of the influence of the float shape in the extracted energy with a floating buoy module.\n\nPractices to be done with the Oscillating Water Column Module, \u201cEOMC-2\u201d:\n\n- Determination of the extracted energy with an oscillating water column module.\n\nPractices to be done with the Pelamis Module, \u201cEOMC-3\u201d:\n\n- Determination of the extracted energy with a Pelamis module.\n\nPractices to be done with the Tapered Channel Module, \u201cEOMC-4\u201d:\n\n- Determination of the extracted energy with a Tapered Channel module.\n- Study of the effect of slope on the extracted energy with a Tapered Channel module.\n- Study of the effect of width contraction on the extracted energy with a Tapered Channel module.\n\nPractices to be done with the Salter\u2019s Duck Module, \u201cEOMC-5\u201d:\n\n- Determination of the extracted energy with a Salter's Duck module.",
        "Url": "edquip.co\/en\/edibon\/waves-energy-unit",
        "Page title": "Computer Controlled Waves Energy Unit: Edibon - EDQUIP",
        "Page description": "Waves energy training equipment. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "EOMC-UB. Unit: 6050 x 1000 x 1700 mm approx.  (238.18 x 39.37 x 66.92 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "372",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Waves Energy Unit\/Computer Controlled Waves Energy Unit_EOMC.png",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-167815",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "SWPC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Single Water Pumping Application",
        "Description": "The [\"SWPC\" Computer Controlled Single Water Pumping Application](https:\/\/www.edibon.com\/en\/computer-controlled-stand-alone-water-pumping-application), developed by [EDIBON](https:\/\/www.edibon.com\/en\/), is designed to demonstrate the fundamental operation principles of pumping units within isolated networks. This unit includes two water tanks placed at different heights, connected by a pump and PVC piping to replicate a real-world pumping system. A unique feature of the application is its proportional valve, which allows users to adjust the valve's opening level to create varied manometric pressures at the pump outlet, effectively controlling the pumping height of the system. With this setup, water can be pumped from the lower tank (ground water) to the upper tank (storage tank) after the desired pressure is configured.\n\nThe application incorporates an industrial pump regulator, engineered specifically to maximize available energy for pumping. When solar radiation is minimal, the regulator optimizes the current-voltage (I-V) curve to extend pumping hours, allowing students to analyze these device operations and their value in systems that regulate voltage for optimal pump operation.\n\nA range of sensors, actuators, and indicators facilitates complete monitoring, supervision, and control. These include a tank level sensor, flow and pressure sensors, a maximum level stop in the upper tank to prevent overflow, a minimum level stop in the lower tank to avoid pump damage, along with various pump operation indicators and control switches. The [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) software\u2019s data acquisition system and internal meters display real-time sensor data and actuator status, including the regulator's input and output voltage and current. Furthermore, users can analyze the system\u2019s energy flows, assessing the potential energy of the pumped water and the electricity required to transfer this energy to the storage tank.\n\nFor a more comprehensive learning experience, a photovoltaic panel, wind turbine, batteries, and respective regulators are recommended as supplementary components to showcase how an isolated network pumping system operates. The SWPC application also includes a detailed manual, which covers the theoretical and practical aspects of photovoltaic and wind-powered water pumping systems, the architecture of pumping and irrigation setups, energy flow analyses, and the dimensioning of solar pumping installations.",
        "Specs": "- [SWPC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-stand-alone-water-pumping-application)[:](https:\/\/www.edibon.com\/en\/computer-controlled-stand-alone-water-pumping-application)\n\n- N-ALI02. Domestic Main Power Supply Module.\n- N-PRC. Pumping Local Control Module.\n- N-DCPWS-36V\/150W. 36 VDC, 150 W Power Supply Module.\n- MED65. Digital Multimeter.\n- PTWT. Pumping Unit with Two Water Tanks.\n- All necessary cables to realize the practical exercises are included.\n\nAdditional recommended elements (Not included):\n\n- PV-KIT-300W. 300W Photovoltaic Kit with Regulator and Measurement Instrumentation.\n- LP6. 6 Lamps Panel with Dimming.\n- N-REG-AC\/LR. AC Local\/Remote Current Regulator Module.\n- N-MED16. DC Voltmeter Module (0-50 V).\n- N-MED81. DC Ammeter Module (0-30 A).\n- PV-24\/300W. Photovoltaic Panel, 24 VDC, 300 W.\n- BAT2. AGM Battery, 25 Ah, 12 V (2 units).\n- N-REG03. MPPT Regulator Module.\n- WT-KIT-400W. 400 W Wind Turbine Kit with Regulator and Measurement Instrumentation.\n- WT-24V\/400W. Permanent Magnets Wind Turbine 24 V, 400 W.\n- N-REG-24V\/400W. Wind Turbine Regulator Module 24 V, 400 W.\n- N-TPAD-3PH\/400V. 400 V Three-Phase AC\/DC Converter Module.\n- N-MED16. DC Voltmeter Module (0-50 V).\n- N-MED81. DC Ammeter Module (0-30 A).\n- BAT2. AGM Battery, 25 Ah, 12 V (2 units).\n- N-SERV400W. 400 W Servomotor Controller Module.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- SWPC\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 7 manuals. Required services, Assembly and Installation and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Starting and stopping the pumping system.\n- Automatic stop in maximum and minimum level conditions.\n- Study of the working regime of the pumping regulator: adjustment and reduction of voltage.\n- Commissioning of the solar battery pumping system (requires the PV-KIT-300W).\n- Commissioning of the solar pumping system without batteries (requires the PV-KIT-300W).\n- Study of the working regime of the pumping regulator: shadow effect (requires the PV-KIT-300W).\n- Study of the working regime of the pumping regulator: variations of pumped flow (requires the PV-KIT-300W).\n- Starting thresholds with and without converter (requires the PVKIT-300W).\n- Commissioning of the battery-powered wind pumping system (requires the WT-KIT-400W).\n- Commissioning of the wind power pumping system without batteries (requires the WT-KIT-400W).\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/single-water-pumping-application",
        "Page title": "Computerized Single Water Pumping Application: Edibon - EDQUIP",
        "Page description": "Pumping equipment in isolated networks, powered by Solar PV. Request your quotation today! Free price estimations, suitable for schools, colleges & universities",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "PTWT: 1000 x 520 x 960 mm approx.  (39.36 x 20.47 x 37.79 inches approx.). PV-24\/300W:  2040 x 580 x 1250 mm approx.  (80.31 x 22.83 x 49.21 inches approx.).  LP6: 1310 x 410 x 850 mm approx",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "150",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Single Water Pumping Application\/Computer Controlled Single Water Pumping Application_SWPC.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-361610",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "TPTV\/20KW\/CTS",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Steam Power Plant Adjustable up to 20 Kw",
        "Description": "The [\"TPTV\/20kW\/CTS\" Computer Controlled and Touch Screen 20 kW Steam Power Plant](https:\/\/www.edibon.com\/en\/computer-controlled-and-touch-screen-20-kw-steam-power-plant) by [EDIBON](https:\/\/www.edibon.com\/en\/) is designed to provide an in-depth study of the power generation cycle using steam. This unit comes with essential supplementary units: the Water Softener (TPTV\/20kW-WS), Cooling Tower (TPTV\/20kW-CT), and a choice of Water-tube Steam Generator (TPTV\/20kW-SGA) or Pirotubular Steam Generator (TPTV\/20kW-SGP). Together, these units enhance the plant\u2019s functionality, mirroring the conditions of a full-scale steam power plant.\n\nThe Water Softener removes water hardness by using a 40-liter ion exchange resin column that exchanges calcium ions for sodium ions. Decalcified water then flows into the Cooling Tower or the intake tank and, from there, to the Steam Generator. In the Cooling Tower, water is automatically regulated by level switches (AN-6 and AN-7) and valves (AVS-4), and, if necessary, manually emptied through valves V-3 and V-16.\n\nAt start-up, the intake tank can be filled with decalcified water or condensed return water. Purge valve V-13 remains open to release air from the tank for smooth filling. If water is absent, valve AVS-3 opens to refill the tank up to level switch AN-5, with manual emptying managed by valves V-9 and V-10.\n\nWhen the water level is sufficient, it is pumped to the boiler, where it is heated and pressurized through diesel combustion to reach desired steam conditions. The steam then passes through a separator to eliminate suspended droplets and is reheated to become superheated steam. A proportional valve in the system regulates steam flow, allowing broad control over steam rate.\n\nTwo steam flow paths are available. One bypasses the turbine through valve AVS-2, leading the steam directly to the condenser to maintain turbine integrity. The other path directs steam through the turbine, where thermal energy is converted into mechanical energy, subsequently transformed into electrical energy by the generator. Sensors monitor the turbine\u2019s rotational speed, torque, and generated power. A lubrication reservoir optimizes turbine rotation, and a drain valve removes condensation from the turbine blades.\n\nThis system is fully integrated with [EDIBON](https:\/\/www.edibon.com\/en\/)'s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) software, allowing comprehensive control over the steam power cycle, including data acquisition and management for a hands-on experience of real-world power plant operations.",
        "Specs": "- [TPTV\/20kW\/CTS. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-and-touch-screen-20-kw-steam-power-plant)[:](https:\/\/www.edibon.com\/en\/computer-controlled-and-touch-screen-20-kw-steam-power-plant)\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Transparent panels to protect the unit that allows the user to observe the operation of the unit.\n- Local control of the plant by PLC-HMI system using a 10.1\u2019\u2019 touch screen, allowing users to have an overview of the plant and operating conditions.\n- Thermally insulated units and piping with temperatures above 60 \u00b0C.\n- Intake tank in stainless steel or similar.\n- Turbine.\n- Condenser.\n- Relief valve in the steam generator.\n- Float valve.\n- Working speed control valve.\n- Relief valve in the steam tank.\n- Instrumentation\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- TPTV\/20kW\/CTS\/CCSOF. PID Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 7 manuals. Required services, Assembly and Installation and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study, analysis and test of safety systems.\n- Study, analysis and test of measurement systems.\n- Study, analysis and test of pressure in the circuit.\n- Study of the pressure and temperature control techniques in a steam power plant.\n- Study, analysis and test of the water softening unit.\n- Study, analysis, operation and test of the steam boiler.\n- Study, analysis and test of the steam flow sensor.\n- Study, analysis and test of the condenser.\n- Study, analysis and test of the refrigeration tower.\n- Study and analysis of the corresponding maintenance in a steam power plant.\n- Commissioning of a steam power plant.\n- Shut down of a steam power plant.",
        "Url": "edquip.co\/en\/edibon\/steam-power-plant-adjustable-up-to-20-kw",
        "Page title": "Steam Power Plant Adjustable up to 20 Kw: Edibon - EDQUIP",
        "Page description": "Steam Power Plant, for education & training. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply",
            "Water drain",
            "External ventilation"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": "TPTV\/20kW\/CTS: 3000 x 1200 x 3000 mm approx.  (118.11 x 47.24 x 118.11 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "500",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Steam Power Plant Adjustable up to 20 Kw\/Steam Power Plant Adjustable up to 20 Kw_TPTV_20kW_CTS.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-592465",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "CPIC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Industrial Process Control Plant",
        "Description": "The [\"CPIC\" Computer Controlled Process Control Plant with Industrial Instrumentation and Service Module](https:\/\/www.edibon.com\/en\/computer-controlled-industrial-process-control-plant) by EDIBON is a comprehensive unit designed to replicate the processes and instrumentation commonly used in industrial settings, all within a laboratory-scaled framework. This unit is specifically intended for studying the complexities of controlling variables in processes involving flow, temperature, level, and pressure.\n\nThe [CPIC](https:\/\/www.edibon.com\/en\/computer-controlled-industrial-process-control-plant) consists of a main unit where various industrial elements are installed and a service module that supplies essential utilities like hot and cold water, as well as compressed air, which are necessary for the unit's operation. This setup allows users to explore process control challenges and gain hands-on experience with systems often encountered in real-world industrial applications.\n\nEquipped with [EDIBON](https:\/\/www.edibon.com\/en\/)\u2019s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada) software, the [CPIC](https:\/\/www.edibon.com\/en\/computer-controlled-industrial-process-control-plant) includes a Control Interface Box, a Data Acquisition Board, and computer-based software packages for control, data acquisition, and data management. This comprehensive software integration enables users to monitor and control all relevant parameters within the system, providing a realistic and detailed study of process control techniques used across industries.",
        "Specs": "- [CPIC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-industrial-process-control-plant):\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Main Unit\n- Service Module\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- CPIC\/CIB. Control Interface Box.\n- CPIC\/CCSOF. PID Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required Services, Assembly and Installation, Interface and Control Software, Starting-up, Safety, Maintenance, Calibration and Practices Manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Familiarization with the different components of the system and their symbolic representation. Identification of components and description of their functions.\n- The auxiliary systems: air and hot water supply.\n- Flow sensors calibration.\n- Temperature sensors calibration.\n- Level sensor calibration.\n- I\/P converter calibration.\n- Flow control loop (on\/off).\n- Flow control loop (proportional).\n- Flow control loop (P+I).\n- Flow control loop (P+D).\n- Flow control loop (P+I+D).\n- Adjust of the flow controller constants (Ziegler-Nichols).\n- Adjust of the flow controller constants (reaction curves).\n- Search of simple shortcomings in the loop of flow control.\n- Temperature control loop (on\/off).\n- Temperature control loop (proportional).\n- Temperature control loop (P+I).\n- Temperature control loop (P+D).\n- Temperature control loop (P+I+D).\n- Adjust of the temperature controller constants (minimum area or reduction rate).\n- Adjust of the temperature controller constants (minimum disturbance criterion).\n- Adjust of the temperature controller constants (minimum width criterion).\n- Study of the retards for speed\/distance, exemplified through the temperature control loop.\n- Study of the energy lost in the temperature control loop.\n- Search of simple shortcomings in temperature control loop.\n- Level control loop (on\/off).\n- Level control loop (proportional).\n- Level control loop (P+I).\n- Level control loop (P+D).\n- Level control loop (P+I+D).\n- Adjust of the level controller constants (minimum area or reduction rate).\n- Adjust of the level controller constants (minimum disturbance criterion).\n- Adjust of the level controller constants (minimum width criterion).\n- Search of simple shortcomings in level control loop.\n- Pressure control loop (on\/off).\n- Pressure control loop (proportional).\n- Pressure control loop (P+I).\n- Pressure control loop (P+D).\n- Pressure control loop (P+I+D).\n- Adjust of the pressure controller constants (minimum area or reduction rate).\n- Adjust of the pressure controller constants (minimum disturbance criterion).\n- Adjust of the pressure controller constants (minimum width criterion).\n- Search of simple shortcomings in the pressure control loop.\n- The use of the controllers in cascade, exemplified with the level\/flow control loop.\n- Adjust of cascade control constants (minimum area or reduction rate).\n- Adjust of cascade control constants (minimum disturbance criterion).\n- Adjust of cascade control constants (minimum width criterion).\n- Search of simple shortcomings in cascade control loop.\n- Practical operation of the control plant to some wanted specific values: transfers without interferences.\n- Calculation of the fluid flow in function of the differential pressure sensor.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-industrial-process-control-plant",
        "Page title": "Computerized Industrial Process Control Plant: Edibon - EDQUIP",
        "Page description": "Industrial Process Control Plant for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Main Unit: 5000 x 1500 x 2500 mm approx.  (196.85 x 59.05 x 98.42 inches approx.)  Service Module: 2000 x 1500 x 2000 mm approx.  (78.74 x 59.05 x 78.74 inches approx.) Control Interface Box",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "1220",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Industrial Process Control Plant\/Edibon_Computer_Controlled_Industrial_Process_Control_Plant.png",
        "Video link": "",
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-132904",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-PLC-PAN",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "PANASONIC PLC Application",
        "Description": "The [\"AE-PLC-PAN\" Panasonic PLC Application](https:\/\/www.edibon.com\/en\/panasonic-plc-application), developed by [EDIBON](https:\/\/www.edibon.com\/en\/), is a PLC training unit incorporating one of the latest Panasonic PLCs. This unit is designed to help users learn essential skills related to PLC logic programming, various PLC programming languages, and PLC-to-PC communication.\n\nEquipped with a set of practical exercises, the [\"AE-PLC-PAN\"](https:\/\/www.edibon.com\/en\/panasonic-plc-application) guides users through learning how to work with PLC systems even without prior knowledge. This unit can be used as a standalone device for PLC study or paired with compatible [EDIBON](https:\/\/www.edibon.com\/en\/) units for real-world application studies.\n\nThe system\u2019s modular structure includes all essential PLC components, such as the Panasonic PLC Base Unit, [\"AE-PLC-PAN-UB\"](https:\/\/www.edibon.com\/en\/panasonic-plc-application), which contains a power supply, CPU module, and programming software. Additional recommended kits are available to expand the PLC\u2019s capabilities, providing opportunities to explore functions like HMI programming, analog input\/output testing, and web server programming, making it a comprehensive tool for understanding the full scope of PLC technology in industrial settings.",
        "Specs": "- [AE-PLC-PAN-UB application:](https:\/\/www.edibon.com\/en\/panasonic-plc-application)\n\n- N-ALI02. Domestic Main Power Supply Module.\n- N-CPU-PAN. PANASONIC CPU Module.\n- N-SWT-8. 8 Ports Ethernet Switch Module.\n\nAdditional recommended elements (Not included):\n\n- PAN-PLC-K2. PANASONIC PLC Kit 2.\n- N-ESA-PAN. PANASONIC Analog I\/O Module.\n- PAN-PLC-K3. PANASONIC PLC Kit 3.\n- N-HMIB-PAN. PANASONIC Small HMI Module.\n- PAN-PLC-K4. PANASONIC PLC Kit 4.\n- N-HMIA-PAN. PANASONIC Large HMI Module.\n- PAN-PLC-K5. PANASONIC PLC Kit 5.\n- N-MOD. Modem Communication Module.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 7 manuals. Required services, Assembly and Installation and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (PAN-PLC-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (PAN-PLC-K1 and PAN-PLC-K2).\n- Using analog signals II (PAN-PLC-K1 and PAN-PLC-K2).\n- Square wave generator.\n- HMI simple program (PAN-PLC-K3 or PAN-PLC-K4).\n- Using digital outputs with HMI device I (PAN-PLC-K3 or PANPLC-K4).\n- Using digital outputs with HMI device II (PAN-PLC-K3 or PANPLC-K4).\n- Reading data from a register with the HMI device (PAN-PLC-K3 or PAN-PLC-K4).\n- Writing data to a register with the HMI device (PAN-PLC-K3 or PAN-PLC-K4).\n- Switching screens of the HMI device (PAN-PLC-K3 or PANPLC-K4).\n- Internet connection of the PLC unit (PAN-PLC-K5).\n- Control digital inputs with a web server application (PANPLC-K5).\n- Control digital outputs with a web server application (PANPLC-K5).\n- Control analog inputs with a web server application (PANPLC-K5).\n- Control analog outputs with a web server application (PANPLC-K5).",
        "Url": "edquip.co\/en\/edibon\/panasonic-plc-application",
        "Page title": "PANASONIC PLC Application: Edibon - EDQUIP",
        "Page description": "PLC training equipment. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "640 x 320 x 920 mm approx.  (25.19 x 12.59 x 36.22 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "60",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/PANASONIC PLC Application\/PANASONIC PLC Application_AE-PLC-PAN.jpg",
        "Video link": "",
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-755416",
        "Product Type": "hardware",
        "Producer": "DIKOIN",
        "Producer product number": "EN 01.6",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Documentation"
        ],
        "Name": "Computerized Photovoltaic Installation Demonstrator",
        "Description": "The EN 01.6 equipment scales a complete photovoltaic solar system. It has been designed with special emphasis on the didactic aspect of it, being able to observe at a glance all the components that a solar photovoltaic installation has and its arrangement. It allows the study of both, isolated photovoltaic solar energy installations and grid connection.\n\nThe equipment consists of: 2 photovoltaic panels of 20Wp, 2 batteries, regulator, insulated inverter, grid inverter, solar panel emulator, pyranometer, temperature sensors in panels, various DC and AC loads, and module control and data acquisition.\n\nIt has cables ready to connect and disconnect the various elements of the installation in different ways, being able to observe and analyze the operation of the panels connected independently, in series, in parallel, with batteries in series or in parallel, with direct output in Direct current or direct current to AC converter, working in isle or connected to the grid.\n\nIt is provided with elements of measurement of the variables necessary to analyze the characteristics of the panels and their behavior. Thus, it has a pyranometer that indicates the intensity of radiation that affects the panels, with voltmeters and ammeters that show us respectively the voltage and the intensity generated.\n\nIt also has ammeter and voltmeter in each of the batteries to indicate the state of these and the direction of flow of the current in them, that is to say if they are loading or providing load. It has also a measuring instrument that provides us all the characteristics of the alternating current obtained after the inverter.",
        "Specs": "Panels: 2 photovoltaic panels of 20Wp.\n\nControl of temperature in the solar panels, to control the efficiency as a function of temperature.\n\nCooling system of photovoltaic panels using fans.\n\nRegulation of the intensity of the lights, which simulate the sun.\n\nBattery charge controller: Regulator with 12 or 24V CC operation, and maximum current =10A. Maximum input voltage= 45V.\n\nBatteries: 2 Batteries of 12V 10Ah.\n\nInvestorss:\nSinusoidal inverter operating on Island 200 VA power, with 230V \/ 50Hz output.\nInverter for network connection 230V \/ 50Hz.\n\nSolar panel emulator module for connection to inverter for network connection, with solar intensity regulation.\n\nPyranometer for the measurement of solar intensity.\n\nRheostat for analysis of voltage-current graph in solar panels and comparison with specifications. It allows in series or parallel connection.\n\nData acquisition card.\n\nThe equipment is supplied with a complete workbook with its resolute version.\n\nComputer integrated in the equipment with teaching software.",
        "Url": "edquip.co\/en\/dikoin\/computerized-photovoltaic-installation-demonstrator",
        "Page title": "Photovoltaic Installation Demonstrator: Dikoin - EDQUIP",
        "Page description": "Training equipment for PV solar, to study both, isolated photovoltaic solar energy installations and grid connection. Both for vocational and further education.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Dikoin\/Computerized Photovoltaic Installation Demonstrator\/Computerized Photovoltaic Installation Demonstrator EN 01_6 blanco.jpg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-988015",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "Smart Factory",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Smart Factory with 7 Axes Robot and Digital Twin",
        "Description": "Robotic Smart Factory with Digital Twin & Remote Commissioning\n\nHytech Automation\u2019s Robotic Smart Factory is an advanced Industry 4.0 training and demonstration platform designed to replicate real-world smart manufacturing environments using industrial automation, robotics, PLC-HMI integration, SCADA, IIOT, machine vision, RFID, servo systems, and digital twin technologies.\n\nThe system provides comprehensive hands-on training in industrial automation workflows including robotic handling, smart inspection, automated assembly, packaging, data acquisition, process monitoring, and connected manufacturing operations. Built using real industrial-grade automation components, the Smart Factory enables learners to understand the complete lifecycle of modern manufacturing systems.\n\nThe Smart Factory integrates multiple industrial stations connected through a centralized PLC-HMI-SCADA-IIOT architecture, enabling real-time machine communication, production monitoring, data analytics, and remote commissioning.\n\nIntegrated Smart Factory Stations:\n\n- Bearing Dispensing & Pneumatic Gauging Station\n- Vision Inspection Station with Cognex Vision System\n- Assembly & Gauging Station\n- Packaging & ASRS Storage Station\n- 7-Axis Gantry Robot with Automatic Tool Changer\n- Central Control Unit with PLC, HMI, SCADA and IIOT\n\nKey Features:\n\n- Complete Industry 4.0 and Smart Manufacturing training platform\n- Integrated PLC, HMI, SCADA, MES and IIOT architecture\n- Industrial robot with gantry-mounted 7th axis for inter-station transfer\n- Automatic robotic tool changer with pneumatic and vacuum grippers\n- RFID-based tracking and traceability system\n- Cognex machine vision inspection and defect detection\n- Servo motor and linear motion-based automation\n- IO-Link based smart sensor integration\n- SCADA-based centralized monitoring and diagnostics\n- Real-time production data acquisition and dashboard monitoring\n- Digital Twin integration with Siemens Tecnomatix and MCD\n- Remote commissioning and virtual simulation capabilities\n- Offline PLC, HMI and robot programming environment\n- Industrial aluminum extrusion-based modular structure\n- Transparent polycarbonate safety enclosure with door interlocks\n\nLearning Outcomes:\n\n- Understand industrial PLC architecture, programming and process control\n- Develop HMI applications for industrial machine operation\n- Design and integrate SCADA systems for centralized monitoring\n- Implement Industrial IIOT and Edge-based communication systems\n- Perform robot programming, motion control and tool changer integration\n- Understand servo motor systems and industrial positioning applications\n- Integrate machine vision systems with PLC and robotics\n- Work with RFID systems for industrial traceability applications\n- Understand pneumatic automation and electro-pneumatic control systems\n- Learn Digital Twin concepts using Siemens Tecnomatix and MCD\n- Perform virtual commissioning and offline process validation\n- Understand smart factory architecture and Industry 4.0 workflows\n- Develop practical troubleshooting and industrial maintenance skills\n\nDigital Twin & Virtual Manufacturing:\n\nThe Smart Factory is integrated with advanced Digital Twin software platforms including Siemens Tecnomatix Process Simulate and Mechatronics Concept Designer (MCD). Learners can simulate robotic operations, validate PLC logic, optimize production flow, and perform virtual commissioning before actual deployment.\n\nThis enables safe experimentation, reduced commissioning time, process optimization, and enhanced understanding of modern digital manufacturing concepts.\n\nIndustrial IIOT & Smart Monitoring:\n\nThe system supports Siemens Industrial Edge and Node-RED based IIOT applications for real-time machine connectivity, remote monitoring, predictive maintenance, and industrial dashboard development. Trainees gain exposure to modern connected manufacturing technologies used in smart factories worldwide.\n\nApplications:\n\n- Industry 4.0 Training Labs\n- Industrial Automation Training\n- Robotics and Mechatronics Education\n- Smart Manufacturing Demonstration\n- Digital Twin and Virtual Commissioning Training\n- PLC-HMI-SCADA Integration Training\n- Industrial IIOT and Edge Computing Training\n- Engineering Colleges and Universities\n- Technical Training Institutes\n- Industrial Skill Development Centers",
        "Specs": "Robotic Smart Factory \u2013 Technical Specifications & Functional Overview\n\nHytech Automation\u2019s Robotic Smart Factory is an advanced Industry 4.0 training and demonstration platform designed to provide hands-on experience in robotics, PLC-HMI-SCADA integration, Industrial IIOT, machine vision, RFID systems, servo motion control, digital twin technology, and smart manufacturing workflows.\n\nThe system integrates multiple industrial automation stations connected through a centralized PLC, HMI, SCADA, and IIOT architecture, enabling learners to understand complete smart factory operations from inspection and assembly to packaging, storage, analytics, and remote monitoring.\n\nIndustrial Robot with Automatic Tool Changer\n\nThe Smart Factory includes a high-performance industrial robot mounted on a servo-driven 7th-axis gantry system for intelligent inter-station material handling and automation.\n\nKey Features:\n\n- Industrial robot with automatic tool changing system\n- Servo-driven 7th-axis gantry for long travel operations\n- Automatic switching between pneumatic grippers, vacuum grippers, and custom end-effectors\n- High-precision multi-axis robotic motion control\n- Integrated PLC, HMI, and SCADA-based operation and monitoring\n- Industrial safety interlocks and sensor-based monitoring\n- Offline robot programming and Digital Twin integration\n\nStation 1 \u2013 Bearing Dispensing & Pneumatic Gauging Station\n\nThis station performs automated sorting of bearings with identical outer diameters but different inner diameters using pneumatic gauging technology. Non-conforming components are automatically rejected.\n\nKey Functionalities:\n\n- Pneumatic gauging-based quality inspection\n- Servo-driven positioning systems\n- Automatic rejection mechanism\n- Sensor and reed switch integration\n- Pneumatic solenoid valve operation through PLC\n\nLearning Outcomes:\n\n- PLC and HMI integration\n- Sequential PLC programming\n- Servo system operation and referencing\n- Pneumatic automation integration\n- Quality-based sorting logic\n- SCADA and robot integration\n\nStation 2 \u2013 Vision Inspection Station\n\nThis station integrates a Cognex industrial vision system for automated inspection and classification based on predefined inspection parameters. Accepted and rejected components are automatically sorted.\n\nKey Functionalities:\n\n- Industrial machine vision inspection\n- Defect detection and classification\n- Automated sorting operations\n- Servo and pneumatic actuator integration\n- Robot-assisted material transfer\n\nLearning Outcomes:\n\n- Vision camera teaching and configuration\n- PLC and vision system integration\n- Servo positioning applications\n- Pneumatic motion control\n- Robot and SCADA integration\n\nStation 3 \u2013 Assembly & Gauging Station\n\nThis station performs automated assembly and inspection operations using weight sensing, color sensing, level gauging, and RFID-based traceability systems.\n\nKey Functionalities:\n\n- Weight, color, and level-based inspection\n- RFID-based product tracking and traceability\n- Automated bearing housing assembly\n- Real-time process data acquisition\n- Sensor-based decision making\n\nLearning Outcomes:\n\n- RFID read\/write integration\n- Color sensor and load cell applications\n- Industrial sensor integration with PLC\n- Real-time production data tracking\n- PLC, SCADA, and robot integration\n\nStation 4 \u2013 Packaging & Storage (ASRS)\n\nThe packaging and storage station utilizes an ASRS-based Cartesian robot for automated retrieval, packaging, capping, and storage operations.\n\nKey Functionalities:\n\n- Automated Storage and Retrieval System (ASRS)\n- Servo-driven pick-and-place operations\n- Vacuum-based capping mechanism\n- Automated storage handling\n- Pneumatic gripper and rotary actuator integration\n\nLearning Outcomes:\n\n- ASRS operation and applications\n- Servo positioning and teaching\n- Pneumatic rotary and gripper operations\n- PLC and HMI integration\n- Industrial automation workflow understanding\n\nCentral Control Unit (CCU) with PLC, HMI & SCADA\n\nThe Smart Factory includes a centralized control architecture integrating all stations, robots, sensors, drives, and automation modules through industrial PLC, HMI, SCADA, and Industrial IIOT platforms.\n\nSystem Features:\n\n- Centralized PLC and HMI operation\n- SCADA-based monitoring and diagnostics\n- Industrial communication using PROFINET, OPC UA, MQTT and IO-Link\n- Real-time production monitoring and analytics\n- Centralized process visualization and control\n- Remote commissioning and diagnostics\n\nLearning Outcomes:\n\n- SCADA design and implementation\n- Industrial communication protocols\n- CCU architecture and operation\n- 7th-axis robot integration\n- Remote monitoring and diagnostics\n- Complete smart factory workflow management\n\nIndustrial IIOT & Smart Manufacturing\n\nThe Smart Factory integrates Siemens Industrial Edge technology for Industrial IIOT applications, enabling real-time data acquisition, edge analytics, remote monitoring, and predictive maintenance.\n\nIIOT Features:\n\n- Edge-to-cloud connectivity\n- Real-time industrial dashboard monitoring\n- Industrial data logging and analytics\n- Remote machine monitoring\n- MQTT and OPC UA communication\n- Condition-based monitoring applications\n\nDigital Twin & Virtual Commissioning\n\nThe Smart Factory is integrated with Siemens Tecnomatix Process Simulate and Mechatronics Concept Designer (MCD) for Digital Twin-based simulation and virtual commissioning.\n\nCapabilities:\n\n- Offline robot programming\n- Virtual PLC-HMI validation\n- Robot path planning and optimization\n- Real-time simulation of manufacturing operations\n- Process validation before physical deployment\n- Reduced commissioning time and operational risk\n\nLearning Management System (LMS)\n\nThe Smart Factory includes a Learning Management System (LMS) with structured training modules for robotics, PLC programming, SCADA, IIOT, digital twin integration, and smart manufacturing technologies.\n\nLMS Features:\n\n- Step-by-step guided practical training\n- Continuously updated industrial content\n- Custom course and assessment creation\n- Certification and performance tracking\n- Trainer and student management tools\n\nApplications:\n\n- Industry 4.0 Training Labs\n- Robotics & Automation Training Centers\n- Engineering Colleges & Universities\n- Digital Manufacturing Demonstration Centers\n- Industrial Skill Development Programs\n- Smart Factory & IIOT Research Labs",
        "Url": "edquip.co\/en\/hytech\/modular-production-system-4-station-with-ccu",
        "Page title": "Modular Production System: Hytech - EDQUIP",
        "Page description": "Designed for education and training, the Modular Production System is operated as well as controlled through PLC and SCADA. Hands-on experience for students in ",
        "Lowest number of students": 10,
        "Highest number of students": 20,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "380\u2013400V"
        ],
        "Other requirements": [
            "Internet",
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": "85381010",
        "Equipment dimensions": "350 \u00d7 250 \u00d7 220",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "450",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "420 \u00d7 300 \u00d7 250",
        "Packed dimensions unit": "cm",
        "Packed weight": "650",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/IIOT Based Smart Factory Setup with Industrial Robot\/1753520453_SMart Factory 3.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/jl7zjGWqgUY",
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-312862",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "AG10",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "AGV with Cobot",
        "Description": "Training on collaborative mobile robotics, programming the 6-axis robot and mobile platform\n\nThe AGV MiR100 ErmaSmart is a mobile robotic system for automating the movement of materials, components and finished products in a workshop.\n\nIt responds to calls from operators or production machines with needs to supply or send parts.\n\nThe UR eSeries collaborative arm (Model UR5) on the AGV MiR100 enables robotic gripping of boxes or trays for loading \/ unloading from the AGV platform without human intervention.\n\nThe list of jobs assigned to the MiR100 can be accessed and modified by the production supervisor.\n\nLearning of collaborative mobile robotics, programming of the UR5e 6-axis robot (850mm radius, 5kg load) and MIR100 mobile robot\n\nTechnical solutions:\n\n- Driving activities\n\n- Systems management\n\n- Industrial maintenance, robotics\n\n- Automation of internal logistics flows\n\nFeatures:\n\n- MIR100 mobile platform with 2 individually controlled wheels and two lithium-ion batteries for mobile operation\n\n- Bluetooth and Wi-Fi wireless communication\n\n- Low and high detection cameras\n\n- Set of containers for transporting parts\n\n- Gripper or Suction cup and autonomous on-board vacuum generator (Optional)\n\n- Schunk tool changer (Optional)\n\n- 2D industrial vision Sensopart (Optional)\n\n- RFID traceability system (Optional)\n\nEducational activities:\n\n- Automation & Robotics\n\n- Functional and structural analysis of the system\n\n- Robot programming with intuitive dedicated software\n\n- Programming of travel missions\n\n- Programming of associated complementary peripherals (vision, RFiD)\n\n- Mobile robotics safety and risk analysis\n\n- Production management\n\n- Use of the AGV for the transfer of parts between two production stations\n\n- Industrial maintenance\n\n- Preventive maintenance\n\n- Improving maintenance (modification of gripping jaws and 3D printing, etc.)\n\nStrong points:\n\n- True industrial system with modern robotic technologies\n\n- Easy programming of mobile and collaborative robots\n\n- Introduction to logistics production flows and their optimization\n\n- System usable in training courses in robotics, industrial maintenance, management & control of automated production systems\n\n- Possible extensions to the flexible ErmaSmart production line\n\nReferences:\n\n- AG10: AGV MiR100 ErmaSmart with UR5 eSeries collaborative arm\n\n- AG11: Modbus-TCP IO-Link master and RFiDIO-Link transceiver\n\n- UR17: OnRobot RG2 collaborative electric gripper option for Cobot Station\n\n- UR18: Option gripper by suction cup and on-board Schmalz vacuum generator for Cobot Station\n\n- UR12: Option VisorRoboticV10 monochrome 2D vision sensor (Brand: Sensopart) at the end of the robot arm, for Cobot Station\n\n- UR13: Option VisorRoboticV20 color 2D vision sensor (Brand: Sensopart) at the end of the robot arm, for Cobot Station\n\nTechnical Specifications:\n\n- UR5e 6-axis robot (850mm reach, 5kg load, 1m\/s speed)\n- MIR100 mobile platform (100 kg max payload, 1.5 m\/s max speed) with 2 individually driven wheels and 2 lithium-ion batteries for nomadic approach\n- Bluetooth and Wi-Fi communication\n- Low and high detection cameras\n- Set of trays for transporting parts\n- Gripper or vacuum cup and embedded autonomous vacuum generator (optional)\n- Sensopart 2D industrial vision (optional)\n- RFID tracking system (optional)\n- Automatic charging station (optional)",
        "Specs": "UR5e 6-axis robot (850mm reach, 5kg load, 1m\/s speed)\nMIR100 mobile platform (100 kg max payload, 1.5 m\/s max speed) with 2 individually driven wheels and 2 lithium-ion batteries for nomadic approach\nBluetooth and Wi-Fi communication\nLow and high detection cameras\nSet of trays for transporting parts\nGripper or vacuum cup and embedded autonomous vacuum generator (optional)\nSensopart 2D industrial vision (optional)\nRFID tracking system (optional)\nAutomatic charging station (optional)",
        "Url": "edquip.co\/en\/erm\/agv-with-cobot",
        "Page title": "AGV with Cobot Industrial Robotics: ERM - EDQUIP",
        "Page description": "Collaborative 6-axis robot mounted on an automated guided vehicle (AGV), this system is for automating the movement of materials and components in a workshop.",
        "Lowest number of students": 1,
        "Highest number of students": 6,
        "System type": "Industry-Grade Equipment",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/AG10 - AGV with Cobot\/AG10 - AGV with cobot.png",
        "Video link": null,
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-643076",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "DX10",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Dosaxe",
        "Description": "The Dosaxe system is an automated system for filling jars \/ bottles of different sizes in continuous production, called \"on the fly\". It comes from a real industrial machine used in the food, pharmaceutical or cosmetics industry.\n\nThis automated system can be used independently with, for example, jars \/ bottles or within the flexible ErmaSmart production line.\n\nThe main functions of the Dosaxe system are:\n\nConvey the jars \/ bottles from the inlet to the outlet of the system (the jars \/ bottles can be conveyed either alone or in pairs in parallel, of different formats).\n\nFill the jars \/ bottles on the fly or at a standstill with the linear axis using the brushless motor\n\nThis automated system designed in the spirit of the Industry of the future (Industry 4.0) meets the main requirements for intelligence and development of production methods:\n\nScalability & Flexibility with the possibility of assigning the system to different types of productions\n\nIoT & Communications with the PLC and communicating drives\n\nEfficient actuators with the linear axis with brushless motor\n\nThis training system is mainly intended for driving activities, systems management, industrial maintenance, electrical engineering, automation and mechanics.\n\nThis product is accompanied by a technical and educational file in digital format.\n\nTechnical solutions discussed:\n\n- Conveyor with three-phase asynchronous geared motor and speed variation\n\n- Linear axis with brushless motor with encoder and control \/ command by variator\n\n- Filling hopper with electromagnet\n\n- Different sensors (mechanical, optical, etc.)\n\n- Control \/ command with Siemens S7-1200 PLC and KTP 700 color touch panel\n\n\"Industry 4.0\" topics covered:\n\n- Scalability & Flexibility\n\n- Customization\n\n- Simplified programming\n\n- Digital twin\n\n- Mobile robotics\n\n- Collaborative robotics\n\n- Efficient Actuators\n\n- CAPM & CMMS\n\n- Digital instructions & MES\n\n- \"Online\" quality control\n\n- IOT & Communications\n\n- Big Data, AI & Predictive Maintenance\n\n- Augmented reality\n\n- Virtual reality\n\n- Additive manufacturing for tools ...\n\nEducational activities:\n\n- Wiring on plate\n\n- System setup and commissioning\n\n- System management\n\n- Troubleshooting (corrective maintenance)\n\n- Improvement activities\n\nStrong points:\n\nTrue industrial system with modern technologies (asynchronous motorization, brushless, USS communication, Profinet, Ethernet)\n\nSeveral operating modes including \"on-the-fly\" filling with synchronization of the brushless motorized linear axis to the speed of the conveyor\n\nImprovement activities\n\nSupplied with Tia Portal and WinCC programming software for programming the industrial programmable controller and the dialogue terminal\n\nPossible evolution towards the flexible production line ErmaSmart\n\nReference:\n\n- DX10: Dosaxe with linear axis with Brushless motorization\n\n- UC90: Fault box option for electrical box, configurable remotely on tablet (Not supplied)\n\n- UC51: Option Visual instructions & Monitoring of production indicators on the open application environment Tulip and touchscreen tablet, for one machine (With 3-year subscription to Tulip Pro, \u20ac 1170 excl.tax per year beyond)\n\n- UC52: Option Visual instructions on the open application environment Tulip and touchscreen tablet, for one machine (With 3-year subscription to Tulip Standard, 570 \u20ac HT per year beyond)\n\n- UC41: Siemens remote console option on iPad tablet (Included)\n\nTechnical Specifications:\n\n- S7-1200 PLC & KTP700 (Siemens) touchscreen\n- Communicating speed drives (Profinet)\n- Linear axis with brushless motor and encoder\n- Removable plate for wiring activity and connection\n- Digital twin (Virtual Universe Pro)",
        "Specs": "S7-1200 PLC & KTP700 (Siemens) touchscreen\nCommunicating speed drives (Profinet)\nLinear axis with brushless motor and encoder\nRemovable plate for wiring activity and connection\nDigital twin (Virtual Universe Pro)",
        "Url": "edquip.co\/en\/erm\/dosaxe",
        "Page title": "Dosaxe, Industrial Robotics: ERM - EDQUIP",
        "Page description": "Designed to support education and training of automated systems in continuous production, here for filling jars \/ bottles of different sizes. Industrial egnieer",
        "Lowest number of students": 1,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/DX10 - Dosaxe\/ERM_Dosaxe_DX10.png",
        "Video link": null,
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-836574",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "MI00+MR10",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Ermasmart collaborative robot",
        "Description": "System for capping, controlling and customizing jars\/bottles or making assemblies\n\nDescription of the system:\n\nThe ErmaSmart Collaborative Robot System is a versatile robotic system for capping, customizing and controlling jars \/ vials and for assembling and controlling different models of reducers. It integrates a Universal Robots industrial 6-axis collaborative robot or a Staubli or Franka Panda 6-axis robot. The functions and constituents are derived from real industrial components used in the food, pharmaceutical or cosmetic industry (jars \/ bottles) or the assembly industry (boxes \/ pallets).\n\nThis ErmaSmart collaborative robot system designed in the spirit of the Industry of the future (Industry 4.0) meets the main requirements for intelligence and the evolution of production methods:\n\n- Flexibility & Personalization with the possibility of producing personalized objects to the customer's order\n\n- Collaborative robotics with the Universal Robots robot (ref MR10) or the Franka Panda Robot (ref MF10)\n\n- Classic robotics with scrutineers with the Staubli robot (ref MX10)\n\n- Quality control in line with the vision tunnel (ref MI01)\n\n- This automated system can be used in complete autonomy with for example jars \/ flasks (With UR or Staubli) or boxes \/ pallets (Only with UR or Staubli) or within the flexible production line ErmaSmart.\n\nThe main functions of the ErmaSmart collaborative robot are:\n\n- Convey the jars \/ bottles or boxes \/ pallets from the inlet to the outlet\n\n- In \"Packaging\" configuration: Clip a cap onto a jar \/ bottle - Detect the type of personalization (reading the QR code) - Place the type of product personalization overcap required\n\n- In \"Assembly\" configuration (Only with UR or Staubli): Detect the type of assembly to be carried out (reading the QR code) - Position the lower axis of the reducer in the base - Assemble the planets on the base (Different configurations of planets possible) - Assemble the central gear\n\nOptional:\n\n- Quality control of products by vision and disposal of non-compliant products (jar \/ bottle poorly stoppered)\n\n- This training system is mainly intended for driving activities, systems management, industrial maintenance, robotics and automation.\n\nThis product is accompanied by a technical and educational file in digital format.\n\n\"Industry 4.0\" topics covered:\n\n- Scalability & Flexibility\n\n- Customization\n\n- Simplified programming\n\n- Digital twin\n\n- Mobile robotics\n\n- Collaborative robotics\n\n- Efficient Actuators\n\n- CAPM & CMMS\n\n- Digital instructions & MES\n\n- \"Online\" quality control\n\n- IOT & Communications\n\n- Big Data, AI & Predictive Maintenance\n\n- Augmented reality\n\n- Virtual reality\n\n- Additive manufacturing for tools ...\n\nEducational activities:\n\nThe ErmaSmart collaborative robot system enables the following educational activities to be carried out in particular:\n\nElectrical engineering\n\n- Discovery and handling of the system (functional analysis and study of system technologies)\n\n- Control of the electrical quantities of the system (network, power supply, drive, programmable logic controller, man-machine interface and control circuit).\n\n- Commissioning and validation of the operation of the system (of the different production modes)\n\n- Adjustment and configuration of the installation components (three-phase asynchronous geared motor and its frequency converter)\n\n- Wiring of new sensors and actuators in an eco-responsible manner (improvement and \/ or replacement of an electrical component of the installation)\n\n- Programming of new PLC and Human Machine interface cycles (Tia Portal and WinnCC software supplied with a 1-year license).\n\n- Diagnosis of one or more malfunctions\n\n- Use of digital tools and communication\n\nAutomation & Robotics\n\n- Functional and structural analysis of the system\n\n- Robot programming with intuitive dedicated software\n\n- Programming of production cycles (Tia Portal software delivered with the system)\n\n- Programming of associated complementary peripherals (vision, etc.)\n\n- Implementation of IO-Link sensors (Input \/ output reassignment ...) and IO-Link vacuum generator\n\n- Programming of the man-machine interface (TIA Portal software delivered with the system)\n\nProduction management:\n\n- Production management with choice of operating mode \"assembled objects\" or \"capping, control and customization\"\n\n- Change of production format with integration of new stores, new installation\n\n- Production control with tunnel vision\n\n- Development of operator assistance procedures\n\n- Optimization of production with digital tools 4.0\n\nIndustrial maintenance:\n\n- Preventive maintenance (conveyor, suction, etc.)\n\n- Corrective maintenance (fault diagnosis using the TIA PORTAL basic software supplied with the cell, etc.)\n\n- Improved maintenance (addition of sensors on the conveyor, waste management, control with vision, etc.)\n\nMechanical\n\n- Study of a robotic workstation, ergonomics, sizing robot and actuators ...\n\n- Design of 3D printed parts\n\nStrong points:\n\n- True industrial system with modern technologies\n\n- Easy programming of collaborative robots\n\n- Production flexibility (Use in \"Packaging\" configuration with jars \/ bottles or in \"Assembly\" configuration with boxes \/ pallets.\n\n- Customization of production to customer order: parts stores adaptable to different manufactures.\n\n- Online quality control by vision (Option).\n\n- System usable in the fields of electrical engineering, industrial maintenance, and driving, control of automated systems.\n\n- Supplied with TIA Portal and WinCC programming software (1 year) for programming the PLC and the dialogue terminal.\n\n- IO-Link technology with IO-Link master, preventive maintenance software and Smart Observer supervision and photoelectric sensors.\n\n- Possible extensions to the flexible ErmaSmart production line.\n\nReferences :\n\n- MI00 + MR10: ErmaSmart Collaborative Robot (UR5 eSeries) with tools and magazine set for \"Packaging\" configuration\n\n- MI00 + MX10: ErmaSmart Collaborative Robot (StaubliTX2-60L) with tools and magazine set for \"Packaging\" configuration\n\n- MI00 + MF10: ErmaSmart Collaborative Robot (Franka Panda) with tools and magazine set for \"Packaging\" configuration\n\n- MI02: Tools and magazine sets for \"Assembly\" configuration\n\n- MI01: Option Control by vision of the Ermasmart 4-axis collaborative robot\n\n- UC90: Fault box option for electrical box, configurable remotely on tablet (Not supplied)\n\n- UC51: Option Visual instructions & Monitoring of production indicators on the open application environment Tulipet touch pad, for one machine (With 3-year subscription to TulipPro, \u20ac 1170 excl.tax per year beyond)\n\n- UC52: Option Visual instructions on the open application environment Tulip and touchscreen tablet, for one machine (With 3-year subscription to TulipStandard, 570 \u20ac HT per year beyond)\n\n- UC41: Siemens remote console option on iPad tablet (Included)\n\n- IO01: Electrical and pneumatic measurement sensors (IO-Link) option for monitoring the power, flow and electrical and pneumatic consumption of a machine equipped with an IO-Link master and supervision and preventive maintenance software\n\nTechnical Specifications:\n\n- S7-1200 PLC & KTP700 (Siemens) touchscreen\n- QR-code reader\n- Vision sensor for quality control\n- IO-Link Master & Smart Sensors\n- \u201cSeparable\" cobot station from the conveyor, allowing the cobot station to be used alone for programming activities or projects\n- Breakdown box for electrical cabinet, remotely configurable on tablet\n- Project on the integration of a new format (3D tool design, PLC\/vision \/robot programming)",
        "Specs": "S7-1200 PLC & KTP700 (Siemens) touchscreen\n\nQR-code reader\n\nVision sensor for quality control\n\nIO-Link Master & Smart Sensors\n\n\u201cSeparable\" cobot station from the conveyor, allowing the cobot station to be used alone for programming activities or projects\n\nBreakdown box for electrical cabinet, remotely configurable on tablet\n\nProject on the integration of a new format (3D tool design, PLC\/vision \/robot programming)",
        "Url": "edquip.co\/en\/erm\/ermasmart-collaborative-robot",
        "Page title": "Ermasmart collaborative robot: ERM - EDQUIP",
        "Page description": "A cobot designed for education and training, a system for capping, controlling and customizing jars\/bottles or making assemblies. Suitable for schools, colleg\n\n",
        "Lowest number of students": 1,
        "Highest number of students": 6,
        "System type": "Industry-Grade Equipment",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/MI00-MR10 - Ermasmart collaborative robot\/MR10.png",
        "Video link": null,
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-264186",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "XY10",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "XYZ cartesian robot",
        "Description": "Automated system for packing of jars \/ bottles in carton boxes \/ trays\n\nDescription of the system:\n\nThe Cartesian robot system XYZ is an automated system for placing jars \/ bottles in trays or for placing parts on boxes \/ pallets. It incorporates a system of 3 Cartesian axes XYZ very often used in industrial packaging and assembly operations. The functions and constituents are derived from real industrial components used in the food, pharmaceutical or cosmetic industry (jars \/ bottles) or the assembly industry (boxes \/ pallets).\n\nThis ErmaSmart Cartesian robot packaging system (ref XY10) designed in the spirit of the industry of the future (Industry 4.0) meets the main requirements on intelligence and development of production methods:\n\nFlexibility & Personalization with the possibility of packaging personalized objects to the customer's order\n\nIoT & Communications with the writing of RFID Tags for the identification and traceability of packages from the customer order.\n\nThis automated system can be used independently with jars \/ bottles or boxes \/ pallets, but also be integrated into the flexible production line ErmaSmart.\n\nThe main functions of the Cartesian Robot XYZ are:\n\n- Convey the manufactured objects (jars \/ bottles or bases of reducers) from the entrance to the packaging station\n\n- In \"Packaging\" configuration: Place the trays under the packaging station - Condition the jars \/ bottles in the trays to form a package\n\n- In \"Assembly\" configuration: Place the boxes \/ pallets under the packaging station - Place the gearbox bases in the boxes \/ pallets\n\n- Evacuate trays or boxes \/ pallets\n\n- Enter the information on the RFID Tags of trays and boxes \/ pallets for traceability\n\n- This training system is mainly intended for driving activities, systems management, industrial maintenance, electrical engineering, automation and mechanics.\n\nThis product is accompanied by a technical and educational file in digital format.",
        "Specs": "3-axis Cartesian robot with stepper motors (brushless option upon request)\n\nS7-1200 PLC & KTP700 touchscreen (Siemens)\n\nIO-Link Master & Smart sensors\n\nPneumatic cylinders and vacuum cups",
        "Url": "edquip.co\/en\/erm\/xyz-cartesian-robot",
        "Page title": "XYZ cartesian robot: ERM- EDQUIP",
        "Page description": "Hands-on training equipment designed for teaching automated systems in continous production, here for packing of jars \/ bottles in carton boxes \/ trays.",
        "Lowest number of students": 1,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": null,
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/XY10 - XYZ cartesian robot\/XY10.png",
        "Video link": null,
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-554526",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "VL10",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Dynamic vertical store",
        "Description": "This is an automated system for order preparation (storage and picking of trays \/ boxes)\n\nDescription of the system:\n\nThe Dynamic Vertical Warehouse system is an automated sales order preparation system. It provides dynamic storage and destocking of trays or boxes \/ pallets. In order to prepare an order, he can combine stored trays or boxes \/ pallets and just-in-time trays or boxes \/ pallets. It thus makes it possible to address the concepts of stock, minimum production quantity, just-in-time ...\n\nIt integrates a system of 2 Cartesian axes XZ very often used in industrial vertical warehouses. The functions and components are derived from real industrial components used in the logistics industry.\n\nThis Dynamic Vertical Warehouse system (ref VL10) designed in the spirit of the industry of the future (Industry 4.0) meets the main requirements on the intelligence and evolution of production methods:\n\nFlexibility & Personalization with the possibility of individual order preparation\n\nIoT & Communications with the writing of RFID Tags for the identification and traceability of packages from the customer order.\n\nThis automated system can be used independently with trays or boxes \/ pallets, but also be integrated into the flexible ErmaSmart production line.\n\nThe main functions of the Dynamic Vertical Warehouse (VL10) are:\n\n- Convey the trays or boxes \/ pallets from the inlet to the gripping station, and possibly let them go to the outlet of the conveyor in case of \"just-in-time\" production\n\n- Place the trays or boxes \/ pallets in the location of the vertical store indicated (Automatic placement or at a location specified by the MES) by associating the RFID number of the trays or boxes \/ pallets and the store location number\n\n- Recover the trays or boxes \/ pallets in the registered locations to prepare an order with stock, checking that the RFID number of the tray or box \/ pallet entered is the one requested\n\n- Evacuate the trays or boxes \/ pallets to the outlet\n\n- This training system is mainly intended for driving activities, systems management, industrial maintenance, electrical engineering, automation and mechanics.\n\nThis product is accompanied by a technical and educational file in digital format.\n\n\"Industry 4.0\" topics covered:\n\n- Scalability & Flexibility\n\n- Customization\n\n- Simplified programming\n\n- Digital twin\n\n- Mobile robotics\n\n- Collaborative robotics\n\n- Efficient Actuators\n\n- CAPM & CMMS\n\n- Digital instructions & MES\n\n- \"Online\" quality control\n\n- IOT & Communications\n\n- Big Data, AI & Predictive Maintenance\n\n- Augmented reality\n\n- Virtual reality\n\n- Additive manufacturing for tools ...\n\nEducational activities:\n\n- Electrical engineering\n\n- Discovery and handling of the system (functional analysis and study of system technologies)\n\n- Control of the electrical quantities of the system (network, power supply, drive, XZ axis commands, programmable logic controller, man-machine interface and control circuit).\n\n- Commissioning and validation of the operation of the system (of the different production modes)\n\n- Adjustment and configuration of the installation components (asynchronous geared motor and its frequency converter, XZ axis control)\n\n- Wiring of new sensors and actuators (improvement and \/ or replacement of an electrical component of the installation)\n\n- Programming of new PLC and Human Machine interface cycles (TIA Portal software supplied).\n\n- Diagnosis of one or more malfunctions\n\n- Use of digital tools and communication\n\n- Automatisms\n\n- Functional and structural analysis of the system\n\n- Programming of vertical warehouse axis orders\n\n- Programming of production cycles (TIA Portal software delivered with the system)\n\n- Programming of the man-machine interface (TIA Portal software delivered with the system)\n\n- Implementation of IO-Link sensors (Input \/ output reassignment ...) and the IO-Link vacuum generator\n\n- Production management\n\n- Production management with choice of packaging method (in boxes or trays)\n\n- Change of production format\n\n- Traceability and logistics with the writing of RFID Tags\n\n- Development of operator assistance procedures\n\n- Optimization of production with digital tools 4.0\n\n- Industrial maintenance\n\n- Preventive maintenance (conveyor, suction, etc.)\n\n- Corrective maintenance (fault diagnosis using the TIA PORTAL basic software delivered with the cell, rapid manufacturing of 3D printing tools, etc.)\n\n- Improved maintenance (addition of sensors on the conveyor, new format of boxes, trays, etc.)\n\n- Mechanical\n\n- Study of a workstation with linear axes, ergonomics, dimensioning of axes and actuators ...\n\n- Design of 3D printed parts\n\nStrong points :\n\n- True industrial system with modern technologies (Cartesian robot XZ, IO-Link, Ethernet, Profinet, RFID ...)\n\n- Production flexibility with the storage of different trays and boxes \/ pallets\n\n- Traceability of the customer's order with writing and reading RFID Tags\n\n- Introduction to industrial logistics techniques\n\n- System usable in the fields of electrical engineering, industrial maintenance, and driving, control of automated systems\n\n- Supplied with Siemens TiaPortal programming software for programming the PLC and the dialogue terminal\n\n- IO-Link technology with Profinet IO-Link master (IFM brand) and software for supervision \/ parameter setting of\n\n- LR Device sensors and IO-Link smart sensors (RFID, Vacuum generator, photoelectric sensor, etc.)\n\n- Possible extensions to the flexible ErmaSmart production line\n\nReferences :\n\n- VL10: Vertical dynamic magazine with module for gripping and storing trays (ErmaSmart \"Conditioning\"), boxes \/ pallets (ErmaSmart \"Assemblage\") and standard boxes of components (Stand alone version)\n\n- UC90: Fault box option for electrical box, configurable remotely on tablet (Not supplied)\n\n- UC51: Option Visual instructions & Monitoring of production indicators on the open application environment Tulip and touchscreen tablet, for one machine (With 3-year subscription to Tulip Pro, \u20ac 1170 excl. tax per year beyond)\n\n- UC52: Option Visual instructions on the open application environment Tulip and touchscreen tablet, for one machine (With 3-year subscription to Tulip Standard, 570 \u20ac HT per year beyond)\n\n- UC41: Siemens remote console option on iPad tablet (Included)\n\n- IO01: Electrical and pneumatic measurement sensors (IO-Link) option for monitoring the power, flow and electrical and pneumatic consumption of a machine equipped with an IO-Link master and supervision and preventive maintenance software\n\nTechnical Specifications:\n\n- 2-axis Cartesian robot with stepper motors (brushless option upon request)\n- S7-1200 PLC & KTP700 touchscreen (Siemens)\n- IO-Link Master & Smart sensors\n- Light curtains\n- RFID traceability\n- Gripping by pneumatic cylinder and vacuum cup or gripper",
        "Specs": "2-axis Cartesian robot with stepper motors (brushless option upon request)\nS7-1200 PLC & KTP700 touchscreen (Siemens)\nIO-Link Master & Smart sensors\nLight curtains\nRFID traceability\nGripping by pneumatic cylinder and vacuum cup or gripper",
        "Url": "edquip.co\/en\/erm\/dynamic-vertical-store",
        "Page title": "Dynamic vertical store: ERM - Edquip",
        "Page description": "This is an automated system for order preparation (storage and picking of trays \/ boxes). Designed as a hands-on didactic tool for technical schools, colleges, ",
        "Lowest number of students": 1,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": null,
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/VL10 - Dynamic vertical store\/ERM_VL10-Dynamic_vertical_store.png",
        "Video link": null,
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-513189",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "DI10",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Drinking water control and distribution",
        "Description": "Test bench for level, flow and pressure control in drinking water systems and tanks, perfect for teaching students relevant topics in a hands-on manner.\n\nFeatures:\n\n- Process measurements (Water level in the tank by ultrasounds)\n\n- Tanks (Water tank simulating a natural water reservoir, Storage tank simulating a water tower)\n\n- Variable-flow pumps (Circulator pump with Brushless motor, Compressor)\n\n- Valves (Quarter-turn manual valves, Solenoid valve for flow disturbance)\n\n- Control unit (Labview Interface, Variable speed drive)\n\nTraining activities:\n\n- Functional analysis: drinking water storage and distribution systems\n\n- Measurement principles (physical laws, sensors, transmitters..)\n\n- Variable-flow pumps\n\n- Identification of a stable open-loop and closed-loop system\n\n- Unstable OL and CL systems\n\n- Simple water level control, responding to a set point change, responding to disturbances\n\n- Integrator level control\n\n- Pressure and flow control, split-range control\n\n- Energy saving in drinking water systems management\n\nProduct advantages:\n\n- Ideal for studying process instrumentation, water level regulation, flow control and pressure regulation\n\n- Simple and complex regulation systems\n\n- System based on an actual application (Drinking water distribution with water tower)\n\nReference numbers:\n\n- DI10 Drinking water control and distribution training system\n\n- DI11: Complex water control and forced feed (flow\/pressure) of drinking water (Optional)\n\n- DI15 USB datalogger with analog and on\/off inputs and outputs\n\n- AQ11: Differential voltage probe for USB data logger\n\n- AQ13: Current clamp (AC and DC) for USB data logger\n\nTechnical Specifications:\n\n- Level (ultrasonic), pressure and flow (vortex) control\n- Tanks (water tank simulating a natural water reservoir, storage tank simulating a water tower)\n- Variable flow pumps\n- Valves (\u00bc-turn manual valves, solenoid valve for flow disturbance)\n- Control unit (LabVIEW interface)\n- Control on stable \/ instable systems, open- \/ closed-loop, simple control, split-range",
        "Specs": "Level (ultrasonic), pressure and flow (vortex) control\nTanks (water tank simulating a natural water reservoir, storage tank simulating a water tower)\nVariable flow pumps\nValves (\u00bc-turn manual valves, solenoid valve for flow disturbance)\nControl unit (LabVIEW interface)\nControl on stable \/ instable systems, open- \/ closed-loop, simple control, split-range",
        "Url": "edquip.co\/en\/erm\/drinking-water-control-and-distribution",
        "Page title": "Test bench for level, flow and pressure control: ERM - EDQUIP",
        "Page description": "Drinking water education and training equipment, designed for hands-on learning about water flow and pressure control in drinking water systems and tanks.",
        "Lowest number of students": 1,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": null,
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
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        "Packed dimensions unit": "",
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        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/DI10 - Drinking water control and distribution\/ERM_Drinking-water-control-and-distribution_DI10.png",
        "Video link": null,
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-210552",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "PP30",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Polyprod",
        "Description": "Multiformat packaging machine: Filling and capping for liquids \/ pellets in bottles \/ jars - for educational training purposes.\n\nFeatures:\n\n- PLC and HMI (color display touch screen operator panel)\n\n- Conveying (slat band chain)\n\n- Liquid packaging (diaphragm pump) and pellet packaging (worm gear dispenser)\n\n- Gripping (gripping\/screwing head)\n\n- Industrial Communication (Ethernet, ASi) and supervision\n\n- Electrical energy (low-voltage switchgear, speed drive, motor)\n\n- Pneumatics (venturivalve, air treatment system, ASidistributors, pneumatic motor, cylinders\u2026)\n\n- Sensors (Reed switch, inductive, photoelectric, capacitive, optical fiber)\n\nTraining activities:\n\n- Functional analysis, studying the technologies used and constructive solutions (3D-modeling on Solidworks)\n\n- System operationand format change\n\n- System performance analysis\n\n- Assembly, disassembly and adjustments of the operating part\n\n- Designing and updating a maintenance operations file\n\n- Partial or total programming of the operating cycle\n\n- Preventive and corrective maintenance(electrical and mechanical troubleshooting)\n\nKey points:\n\n- Heavy duty system(mechanically-welded steel base\u2026)\n\n- Centralized pneumatic adjustments\n\n- Study of the dosing of liquid, paste, semi-pasty and granulate productson asingle system\n\nReferences:\n\n- PP30-PP38: Polyprod\n\n- UC13 : Supervision\n\n- PP34 : ASi programming case\n\n- PP35 : Wiring kit for Asi detection and alarm\n\n- PP33 : Maintenance parts for the rotary table and the granulate filler\n\n- MN11 : Polyprod programmable 3D simulator\n\n- AE10 : PLC Schneider M340 with Asi bus and touch screen operator panel\n\nTechnical Specifications:\n\n- Schneider M340 PLC & HMI Siemens KTP700\n- ASi communication towards sensors and valves\n- Volumetric dosing (diaphragm pump) for liquids\n- Worm gear dispenser for pellets\n- Gripping head (pneumatics)\n- Screwing head\n- Reed switch, inductive, photoelectric, capacitive and optical fiber sensors\n- Supervision\n- Digital twin (Virtual Universe Pro)",
        "Specs": "Schneider M340 PLC & HMI Siemens KTP700\nASi communication towards sensors and valves\nVolumetric dosing (diaphragm pump) for liquids\nWorm gear dispenser for pellets\nGripping head (pneumatics)\nScrewing head\nReed switch, inductive, photoelectric, capacitive and optical fiber sensors\nSupervision\nDigital twin (Virtual Universe Pro)",
        "Url": "edquip.co\/en\/erm\/polyprod",
        "Page title": "Polyprod, Industrial Maintenance Trainer: ERM - EDQUIP",
        "Page description": "Industrial engineering training equipment. Multiformat packaging machine: Filling and capping for liquids \/ pellets in bottles \/ jars - for hands-on training.",
        "Lowest number of students": 1,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
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        "Packed dimensions unit": "",
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        "Packed weight unit": "",
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        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/PP30 - Polyprod\/ERM_Polyprod_PP30.png",
        "Video link": null,
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-949251",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "DE10",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "In person",
            "Documentation"
        ],
        "Name": "Degroupeur",
        "Description": "This is a hands-on industrial training system for alignments and transmissions study and maintenance.\n\nFeatures:\n\n- Conversions of movements (Angle gearboxes, Bearings, Gears, Pinions, Belts, Chains ...)\n\n- Electrical energy (LV switchgear, Variator, Asynchronous motor)\n\n- Sensors (Photoelectric)\n\n- Programmable robot\n\n- Mechanical measuring instruments (Vibration, Alignment\n\nEducational activities:\n\n- Ideal product for maintenance activities in the fields of alignment and mechanical transmission\n\n- Assembly, disassembly and adjustments of the transmissions used\n\n- Fault diagnosis using industrial measuring devices\n\n- Observation of the influence of a misalignment on a system\n\n- Dynamic functional tests of mechanical operations performed by students\n\n- Implementation of industrial shaft alignment instrumentation and vibration study\n\n- Wide variety of mechanical components\n\n- Functional analysis and study of unbundling construction solutions (3D Solidworks delivered with the product)\n\n- Kinematic studies and sizing of the main elements\n\n- Remote control cabinet for electrical wiring and automation activities\n\nStrong points:\n\nProduct based on an industrial reality (System for unbundling a stream of flasks or bottles within a production line) allowing students to be made aware of the problems related to the alignment of shafts, pulleys, gears and belt and chain tension\n\nWide variety of mechanical components\n\nReferences:\n\n- DE10: Mechanical ungrouper and its power box\n\n- DE11: Remote control cabinet for DE10 automation\n\n- DE30: Mechanical ungrouping device with a control cabinet and a power cabinet including 3 removable plates for motor starter wiring\n\n- DE19: Option: Mechanical kit: short conveyor in kit\n\n- DE18: Specific tools\n\nAssociated products:\n\n- DE13: Drainable corner drive case\n\n- DE21: Corner drive case without constraint\n\n- DE14: Shaft alignment measurement instrumentation with set of shims\n\n- DE15: Instrumentation for vibration analysis and detection of defects\n\n- DE16: Pulley \/ pinion alignment measurement instrumentation and belt tension\n\nTechnical Specifications:\n\n- Siemens PLC\n\n- Speed drive and asynchronous motor\n\n- Training on: angle transmission \/ shafts, pulleys, gears alignment \/ belt and chain tension \/ vibration analysis\n\n- Format change (jars \/ bottles) modifying the worm screw and star-wheels\n\n- Mounting, dismounting and adjustments (angle transmission, conveyor, pulleys alignment and belt tension, gear alignment and chain tension\u2026)\n\n- Observation of the impact of a misalignment on the system and correction\n\n- Improvements (changing the transmission, adding sensors, implementing a counter\u2026).",
        "Specs": "Siemens PLC\n\nSpeed drive and asynchronous motor\n\nTraining on: angle transmission \/ shafts, pulleys, gears alignment \/ belt and chain tension \/ vibration analysis\n\nFormat change (jars \/ bottles) modifying the worm screw and star-wheels\n\nMounting, dismounting and adjustments (angle transmission, conveyor, pulleys alignment and belt tension, gear alignment and chain tension\u2026)\n\nObservation of the impact of a misalignment on the system and correction\n\nImprovements (changing the transmission, adding sensors, implementing a counter\u2026).",
        "Url": "edquip.co\/en\/erm\/degroupeur",
        "Page title": "Degroupeur Industrial Maintenance Trainer: ERM - Edquip",
        "Page description": "This is a hands-on industrial training system for alignments and transmissions study and maintenance. Suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
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        "Equipment weight unit": "",
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        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/DE10 - Degroupeur\/ERM_DE10-Degroupeur.png",
        "Video link": null,
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-698289",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "OM50",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Multitec",
        "Description": "Stacking and unstacking of pallets\n\nFeatures:\n\n- PLC and HMI (switches or operator panel)\n\n- Displacement (vertical axis, roller conveyor)\n\n- Gripping (cleat)\n\n- Industrial Communication (Ethernet) and supervision\n\n- Electrical energy (low-voltage switchgear, motor)\n\n- Pneumatics(filter and regulator, distributor, cylinders)\n\n- On\/off hydraulics(power pack, distributors, cylinders)\n\n- Sensors (reed switch, linear position sensor)\n\nTraining activities:\n\n- Functional analysis, studying the technologies used and constructive solutions (3D-modeling on Solidworks)\n\n- Adjustments and automatic or manual system control\n\n- Assembly, disassembly and changing the vertical axis technology(3 kits)\n\n- Connecting actuators and sensors\n\n- Developing and updating a maintenance operations file\n\n- Programming and studying Grafcet\/SFC\n\n- Preventive and corrective maintenance(electrical and mechanical failure diagnostics)\n\n- Improvements(e.g.: Integrating components)\n\n- System performance analysis, static or dynamic tests\n\nKey points:\n\n- Heavy duty system also used by industries\n\n- 3 different technologies covered on a single system (Electrical, Pneumatics, Hydraulics)\n\nReferences:\n\n- OM50 + AC51 : Mechanical unit and test panel\n\n- AC60 :Standard control cabinet (Schneider version)\n\n- AS60 :Standard control cabinet (Siemens version)\n\n- KE50 : Electrical kit -KP50: Pneumatic kit\n\n- KH50 : Hydraulic kit\n\n- UC13 : Supervision\n\nTechnical Specifications:\n\n- PLC (Siemens or Schneider) & HMI\n- Electric, hydraulic or pneumatic vertical axis (3 different technologies on a single system)\n- Roller conveyor\n- Pneumatic cleats for the pallets gripping\n- Sensors (reed switch, linear position)\n- Supervision\n- Digital twin (Virtual Universe Pro)",
        "Specs": "PLC (Siemens or Schneider) & HMI\nElectric, hydraulic or pneumatic vertical axis (3 different technologies on a single system)\nRoller conveyor\nPneumatic cleats for the pallets gripping\nSensors (reed switch, linear position)\nSupervision\nDigital twin (Virtual Universe Pro)",
        "Url": "edquip.co\/en\/erm\/multitec",
        "Page title": "Multitec, Industrial Maintenance Training Equipment: ERM - EDQUIP",
        "Page description": "A hands-on mechanical and didactic system for teaching industrial engineering. Stacking and unstacking of pallets, suitable for schools, colleges and universiti",
        "Lowest number of students": 1,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/OM50 - Multitec\/ERM_OM50-Multitec.png",
        "Video link": null,
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-750569",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "PO20",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Ermapompes",
        "Description": "Study, maintenance and testing bench for industrial pumps\n\nFeatures :\n\n- Industrial pumps(centrifugal, lobe, sewage, etc.)\n\n- Control valves (solenoid valves)\n\n- Sensors and measures (flow, pressure, torque, voltage, current)\n\n- Control and command (Webserver controller, speed drive)\n\nTraining activities:\n\n- Functional analysis, studying the technologies used and constructive solutions (3D modeling on SolidWorks)\n\n- Hydraulic connection, commissioning, tightness testing and pump performance testing (flow\/pressure, vibration, acoustics, etc.)\n\n- Assembly, disassembly and adjustments (e.g., Shaft alignment of standard centrifugal pump, cleaning, etc.)\n\n- Controlling mechanical stress and heavy handling (e.g., Laying\/removing pumps on\/from the test bench)\n\n- Monitoring, inspections, diagnostics, corrective maintenance and improving maintenance (Direct or speed drive) motor starter wiring\n\n- Studying the speed drive configuration and performance\n\n- Energy consumption and efficiency study (with \/ without speed drive)\n\n- Analysis of the test device (information chain) and controller and embedded Web supervision programming\n\nKey points:\n\n- The product is adapted for trainings in electrotechnics, control and maintenance\n\n- Automatic curve of the pressure\/flow characteristics of industrial pumps\n\n- Unique support for maintenance training in water-related trades and process industries\n\n- Spare parts are supplied with each pump\n\n- Mechanical operations can be validated through functional testing\n\n- Multiple workstations: One test bench for several pumps\n\nReferences :\n\n- PO20 : Maintenance and tightness testing bench\n\n- MV11 : Workshop crane (Optional)\n\n- PO21 : Standard centrifugal pump\n\n- PO22 : Multi stage horizontal centrifugal pump\n\n- PO23 : Sewage pump\n\n- PO24 : Displacement pump\n\n- PO25 : Diaphragm dosing pump\n\n- PO15 : Mechanical tool kit\n\n- PO16 : Maintenance measuring tools\n\nTechnical Specifications:\n\n- 5 industrial pumps (centrifugal, sewage, peristaltic, diaphragm dosing)\n- Control valves\n- Sensors and measurements (flow, pressure, torque, voltage, current)\n- PLC with HMI and webserver\n- Speed drive\n- Automatic curve of the pressure\/flow characteristics of industrial pumps\n- Spare parts are supplied with each pump\n- Mechanical operations can be validated through functional testing",
        "Specs": "5 industrial pumps (centrifugal, sewage, peristaltic, diaphragm dosing)\nControl valves\nSensors and measurements (flow, pressure, torque, voltage, current)\nPLC with HMI and webserver\nSpeed drive\nAutomatic curve of the pressure\/flow characteristics of industrial pumps\nSpare parts are supplied with each pump\nMechanical operations can be validated through functional testing",
        "Url": "edquip.co\/en\/erm\/ermapompes",
        "Page title": "Ermapompes Industrial Maintenance Trainer: ERM - Edquip",
        "Page description": "Study, maintenance and testing bench for industrial pumps. Designed for hands-on education and training, suitable for technical schools, colleges, universities",
        "Lowest number of students": 1,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/PO20 - Ermapompes\/ERM_PO20-ErmaPompes.png",
        "Video link": null,
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-617490",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "HA10",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Aeronautical hydraulic test bench",
        "Description": "Aeronautical hydraulic test bench\n\nTopic coverage:\n\nHydraulic unit (Constant flow pump, Accumulator, Hand operated pump)\n\nHydraulic actuators (Double acting cylinder, Servo-cylinder, Hydraulic motor)\n\nHydraulic distribution (Pressure and flow limiters, 2\/2 and 4\/3 distributors, servo-distributor\u2026)\n\nSensors (Pressure, Temperature)\n\nTraining activities:\n\nHydraulic connections, test on hydraulic hose and cylinders\n\nOperating hydraulic parts (Landing gear, flap, aileron) with kinematics identical to real ones\n\nHydraulic measurements (Temperature, Flow, Pressure)\n\nHydraulic maintenance (Filter replacement)\n\nSimulation of hydraulic failure (Main circuit, emergency circuit, accumulator, hand operated pump)\n\nProduct advantages:\n\nStudy of a realistic hydraulic system (Redundancy\u2026)\n\n3 different operating parts (Landing gear, Flap, Aileron)\n\nReference numbers:\n\nHA10: Hydraulic and aeronautical test bench (with Cylinder test sub-system only)\n\nHA11: Landing gear sub-system with On\/Off cylinder\n\nHA12: Aileron sub-system with servo-cylinder\n\nHA13: Flap sub-system with hydraulic motor",
        "Specs": "Study, test and maintenance of a realistic hydraulic system (redundancy\u2026)\n3 operating parts (landing gear, flap, aileron) with real kinematics\nHydraulic unit (constant flow pump, accumulator, hand operated pump)\nHydraulic actuators (double-acting cylinder, servo-cylinder, hydraulic motor)\nHydraulic distribution (pressure and flow limiters, 2\/2 and 4\/3 distributors, servo-distributor\u2026)\nSensors (pressure, temperature)",
        "Url": "edquip.co\/en\/erm\/aeronautical-hydraulic-test-bench",
        "Page title": "Aeronautical hydraulic test bench: ERM - EDQUIP",
        "Page description": "Didactic equipment designed for hands-on education and training in mechanical aircraft maintenance. Suitable for schools, colleges, universities and training ce",
        "Lowest number of students": 1,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
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        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/HA10 - Aeronautical hydraulic test bench\/ERM_HA10-BancHydroAero.jpg",
        "Video link": null,
        "Main category": "Aviation Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-862282",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "PX10",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Industrial hydraulics trainer",
        "Description": "2 or 3-axis hydraulic welding positioner for training purposes.\n\nFeatures:\n\n- Hydraulic actuators (double-acting cylinders, motor)\n\n- Hydraulic distribution (4\/3 distributors, 4\/2 distributor, flow controller, pressure controller)\n\n- Hydraulic storage (accumulator, circuit closing device)\n\n- Hydraulic measurements (pressure, flow, temperature, level)\n\n- Hydraulic generation (hydraulic unit with gear pump)\n\n- Sensors(table rotation speed with encoder)\n\n- Electrical energy (low-voltage switchgear, speed drive)\n\n- Electrical and hydraulic safety (safety relay, valves\u2026)\n\nTraining activities:\n\n- Functional analysis, studying the technologies used and constructive solutions (3D SolidWorks)\n\n- Mechanical handling and blocking\n\n- Hydraulic and electrical connecting and wiring\n\n- Adjustments of the hydraulic systems\n\n- Preventive, corrective and upgrading hydraulic maintenance\n\n- Hydraulic and mechanical mounting\/dismounting\n\n- Systemperformance analysis, static or dynamic tests\n\n- Studying hydraulic components: on\/off, proportional\n\n- Studying different hydraulic loads\n\n- Hydraulic measurements (temperature, flow, pressure, level)\n\nKey points:\n\n- Many technical and kinematic solutions of the operating part\n\n- Modularity in designinghydraulic circuits\n\nReferences:\n\n- PX15: Operatingpart-3-axis(elevation,tilt,rotation)hydraulicpositioner\n\n- PX16: Operatingpart-2-axis(tilt,rotation)hydraulicpositioner\n\n- PX10: HydraulicbenchcontrollingtheHydraulicpositioner\n\n- PX11: Hydraulicaccumulatorandcircuitclosingdevice\n\n- PX12: Additionalcomponentsformaintenanceactivities\n\n- PX13: Double-actinghydrauliccylinder(200mmstroke)formaintenanceactivities\n\n- PX14: Additional components for advanced hydraulic activities (digital flow meter and pressure sensor, two hydraulic component trainers for 2 additional hydraulic scenarios)",
        "Specs": "Hydraulic actuators (double-acting cylinders, motor)\nHydraulic distribution (4\/3 distributors, 4\/2 distributor, flow controller, pressure controller)\nHydraulic storage (accumulator, circuit closing device)\nHydraulic measurements (pressure, flow, temperature, level)\nHydraulic generation (hydraulic unit with gear pump)\nSensors (table rotation speed with encoder)\nElectrical energy (low-voltage switchgear, speed drive)\nElectrical and hydraulic safety (safety relay, valves\u2026)\nSiemens S7-1200 PLC with proportional card, speed control and encoder for table rotation speed",
        "Url": "edquip.co\/en\/erm\/industrial-hydraulics-trainer",
        "Page title": "Industrial hydraulics trainer: ERM - EDQUIP",
        "Page description": "Designed for education and training purposes, this 2 or 3-axis hydraulic welding positioner is a hands-on didactic tool for teaching industrial hydraulics. \n\n",
        "Lowest number of students": 1,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/PX10 - Industrial hydraulics trainer\/ERM_PX10_ Industrial_hydraulics_trainer.jpg",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-657339",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "CC00",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "CTA Compact",
        "Description": "This Air handling system with energy recovery, recycling, heating, cooling, humidifying and industrial supervision, is an excellent didactic tool to teach students in a hands-on manner about comissioning and maintenance of a instrumented compact air handling system.\n\nFeatures:\n\n- Blowing and extraction\n\n- Mixing and heat recovery(plate heat exchanger)\n\n- Filtration(medium, high efficiency)\n\n- Heating(hot water or electric coil)\n\n- Cooling(cold water coil)\n\n- Heat recovery(plate heat exchanger)\n\n- Steam humidification\n\n- Sensors (temperature, pressure, hygrometry...)\n\n- Centralized Energy Management system (CEM)\n\nTraining activities:\n\n- Analyzing the functions of a air-handling system\n\n- Study of PLC and communication network in a building (CEM)\n\n- Commissioning& Configuration\n\n- Climatic and electrical maintenance\n\n- Analysis of the refrigeration, electrical and air flow circuits\n\n- Energy balance and calculation of the performance ratios\n\n- Forecasting the operating conditions\n\nKey points:\n\n- Professional equipment used in collective buildings\n\n- Customized measurements\n\n- Easy-to-use and friendly supervision software\n\n- Open system to main communication protocols (Ethernet, LonWorks, BACNet, Modbus, KNX)\n\nReferences:\n\n- CC00: High performance Double flow air handling system with: Exchanger 90%, CC motors with low consumption electronical commutation (Flow up to 1000m3\/h), Filtration G4+F7 on blowing and filtration G4 on return, Bypass, Power box with communication capable PLC and temperature & pressure sensors, Control and configuration box, configuration and supervision software on Modbus local network\n\n- CC15: Flexible connection (6m.long, diam.315mm), from the Air handling unit to an external wall\n\n- CC10: Electric coil for pre-heating 3.6kW and post-heating 6kW\n\n- CC11: Water coil for post-heating or cooling\n\n- CC12: Mixing case with anti freeze register and one-way motorized shutters\n\n- CC13: Steam humidification case\n\n- PC30: Air\/Water reversible inverter 10kW chiller\n\n- CC01: CO2, hygrometry and presence sensors for advanced control\n\n- CC02: KNX gateway (supervision application not provided)\n\n- CC04: Modbus TCP\/IP Module on PLC\n\n- CC05: BAC NET IP Module on PLC\n\n- WM01\/WM02: Measuring instruments (see CTA Flex references)\n\nTechnical Specifications:\n\n- Blowing and extraction (EC motor drive fan)\n- Mixing and heat recovery (plate heat exchanger)\n- Filtration (medium, high or very high efficiency)\n- Heating (hot water or electric coil)\n- Cooling (cold water coil)\n- Steam humidification\n- Sensors (temperature, pressure, hygrometry...)\n- Schneider Centralized Energy Management (CEM) system\n- Open system to main communication protocols (Ethernet, LonWorks, BACNet, Modbus, KNX)\n- CO2, hygrometry and presence sensors for advanced control",
        "Specs": "Blowing and extraction (EC motor drive fan)\nMixing and heat recovery (plate heat exchanger)\nFiltration (medium, high or very high efficiency)\nHeating (hot water or electric coil)\nCooling (cold water coil)\nSteam humidification\nSensors (temperature, pressure, hygrometry...)\nSchneider Centralized Energy Management (CEM) system\nOpen system to main communication protocols (Ethernet, LonWorks, BACNet, Modbus, KNX)\nCO2, hygrometry and presence sensors for advanced control",
        "Url": "edquip.co\/en\/erm\/cta-compact",
        "Page title": "CTA Compact Thermal Engineering Trainer: ERM - EDQUIP",
        "Page description": "This Air handling system with energy recovery, recycling, heating, cooling, humidifying and industrial supervision, is an excellent didactic tool to teach stude",
        "Lowest number of students": 1,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
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        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/CC00 - CTA Compact\/ERM_CC00-CTA-Compact.png",
        "Video link": null,
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-265714",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "PC60",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Air Water Heat Pump",
        "Description": "This Air Water Heat Pump training equipment is an excellent tool to teach students various relevant topics in a hands-on manner. Instrumented 6kW air\/water heat pump, reversible, inverter.\n\nTopic coverage:\n\n- Thermodynamic equipment\n\n- Thermal control\n\n- Fluid system (Circulation unit, Expansion tank, Buffer tank\u2026)\n\n- Measurements (Thermal and electrical meters, Temperature, High pressure and Low-pressure manometer)\n\nTraining activities:\n\n- Hydraulic and electrical wiring and connecting\n\n- Commissioning, configuration and maintenance\n\n- Overall and subsystem thermal balance\n\n- Techno-economic and environmental analyses\n\n- Dimensioning the installation\n\nProduct advantages:\n\n- Temperature displayed on a 4-way viewer\n\n- Software for datalogging\n\nReference numbers:\n\n- PC20: Instrumented 6kW Air\/Water heat pump (with hydraulic unit)\n\n- PC21: Data logging and teleprocessing station\n\n- PC22: Temperature recorder and data logger with sensors\n\n- PC23: Tube-in-shell exchanger (Optional)\n\nTechnical Specifications:\n\n- Daikin controller with WiFi connected thermostat\n- Fluid system with buffer tank and one or two outputs (different temperatures) towards the emitting benches\n- DHW production optional (3-way valve towards the tank, with exchanger)\n- Thermal and electrical energy meters\n- Temperatures on hydraulic and air-handling circuits\n- HP\/LP manometers and temperatures for pour refrigeration cycle study",
        "Specs": "Daikin controller with WiFi connected thermostat\nFluid system with buffer tank and one or two outputs (different temperatures) towards the emitting benches\nDHW production optional (3-way valve towards the tank, with exchanger)\nThermal and electrical energy meters\nTemperatures on hydraulic and air-handling circuits\nHP\/LP manometers and temperatures for pour refrigeration cycle study",
        "Url": "edquip.co\/en\/erm\/air-water-heat-pump",
        "Page title": "Air Water Heat Pump Industrial Maintenance Trainer: ERM - EDQUIP",
        "Page description": "This Air Water Heat Pump training equipment is an excellent tool to teach students various relevant topics in a hands-on manner. Suitable for technical shcools,",
        "Lowest number of students": 1,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/PC60 - Air Water Heat Pump\/ERM_HeatPump-PC60-1.png",
        "Video link": null,
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-498726",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "FP15 \/ FN15",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Positive or Negative cold rooms",
        "Description": "This Positive or Negative cold room training equipment is an excellent didactic tool to teach students in a hands-on manner about the operations related to a small industrial cold room.\n\nTopic coverage :\n\n- Commercial refrigeration (R134A refrigerated unit for Positive cold and R404A for Negative cold)\n\n- Thermal Insulation (65mm-thick cold room for Positive cold, and 100mm for Negative cold)\n\n- Control (Temperature controller)\n\n- Sensors (Pressure, Temperature)\n\n- Communication and supervision\n\n- Fluid system, electrical circuits and their equipment\n\nTraining activities:\n\n- Commissioning & Configuration\n\n- Electrical and refrigeration maintenance\n\n- Electrical and refrigeration circuits\n\n- Enthalpy diagram, Energy balance and computation of the performance ratios\n\n- Forecasting operation modes\n\n- Electrical certification...\n\nProduct advantages:\n\n- Real-life situation and real sizing (Restaurant cold room)\n\n- Studying a low-cost industrial cold room\n\n- Resistance for simulation of temperature variation in the cold room\n\nReference numbers:\n\n- FP10: Positive cold room\n-\n\nFP12: Communication-capable controller (positive cold) (Optional)\n\n- FN10: Negative cold room\n\n- FN12: Communication-capable controller (negative cold) (Optional)\n\n- FP11: Data logging and teleprocessing unit for cold rooms\n\n- FP15-k: Positive cold room Kit with frame (to be assembled)\n\n- FN15-k: Negative cold room Kit with frame (to be assembled)\n\nTechnical Specifications:\n\n- Refrigeration unit using R134\/R513 (positive) or R452 (negative)\n- 65mm-thick cold room (positive) or 100mm (negative)\n- Temperature controller\n- Sensors (pressure, temperature)\n- Communication and supervision\n- Resistance inside the cold room, to simulate temperature variations",
        "Specs": "Refrigeration unit using R134\/R513 (positive) or R452 (negative)\n65mm-thick cold room (positive) or 100mm (negative)\nTemperature controller\nSensors (pressure, temperature)\nCommunication and supervision\nResistance inside the cold room, to simulate temperature variations",
        "Url": "edquip.co\/en\/erm\/positive-or-negative-cold-rooms",
        "Page title": "Study and operation of a small industrial cold room: ERM - EDQUIP",
        "Page description": "Didactic tool for hands-on education and training in the operations of a small industrial cold room. Suitable for vocational and engineering education. Students",
        "Lowest number of students": 1,
        "Highest number of students": 8,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
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        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/FP15 - Positive or Negative cold rooms\/ERM-FP15-FN15 - Positive or Negative cold rooms_1.jpg",
        "Video link": null,
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-577063",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "CH30+CH31+CH32",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Isolated site Photovoltaic and wind power",
        "Description": "Presentation:\n\nThe Photovoltaic and Wind Energy Kit has been designed to allow the study of electricity production by solar photovoltaic and wind energy and its storage. It implements a complete chain of production, storage and distribution of electrical energy. Its modular nature makes it ideal for student projects.\n\nThe CH30 kit is delivered with a complete technical file (electrical diagram, technical data sheets of the main components, installation and maintenance manual) and educational file (possible educational activities).\n\nMain components:\n\n330Wp Photovoltaic Sub-Assembly\n\n24V 160W Wind Turbine Sub-Assembly (Option CH32)\n\nControl panel sub-assembly\n\nBatteries sub-assembly\n\nWeather sensor sub-assembly (Option CH31)\n\n230V power distribution sub-assembly\n\nEducational activities:\n\nSizing and energy balances\n\nEconomic and environmental analyses\n\nAutomation and communication\n\nCommissioning and implementation\n\nMeasurement\n\nMaintenance\n\nStrengths:\n\nStudent project material on photovoltaics (e.g. Designing an autonomous energy system) provided with an example of a teaching scenario\n\nSolar panels can be mounted on the ground, on a wall or on wheels\n\nMonitoring of the operating data of the system\n\nStudy of solar panel technologies, storage technologies (Regulator and Solar Batteries) and low voltage and 230V distribution (Inverter)\n\nStudy of energy efficiency\n\nMeasurement activities, implementation (wiring and connection), energy balances, dimensioning and justification of components, communication, technical-economic analyses...\n\n160W wind turbine to complete the activities related to renewable energy (option CH32)\n\nWeather station (optional).\n\nReferences:\n\nCH30: Photovoltaic kit\n\nCH31: Weather sensors\n\nCH32: Wind turbine 160W 24V",
        "Specs": "Features\n\n- Power supply : 230VAC- 50Hz- 10A\n\n- Control panel dimensions : L 94 x l 79 x H 180 cm\n\n- Dimensions of the photovoltaic module : L 170 x H 100 x P 80 cm\n\nDocumentation\n\nThe CH30 kit is delivered with a complete technical file (electrical diagram, technical data sheets of the main components, installation and maintenance manual) and educational file (possible educational activities)\n\nPhotovoltaic sub-assembly 330Wc\n\n- 1x Monocrystalline photovoltaic module 330Wp to 360Wp (or equivalent).\n\n- 1 x Triangulated aluminium structure to be fixed to the ground, on a 60\u00b0 roof terrace or mobile on wheels\n\n- 1x Set of cables\n\nControl panel sub-assembly\n\nControl panel including :\n\n- 1x CCGX Victron Energy data acquisition system with web interface for data processing and analysis for education.\n\n- Colour graphic interface with data visualisation and communication via application, SD card or server.\n\n- The CCGX allows for the monitoring and display of product data in real time.\n\n- The information can also be transmitted to the remote monitoring website\n\n- Ability to export data (CSV or XLS format) for further processing\n\n- 1x MPPT charge controller, Victron SmartSolar 75\/15, 15A module \/ 15A conso 12\/24V Vco MAX 75 V IP43\n\n- Bluetooth connectivity for viewing solar production data on a smartphone (iOS or Android)\n\n- 1x Charging inverter Victron MultiPlus MP24\/800\/16-16, 24Vdc, 230Vac, 800W, Sinusoidal, 16A Charger\n\n- 1x BMV712 Battery Charge Controller\/Display 9 to 90 VDC, Shunt 500A\/50mV (RJ12 10m supplied, max distance 65m)\n\n- 1x 1x Switch cabinet with 24V and 230V feeder, battery isolator, shunt...\n\nBattery sub-assembly\n\n- 2x AGM flat plate sealed lead-acid solar batteries, model DeepCycle Victron 110, 110Ah C20, 12V\n\n- 1x Polyethylene box 180 litres equipped (ventilation, handles, PE, etc).\n\n- 1x Temperature sensor in the battery box\n\nSub-assembly Power Distribution\n\n- 1x LED strip\n\n- 1x porthole + led lamp\n\n- 2x LED spotlights\n\n- 1x 230V power socket\n\nWeather sensor sub-assembly (Option CH31)\n\n- 1x Sunlight sensor\n\n- 1x Ambient or module temperature\n\n- These two probes are connected to the Victron CCGX data acquisition system, which allows these values to be integrated into the production monitoring curves (see below)\n\n24V 160W Wind Turbine Sub-Assembly (Option CH32)\n\n- 1x Wind turbine AIR 40 (or equivalent), 160W, with integrated 24V regulator, rotor diameter 1.14m\n\n- 1x 3m metal mast for wind turbine, with wall mounting brackets\n\n- 1x Set of cables\n\nPlanned educational activities\n\nSizing & Energy Balances\n\n- Functional analysis\n\n- Sizing of an installation and evaluation of energy production\n\n- Estimation of electrical\n\n- Determination of the photovoltaic field, batteries, inverter\n\n- Use of an installation sizing software\n\n- Verification of the sizing data of the installation (photovoltaic power, cable sections, inverter power, battery capacity, size of protections, etc.)\n\nEconomic and environmental analyses\n\n- Technical and economic analyses (case of an individual, a company, a community...)\n\n- Return on investment time depending on subsidies\n\n- Comparison of a photovoltaic investment with a connection to the EDF grid\n\n- Power generation in developing countries\n\n- Environmental analysis\n\n- CO2 emissions avoided\n\n- The problem of decentralised production compared to centralised\n\nproduction (line losses, etc.)\n\nController & Communication\n\n- Programming, parameterisation and operation of the CCGX controller (e.g. retrieval and parameterisation of production data)\n\n- Study of communication protocols\n\nCommissioning & Implementation\n\n- Wiring of the electrical cabinet, connection of panels, batteries, etc.\n\n- Commissioning of the installation\n\n- Implementation of sunshine and temperature data acquisition\n\n- Setting up a generator (Real or simulated by a battery charger)\n\nMeasurement\n\n- Measurement and interpretation of data\n\n- Determining the optimal\n\n- Overall system efficiency, Inverter efficiency\n\nMaintenance\n\n- Diagnosis (Troubleshooting: Cable disconnected...)\n\n- Planning and organisation of maintenance work (checking connections, cleaning panels, monitoring batteries, etc.)\n\n- Changing a defective panel\n\n- Planning and organisation of maintenance interventions (Checking connections, Checking the wind turbine, Monitoring the batteries...)\n\nExamples of practical Exercises\n\nPratical work 1: Discovering photovoltaic production\n\n- Objective: Discover energy and the different photovoltaic technologies and their insertion in the world and the needs.\n\n- Chronology:\n\n- Principle of photovoltaic production and its use\n\n- Generation connected and not connected to the distribution network\n\n- The different photovoltaic\n\n- Solar radiation rate survey\n\n- Variability factor of solar production\n\n- Installed capacity in different countries and need for global production\n\nPratical work 2: Photovoltaic identification\n\n- Objective: To discover the elements of the photovoltaic system\n- Chronology:\n\n- Presentation of the 4 types of photovoltaic installations\n\n- Determining our type of photovoltaic system\n\n- Identification of energy sources\n\n- Identification of the components of the photovoltaic system\n\n- The solar chain:\n\n- MPPT solar controller features\n\n- Photovoltaic panel features\n\n- Influence of temperature\n\n- Study of the efficiency of the photovoltaic module\n\n- Study of the line voltage drop in cables\n\n- Study of batteries: characteristics, couplings, variation of capacity with temperature, factors influencing their lifetimes, safety standards for storage.\n\n-\n\nInstallation methods for solar panels.\n\nPratical work 3: Wind discovery\n\n- Objective: Discovering wind power installations and the installation kit\n- Chronology:\n\n- Presentation of the two types of use of wind turbines\n\n- Presentation of the two axis technologies\n\n- Presentation of the 3 different wind turbine families\n\n- Exploitation of power curves\n\n- Presentation of the two types of generators used (advantages and disadvantages)\n\n- Study of the coupling of the wind turbine to the Photovoltaic and Wind\n\n- Turbine isolated site system\n\n- Study of the protection elements of the wind turbine\n\n- Observation of wind turbine output and calculation of average power\n\n- Calculation of the operating time of the wind turbine for a defined use\n\n- Justification of the dimensioning of the distribution cable\n\nPratical work 4: Dimensioning of the equipment of the isolated site Photovoltaic and wind power installation\n\n- Objective: Carry out case studies of the sizing of the installation for a given use according to several parameters.\n\n- Chronology:\n\n- Determining the energy requirements to be stored in the battery\n\n- Determination of the required battery capacity and peak power of the photovoltaic panel using CALSOL software according to the needs of the receivers, the geographical position of the production site, the orientation of the photovoltaic panel\n\nPratical work 5: Maintenance of off-grid systems Photovoltaic and wind power\n\n- Objective: Maintain the production system safely\n\n- Chronology:\n\n- Identification of risks\n\n- Electrical identification of the installation\n\n- Maintenance and testing of the battery circuit\n\n- Maintenance and testing of the solar panel\n- Maintenance and testing of the wind turbine",
        "Url": "edquip.co\/en\/erm\/isolated-site-photovoltaic-and-wind-power",
        "Page title": "Isolated site Photovoltaic and wind power",
        "Page description": "Hybrid Photovoltaic & Wind generator training kit for schools, colleges and universities. Read more about training activities and technical descriptions on our\n",
        "Lowest number of students": 1,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
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        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
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        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/CH30-CH31-CH32 Isolated site Photovoltaic and wind power\/CH30-front.jpg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-437642",
        "Product Type": "hardware",
        "Producer": "ERM",
        "Producer product number": "AB35",
        "Content languages": "en, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Solar thermal heater",
        "Description": "Instrumented and mobile domestic solar water heater\n\nFeatures:\n\n- Heat production (2.5m\u00b2 of flat plate collectors)\n\n- Thermal storage (200L tank, double-exchanger with immersion heater)\n\n- Thermal control (Differential controller and data logging software)\n\n- Fluid system (Circulation group, Expansion tank\u2026)\n\n- Measurements (Energy meters, Temperature, Manometer)\n\nTraining activities:\n\n- Hydraulic and electrical wiring and connecting\n\n- Overall and subsystem thermal balance\n\n- Preventive maintenance of the installation\n\n- Techno-economic and environmental analyses\n\n- Eco-design of thermal solar collectors\n\n- Dimensioning the installation...\n\nProduct advantages:\n\n- Easy data logging for a small budget\n\n- Mobile solar collector can be placed outdoors during tutorial work\n\n- Reference numbers:\n\n- AB35: Basic Solerm solar water heater\n\n- AB36: Filling station\n\n- so\/\/ PRKO: Maintenance tool case\n\nTechnical Specifications:\n\n- Mobile and tilting stand with 2.2m\u00b2 flat plate collector\n- 200L tank, double-exchanger with immersion heater\n- Differential controller and data logging\n- Circulation unit, expansion tank\u2026\n- Measurements (solar energy meter, temperatures, pressure)",
        "Specs": "Mobile and tilting stand with 2.2m\u00b2 flat plate collector\n200L tank, double-exchanger with immersion heater\nDifferential controller and data logging\nCirculation unit, expansion tank\u2026\nMeasurements (solar energy meter, temperatures, pressure)",
        "Url": "edquip.co\/en\/erm\/solerm-thermique-basic",
        "Page title": "Solar thermal heater: ERM - EDQUIP",
        "Page description": "This solar thermal heater is a small instrumented and mobile domestic solar water heater, suitable for education and training at Schools, Celleges, Universities",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ERM\/AB35-Solar Thermal Heater\/ERM_Solar-heater-AB35.png",
        "Video link": null,
        "Main category": "Solar Thermal Training System"
    },
    {
        "Edquip ID": "PL-793542",
        "Product Type": "hardware",
        "Producer": "Insur",
        "Producer product number": "SOL 25 TP10C",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Advanced Photovoltaic Solar Energy Trainer",
        "Description": "These Didactic Trainers provide students with theoretical-practical learning, fundamental concepts and experimentation on the use of renewable or alternative energies, aimed at photovoltaic solar generation. Promote and disseminate the use of these clean energies in order to help and collaborate with ecology and caring for the environment. It includes the assembly of circuits with the different protection elements, storage devices and electrical energy consumption for various applications. The equipment has the latest technology components and materials, of real use in the industry and current innovations.\nThe practical work includes the wiring and experimentation of assembly circuits, in order to understand the generation of electrical energy through solar panels. It allows all the necessary steps of a photovoltaic installation to be carried out, taking into account the current regulations, protections and safety standards, in order to guarantee teachers and students an operation without any type of risk. Application: The equipment of the SOL line can be used for the training and qualification of teachers, students of technical schools, vocational training centers, tertiary technical institutes, who wish to experiment and acquire practice in the area of photovoltaic solar energy. The solar panels develop the direct transformation of light energy from the sun into electrical energy by means of photovoltaic cells. Its use is intended for exclusively educational use, not anticipating the generation of electrical power for production or feeding of consumer loads, beyond those provided for experimental use and measurement in the equipment. The trainers allow the teacher the great ease of transmitting this knowledge and a dynamic fluidity in the learning towards the students. Equipment Features: The equipment in all its structure and operation is aimed at a specifically didactic and pedagogical criterion that facilitates the understanding and comprehension of the student.\nIt includes a safety mechanism for the student, using a key that the teacher will have in such a way that it energizes the Trainer once the circuit is armed.\n\nStudy Program:\n\n- Solar radiation\n- Components in a solar installation\n- Photovoltaic solar panels\n- Solar charge controller\n- Solar battery\n- Power inverter\n- Measurement of voltages and electrical currents\n- Power curves in a photovoltaic system. Symbologies and schemes\n- Measurements of the consumption generated.\n- Protection devices. Fuses Thermo magnetic and differential switches.\n- Assembly and experimentation of different circuits for the application of photovoltaic solar energy.\n\nThe enthusiasm of the teacher facilitates his task of teaching\n\nThe Practical Works and experiences that are included in all our didactic trainer are arranged in increasing complexity. The first practices are basic and elementary. The intention in this first instance is for the teacher to acquire confidence and security in the equipment. We also aspire for the teacher to get involved with enthusiasm, joy and commitment in their teaching task. With these previous premises, you will be able to transmit and exchange experiences with your students in a more fluid way.\nIn all these years, it is the teachers who use our equipment who show us this positive change that occurs in the recreation of their activities and the enthusiasm that accompanies them during classes.\n\nCarrying out practical work and experiences\n\nThe objective of carrying out the practical work is for the student to make direct contact with the components and mechanisms that in the future in their work environment they must know how to handle and operate.\nIt is this way of facilitating the student's job placement in a highly demanding market, in terms of the need for knowledge based on the application of practices and problem solving.\nThe teacher can follow the sequence of practical tasks programmed and print them for the students from the CD included in the equipment.\nOn the other hand, due to the modular and connection characteristics of the equipment, the teacher can creatively recreate the design of their own practices and experiences.\nIt also represents a valuable tool for the theoretical and practical evaluation of students.\n\nDocumentation included in the equipment:\n\nEquipment functions and operation manual\nTheoretical contents manual\nGuide to Practical Works, to be done in class\nPermanent Professional Advice",
        "Specs": "Content:\n\n- 3 Photovoltaic solar panels\n- 1 220 Vac power and security module, coded lock for teacher access.\n- 1 Thermomagnetic protection module and digital voltmeter and ammeter instruments.\n- 1 electronic load regulator module\n- 1 Electronic inverter module 12 Vdc to 220 Vac\n- 1 Battery module\n- 1 Protection and safety module 12 Vdc\n- 1 Light electrical consumption module 12 Vdc\n- 1 Light electrical consumption module 220 Vac\n- 1 rheostat module\n- 1 resistor module\n- 1 Moveable trolley for panels with adjustable orientation in angles\n- 1 12 Vdc low discharge solar type battery.\n- 1 Module holder structure for 20 simple modules\n- 1 Set of cables for connection\n\nPractical Work:\n\nSome of the practical work that can be developed are:\n\n- Photovoltaic Solar Panel - Electrical measurements\n- Photovoltaic Solar Panel - Measurements, orientation and inclination\n- Photovoltaic Solar Panel - Cell calculation\n- Photovoltaic Solar Panel - I-V characteristic curve tracing\n- Photovoltaic Solar Panel - Calculation of the maximum power generated\n- Photovoltaic Solar Panel - Performance calculation\n- Different Photovoltaic Solar Panels - Voltage and current calculation\n- Photovoltaic Solar Panels - Grouping and calculations\n- Photovoltaic Solar Panels - Grouping and connection\n- Battery - Charging process\n- Battery - Low charge or disconnected state\n- Charge controller - Functions\n- Charge controller - PC connection\n- Current inverter - Connection\n- Inverter - 220Vac consumption comparison\n- Inverter - Consumption values 220Vac in 12Vdc\n\nTechnical specifications:\n\nElectrical characteristics of each photovoltaic solar panel:\n\nNominal Power (PN) 45.0 W\nVoltage at PN 15.88 V\nCurrent at PN 2.84 A\nOpen circuit voltage 18.75 V\nShort circuit current 3.01 A\n\nEach panel has a 15 meter long sintenax cable with an industrial plug to connect to the Teaching Trainer. Measurement instruments associated with the equipment: allows the measurement of all the electrical variables indicated in the practical work.\n\nExperimental terminals system: To protect the devices and components of the Trainer, the Teaching Modules have quick connection terminals, with protection, robust construction and excellent termination.\n\nModule holder structure:\nReinforced iron with high resistance baked epoxy paint. Movable with wheels and brakes. Mobile countertop and drawer. Slotted aluminum profiles for mounting and positioning of the modules.\n\nTrainer measurements: Height 1.90 m. Length 1.25 m. Width 0.70 m.\n\nTotal measurements of the moveable solar panel trolley\n\nWith panels in vertical position:\nHeight: 1.50m x Length: 0.87m x Width: 0.60m\n\nWith panels in horizontal position (rest):\nHeight: 1.05m x Length: 0.87m x Width: 1.05m\n\nImportant: It does not require additional supplies for its future operation\n\nNote: The theoretical and practical contents of this line of didactic equipment are for informational purposes and may be modified or updated without prior notice.",
        "Url": "edquip.co\/en\/insur\/advanced-photovoltaic-solar-energy-trainer",
        "Page title": "Advanced Photovoltaic Solar Energy Trainer: Insur - EDQUIP",
        "Page description": "Advanced PV Solar Energy trainer, suitable for technical schools, colleges and universities. Request your quotation today! Get free price estimations.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Insur\/Advanced Photovoltaic Solar Energy Trainer\/1727462291_HSE 2.jpg",
        "Video link": "",
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-350773",
        "Product Type": "hardware",
        "Producer": "Insur",
        "Producer product number": "EOL 25 TP10C",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars"
        ],
        "Name": "Advanced Wind Energy Trainer With Simulator",
        "Description": "General description This Didactic equipment provides students with theoretical-practical learning, fundamental concepts and experimentation, on the use of renewable or alternative energies, oriented to the generation of electricity by effects of the wind. Promote and disseminate the use of these clean energies in order to help and collaborate with ecology and care for the environment. It includes the assembly of circuits with the different protection elements, storage devices and consumption of electrical energy for various applications. The equipment has state-of-the-art components and materials, for real use in the industry and current innovations. The practical works include the connection and the experimentation of assembly circuits, in order to understand the generation of electrical energy through wind-driven wind turbines. It allows all the necessary steps of a wind installation to be carried out, taking into account current regulations, protections and safety standards, in order to guarantee teachers and students an operation without any type of risk. Applications The EOL line equipment may be used for the training and training of teachers, students of technical schools, professional training centers, tertiary technical institutes, who wish to experiment and acquire practice in the area of wind energy. The effect of the wind develops the direct transformation of kinetic and mechanical energy into electrical energy by means of wind turbines. Its use is intended for educational use only, not foreseeing the generation of electrical power for production or feeding of consumer loads, beyond those provided for experimental use and measurement in the equipment. The boards allow the teacher the great ease of transmitting this knowledge and a dynamic fluidity in learning towards the students. The devices that make up this equipment are of real operation according to those used in industry and services. The equipment in all its structure and operation is objective towards a specifically didactic and pedagogical criterion that facilitates the understanding and comprehension of the student. It includes a security mechanism for the student, through a key that the teacher will have, in such a way that it energizes the board once the circuit is assembled. Study program The topics included in the study program are the following: \u2022 Wind energy as a renewable energy source \u2022 Principle of operation of a wind turbine \u2022 Measurement of wind data, measuring instruments \u2022 General characteristics of the generators \u2022 Types of wind turbines \u2022 Wind turbine components \u2022 Stages of electricity generation in a wind turbine \u2022 Configuration of wind systems \u2022 Energy calculations in wind turbines \u2022 Wind speed variability \u2022 Components in a wind installation \u2022 Charge regulator \u2022 Battery \u2022 Current rectifier \u2022 Measurement of electrical voltages and currents \u2022 Power curves of a wind turbine. Symbologies and schemes \u2022 Measurements of generated consumption. \u2022 Protection devices. Fuses. Thermo magnetic and differential switches. \u2022 Assembly and experimentation of different wind energy application circuits. The Practical Works include the connection and experimentation of the different diagrams and assembly circuits. Likewise, the non-destructive simulation of the most common failures in these systems is possible.",
        "Specs": "Content \u2022 1 Bench Wind Simulator \u2022 1 Power and security module, with a coded lock for access to the teacher. \u2022 1 Thermomagnetic Protection Module \u2022 1 Hybrid Charge Controller Module \u2022 1 Battery Module \u2022 1 Discharge resistor module \u2022 1 DC measurement module \u2022 1 DC\/AC Current Inverter Module \u2022 1 DC load simulator module \u2022 1 Alternating current load simulator module \u2022 1 Deep cycle battery for renewable energy - 12VDC \u2022 1 Mobile module-holder structure for 10 simple modules \u2022 1 Set of cables for connection \u2022 1 mobile drawer Practical jobs \u2022 Wind Generator - No-load Voltage Measurement \u2022 Charge Controller - Connection and configuration \u2022 Wind Generator - Load voltage measurement \u2022 Wind Generator - Characteristic curve \u2022 Wind Generator - Current measurement \u2022 Wind Generator - Current curve \/ rotation speed \u2022 Wind Generator - Power \u2022 Battery - Charging process \u2022 Battery - Status before direct current consumption \u2022 Charge Controller - As System administrator \u2022 Monitoring of Wind System parameters - APP \u2022 Charge Controller - Simulation and Failure Control \u2022 Charge Regulator - Failure in continuous current consumption \u2022 Current Inverter - Connection \u2022 Current Inverter - Consumption values between VAC lamps \u2022 Power Inverter - Protection Systems \u2022 Power Inverter - Comparison of consumption in VAC and VDC \u2022 Wind System - Protections in VAC and VDC consumption \u2022 Monitoring of parameters of the Wind System - PC Technical characteristics Module holder structure: Anodized aluminum slotted profiles for assembly and positioning of the modules. Board measurements: Height 1.90 m. Length 0.65 m. Width 0.70m. Measuring instruments associated with the equipment: enables the measurement of all the electrical variables indicated in the practical work. Experimental terminal system. To protect the devices and components of the board, the Didactic Modules have fast connection terminals, with protection, robust construction and excellent finish. Important: It does not require additional inputs for its future operation. operating requirements The equipment only needs to be connected to a 110\/220 Volts 50\/60Hz power supply that has a ground connection. The maintenance required by the equipment is minimal. In case of deterioration of any component, it can be replaced very easily.",
        "Url": "edquip.co\/en\/insur\/advanced-wind-energy-trainer-with-simulator",
        "Page title": "Advanced Wind Energy Trainer With Simulator: Insur - EDQUIP",
        "Page description": "Advanced Wind Energy trainer, suitable for technical schools, colleges and universities. Request your quotation today! Get free price estimations.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Insur\/Advanced Wind Energy Trainer With Simulator\/1727463812_25 JPG.jpg",
        "Video link": "",
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-970468",
        "Product Type": "hardware",
        "Producer": "Insur",
        "Producer product number": "TER 11 BM00",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Solar Thermal Collector System Trainer",
        "Description": "General description:\n\nObjetives\n\nIt provides teachers and students with knowledge and basic experimentation on the use of renewable or alternative energy, aimed at heating liquids due to the effects of solar radiation.\nPromote and disseminate the use of these clean energies in order to help and collaborate with ecology and caring for the environment.\nArea of application\n\nThe didactic equipment is oriented to the capture and concentration of solar radiation in order to achieve the heating of liquids and their thermal regulation.\nIt develops the direct transformation of solar rays into heat energy.\nIts use is intended exclusively for educational use, not foreseeing the generation of sanitary consumptions or heating by hot water beyond those foreseen for experimental use and measurement in the equipment.\n\nStudy program\n\n- Introduction to solar thermal energy\n- Types of solar installations\n- Capture systems\n- Hydraulic system\n- Auxiliary system\n- Control system\n- Devices for the use of solar thermal energy",
        "Specs": "Solar Energy Trainer with Thermal Collectors.\n\nThe didactic trainer comprises the following elements:\n\n- Solar collector mounted on a structure with inclination regulation\n- Accumulator tank with internal serpentine\n- 2 recirculating pumps\n- Glass of expansion.\n- Power supply and electrical safety module with teacher key\n- Programmable electronic control unit with monitoring and control probes\n- Various regulation, safety and control valves\n- 4 Thermomanometers, instruments to measure pressure and temperature variables\n- Hoses for connection and circulation of the fluid through the solar collector.\n\nElectrical characteristics:\n\nSingle phase 220 VAC, 50 Hz power supply and grounding.\nIt has a coded lock for access to the teacher.\nEmergency switch\nProtective earth leakage switch\n\nDocumentation included in the equipment:\n\nEquipment functions and operation manual\nTheoretical contents manual\nGuide to Practical Works, to be done in class\nPermanent Professional Advice\n\nEquipment dimensions: Height 1.90 m. Length 1.30 m. Width 0.60 m.\n\nReinforced iron structure with high resistance baked epoxy paint. Movable with wheels and brakes.\n\nTank capacity: 120 liters.\n\nSOLAR HEAT PIPE COLLECTORS (VACUUM TUBES)\n\nHeat Pipe features:\n\n- Tube diameter 5.5 cm. Length 1.80m\n- The tube can resist temperatures up to 300 \u00b0 C and low temperatures down to -40 \u00b0 C\n- Antifreeze treatment for the inside of the Heat Pipe\n- It is assembled with silicone grease to distribute the contact surface and increase heat transfer\n\nSolar Collector features:\n\n- Number of tubes: 10\n- Dimensions: Height 2 m. Length 1.30 m. Width 0.16 m\n- Weight: 60 Kg\n- Working pressure: 6 Bar\n- Tilt range: 15 \u00b0 to 75 \u00b0\n\nDimensions of the collector holder structure according to the inclination\n\nWith collector in position at 30 \u00b0\nLength: 1.30 m x Width: 1.75 m x Height: 1.15 m\n\nWith collector in position at 45 \u00b0\nLength: 1.30 m x Width: 1.45 m x Height: 1.50m\n\nImportant: It does not require additional supplies for its future operation.\n\nNote: The theoretical and practical contents of this line of didactic equipment are for informational purposes and may be modified or updated without prior notice.",
        "Url": "edquip.co\/en\/insur\/solar-thermal-collector-ssystem-trainer",
        "Page title": "Solar Thermal Collector System Trainer: Insur - EDQUIP",
        "Page description": "This hands-on solar thermal training equipment is designed for technical schools, training centers, colleges, polytechnics, institutes, and universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Insur\/Solar Thermal Collector System Trainer\/Insur_Solar-Thermal-Collector-System-Trainer_TER-11-BM00_1.jpg",
        "Video link": null,
        "Main category": "Solar Thermal Training System"
    },
    {
        "Edquip ID": "PL-273246",
        "Product Type": "hardware",
        "Producer": "Iventec",
        "Producer product number": "DMSD-01",
        "Content languages": "en",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Hydraulic double-sided test bench with fixed displacement pump",
        "Description": "Mobile teaching station is intended for conducting laboratory classes in the field of mechanics of machines and hydraulic drives. The position is intended for the simultaneous work of 8-10 participants. It allows you to learn the basic principles of power hydraulics, fluid mechanics and automation.\n\nIt can be used both to conduct professional exams in exact sciences and to train employees and maintenance staff in production plants. The stand has a mobile structure that allows it to be transported to various places and a modular structure that allows for building various schemes of hydraulic connections.\n\nThe components used on it are installed on the mounting wall and can be moved to different places. The width of the stand allows it to drive through standard door openings. The station can be powered with single-phase voltage 230 V from the standard electrical network.\n\nThe equipment includes technical documentation and a set of exemplary laboratory classes that allow testing the characteristics of pressures, forces, speeds and flows of the tested hydraulic receivers. A set of electric relays, switches and limit relays allows you to build industrial automation systems and explore technical knowledge.\n\nThe components of well-known and reputable manufacturers are used to build the stands, guaranteeing long-lasting and trouble-free operation.",
        "Specs": "The basic parameters of the station:\n\n- Mobile assembly table with a double-sided work area, equipped with a container with drawers, a panel for mounting electrical relays, a holder for hanging diagrams and a hanger for hydraulic hoses\n- Hydraulic power pack equipped with a pump with reduced noise level and flow 8 l\/min, electric motor 230V, 50 Hz, power 1.1 kW, pressure limiting valve and solenoid valve for quick pressure release from the system\n- Electric control panel controlling the operation of the power supply with overload protection.\n- Power supply DC panel\n- Panel with set of electric relays\n- Panel with electrical switches\n- 2 x manifold branching the pressure and return line with a built-in manual relief valve\n- 1 x single acting cylinder with return spring\n- 2 x double-acting cylinder\n- 4 x electric limit switch\n- 1 x orbital motor\n- 2 x pressure gauge with hoses and measuring connectors\n- 2 x electric 4\/3 directional valve\n- 2 x manual 4\/3 directional valve\n- 1 x electric 4\/2 directional valve\n- 1 x manual 4\/2 directional valve\n- 2 x throttle check valve, sandwich version\n- 2 x relief valve, sandwich version\n- 2 x reducing valve, sandwich version\n- 2 x throttle-check valve, in-line version\n- 1 x check valve, in-line version\n- 2 x check valve, in-line version\n- 1 x flow divider, in-line version\n- 12 x hydraulic hose with quick couplings\n- 40 x electrical cable with 4 mm connectors\n- A set of exemplary laboratory exercises\n\nAt the client's request, we can change the configuration of the station adapting to specific requirements.",
        "Url": "edquip.co\/en\/iventec\/Hydraulic-double-sided-test-bench-with-fixed-displacement-pump",
        "Page title": "Hydraulic Trainer, Fixed Displacement Pump: Iventech - EDQUIP",
        "Page description": "Hydraulic Training Equipment (fixed displacement pump), for technical education & training. Request your quotation today! Get free price estimations.",
        "Lowest number of students": 1,
        "Highest number of students": 10,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": "1860\/780\/1800",
        "Equipment dimensions unit": null,
        "Equipment weight": "250",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Iventec\/DMSD-01\/Iventec_DMSD-01_01.jpg",
        "Video link": "",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-635135",
        "Product Type": "hardware",
        "Producer": "Iventec",
        "Producer product number": "DMSD-02",
        "Content languages": "en",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person"
        ],
        "Name": "Hydraulic double-sided test bench with variable displacement pump",
        "Description": "Mobile teaching station is intended for conducting laboratory classes in the field of mechanics of machines and hydraulic drives. The position is intended for the simultaneous work of 8-10 participants. It allows you to learn the basic principles of power hydraulics, fluid mechanics and automation.\n\nIt can be used both to conduct professional exams in exact sciences and to train employees and maintenance staff in production plants. The stand has a mobile structure that allows it to be transported to various places and a modular structure that allows for building various schemes of hydraulic connections.\n\nThe components used on it are installed on the mounting wall and can be moved to different places. The width of the stand allows it to drive through standard door openings. The station can be powered with single-phase voltage 230 V from the standard electrical network.\n\nThe equipment includes technical documentation and a set of exemplary laboratory classes that allow testing the characteristics of pressures, forces, speeds and flows of the tested hydraulic receivers.\n\nA set of electric relays, switches and limit relays allows you to build industrial automation systems and explore technical knowledge. The components of well-known and reputable manufacturers are used to build the stands, guaranteeing long-lasting and trouble-free operation.",
        "Specs": "The basic parameters of the station:\n\n- Mobile assembly table with a double-sided work area, equipped with a container with drawers, a panel for mounting electrical relays, a holder for hanging diagrams and a hanger for hydraulic hoses\n- Pump unit with a variable displacement piston pump with a Load Sensing regulator with a capacity of 11 l\/min, a 230V, 50 Hz electric motor with a power of 2.2 kW, a pressure limiting valve and a solenoid valve for quick release of pressure from the system\n- 25 L tank with return filter, breathing filter, oil level indicator\n- Load Sensing pressure regulating valve\n- Electric control panel controlling the operation of the power supply with overload protection\n- Panel mounted current, voltage and power meter\n- Power supply DC panel\n- Panel with set of electric relays\n- Panel with electrical switches\n- 2 x pressure and temperature transmitter with CAN bus signal\n- 1 x turbine flow meter CAN bus\n- 1 x electronic measurement panel with the possibility of exporting data to a computer\n- 2 x manifold branching the pressure and return line with a built-in manual relief valve\n- 1 x double-acting cylinder with variable load\n- 2 x double-acting cylinder\n- 4 x electric limit switch\n- 1 x orbital motor\n- 3 x pressure gauge with hoses and measuring connectors\n- 2 x electric 4\/3 directional valve\n- 2 x manual 4\/3 directional valve\n- 1 x electric 4\/2 directional valve\n- 1 x manual 4\/2 directional valve\n- 2 x throttle check valve, sandwich version\n- 2 x relief valve, sandwich version\n- 2 x reducing valve, sandwich version\n- 2 x throttle-check valve, in-line version\n- 1 x check valve, in-line version\n- 2 x check valve, in-line version\n- 1 x flow divider, in-line version\n- 12 x hydraulic hose with quick couplings\n- 40 x electrical cable with 4 mm connectors\n- A set of exemplary laboratory exercises\n\nAt the client's request, we can change the configuration of the station adapting to specific requirements.",
        "Url": "edquip.co\/en\/iventec\/Hydraulic-double-sided-test-bench-with-variable-displacement-pump",
        "Page title": "Hydraulic Trainer, Variable Displacement Pump: Iventech - EDQUIP",
        "Page description": "Hydraulic Training Equipment (variable displacement pump), for technical education & training. Request your quotation today! Get free price estimations.",
        "Lowest number of students": 1,
        "Highest number of students": 10,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": "2060\/780\/1800",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "300",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Iventec\/DMSD-02\/Iventec_DMSD-02_01.jpg",
        "Video link": "",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-104750",
        "Product Type": "hardware",
        "Producer": "Techno CNC",
        "Producer product number": "Venus Plasma",
        "Content languages": "en",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Venus Plasma",
        "Description": "The Venus Series CNC Plasma is constructed using rigid materials delivering ultra-smooth plasma cutting results. The Venus Series CNC Plasma can be equipped with a variety of plasma torch power supplies, each one capable of cutting different material thicknesses. The gantry height is 7-1\/2\", which provides maximum flexibility to cut sheet goods and larger or taller welded assemblies, if desired. The Venus Plasma includes a stainless steel water table, which absorbs about 90% of the smoke created when cutting, and comes with a steel base and safety enclosure. The safety enclosure includes a top smoke evacuation port so it can be plumbed into an existing ventilation system, if so desired. The machine drive motors are powerful NEMA 34 sized high speed stepper motors, directly coupled to precision ball screws on all three axes. This provides optimum power, speed, and accuracy when cutting thin sheet metal or thicker plate stock.\n\nThe plasma torch is cradled in an electronic, automatic, torch breakaway module, using a real time CNC torch height control system. The Venus Plasma has a PC based industrial controller with a Windows 10 operating system and uses an Ethernet connection for high-speed communication and uninterrupted processing. The system interface is easy to learn, easy to use, and makes the machine operation simple for instructors and students. No other machine on the market includes all of these features and capabilities.\n\nPlasma Torch\n\nThe Venus plasma torch is cradled in an electronic, automatic, torch breakaway module, using a real time CNC torch height control system\n\nController\n\nThe core of the Venus Tabletop CNC Plasma machine is the SSA controller. Our New Techno PC based industrial SSA 5000 controller is a Windows 10 based operating system. System connection is Ethernet for high speed communication resulting in high speed uninterrupted processing.\n\nSafety Enclosure\n\n*Optional* Techno\u2019s heavy duty steel base includes hand jack center cross strut for easy maneuverability. Techno\u2019s safety enclosure feature ergonomic front main door with vertical swing, two side doors, (8) enclosure viewing windows, and 3.0\u201d top smoke ventilation port. Techno\u2019s Venus Table top Plasma with stand and enclosure is designed to roll through a standard 36\u201d door opening making this model machine easy and convenient to move around the facility.\n\nWater Table\n\nTechno Venus comes standard with Stainless steel water tank with extra high side walls keeping the messy sludge inside the tank with built in drain valve the Venus water table is easy to maintain.\n\nTechnical Support\n\nTechnical support, application engineering assistance, and remote diagnostics is FREE for the life of the machine via telephone, email, and remote logins\n\nOPTIONS:\n\nHypertherm Powermax 45, 65, 85, or 105\n\nConsumables\n\nProgramming Software\n\nSteel base with wheels\n\nFull Safety Enclosure\n\nSpark Skirt\n\nFEATURES:\n\n20\u201d x 30\u201d Process area\n\nPrecision ball screws on all three axes\n\nHypertherm Torch\n\nBrushless micro stepper motors and controls\n\nStainless steel water tray with vertical grid\n\nAutomatic torch height control\n\nLinear rails and bearings\n\nSSA Controller\n\nElectronic torch breakaway",
        "Specs": "FEATURES:\n\n20\u201d x 30\u201d Process area\n\nPrecision ball screws on all three axes\n\nHypertherm Torch\n\nBrushless micro stepper motors and controls\n\nStainless steel water tray with vertical grid\n\nAutomatic torch height control\n\nLinear rails and bearings\n\nSSA Controller\n\nElectronic torch breakaway",
        "Url": "edquip.co\/en\/techno-cnc\/venus-plasma",
        "Page title": "Venus Plasma: Techno CNC Systems - EDQUIP",
        "Page description": "The Venus Series CNC Plasma is constructed using rigid materials delivering ultra-smooth plasma cutting results. The Venus Series CNC Plasma can be equipped wit",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Industry-Grade Equipment",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Techno CNC Systems\/Venus Plasma\/Tecno-CNC-Systems_venus-tabletop-plasma-cutter_1.png",
        "Video link": null,
        "Main category": "CNC Training Machines"
    },
    {
        "Edquip ID": "PL-721679",
        "Product Type": "hardware",
        "Producer": "Techno CNC",
        "Producer product number": "Phoenix Plasma",
        "Content languages": "en",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Phoenix Plasma",
        "Description": "The Phoenix series CNC Plasma machine is all steel constructed, providing a rigid foundation to support heavy plate loads and delivering ultra-smooth plasma cutting results. The Phoenix Series CNC Plasma can be equipped with a variety of plasma torch power supplies, each one capable of cutting different material thicknesses. The gantry height is 7-1\/2\", which provides maximum flexibility to cut sheet goods and larger or taller welded assemblies, if desired.\n\nThe Phoenix Plasma provides the user a choice between a water table or down draft smoke evacuation. The machine includes stainless steel water trays that can be removed if the user chooses downdraft smoke evacuation. The machine drive motors are powerful NEMA 34 sized high speed stepper motors, directly coupled to a precision gearbox assembly and helical pinion for a direct drive advantage.\n\nThis provides optimum power, speed, and accuracy when cutting thin sheet metal or thicker plate stock. The plasma torch is cradled in an electronic, automatic, torch breakaway module, using a real time CNC torch height control system.\n\nThe Phoenix Plasma has a PC based industrial controller with a Windows 10 operating system and uses an Ethernet connection for high-speed communication and uninterrupted processing. The system interface is easy to learn, easy to use, and makes the machine operation simple for instructors and students. No other machine on the market includes all of these features and capabilities.\n\nSTEEL SLATS\n\nTechno\u2019s steel slats provide the best part cut quality reducing slat slag or weld to part that can effect contact edge finish.\n\nGANTRY\n\nThe gantry is constructed of tubular steel with reinforcing ribs welded throughout the length of the column which results in a steady firm beam assembly. This quality engineering and workmanship result in smooth precision cutting.\n\nDOWN DRAFT EXHAUST SYSTEM\n\nTechno provide dual fans for downdraft downdraft table. Each fan draws 250 CFM which assure a power smoke evacuation.\n\nWATER TABLE TRAY\n\nTechno provides the best of both worlds, giving the user the choice to use downdraft smoke evacuation or water table. Techno provides stainless steel trays, when filled with water will absorb about 90% of the smoke generated from the cutting.\n\nELECTRONIC TORCH BREAKAWAY\n\nThe Phoenix plasma torch is cradled in an electronic, automatic, torch breakaway module, using a real time CNC torch height control system.\n\nCONTROLLER\n\nOur New Techno PC based industrial SSA 5000 controller is a Windows 10 based operating system. System connection is Ethernet for high speed communication resulting in high speed uninterrupted processing.\n\nGANTRY UPRIGHTS\n\nThe gantry uprights are cast iron with heavy duty gussets formed into the casting. Each support is machined for housing the various drive assemblies including motors, bearings, belts, and wiring harnesses.\n\nMOTORS\n\nThe Phoenix Plasma Cutter utilizes brushless micro-stepper motors. These motors require no regular maintenance, therefore reducing any maintenance downtime.\n\nELECTRONICS\n\nAll the electrical components are housed and wired in a doubled-doored Nema 4 electrical enclosure. This allows for easy access and service when needed. All wiring is tagged so that when service is required, the customer can easily navigate the cabinet. In addition, the cabinet serves as a work bench for the tools required the program.\n\nTECHNICAL SUPPORT\n\nTechnical support, application engineering assistance, and remote diagnostics is FREE for the life of the machine via telephone, email, and remote logins\n\nFEATURES:\n\n- Available in 4\u2032 x 4\u2032, 4\u2032 x 8\u2032 and 5\u2032 x 10\u2032 stock sizes\n\n- PC based WinCNC Controller\n\n- Brushless drive motors\n\n- Precision Helical Rack-n-Pinion on X and Y axes with ballscrew on the Z axes\n\n- Unique design, easy to learn and operate\n\n- Water table \/ Steel slats \/ Down drafts\n\n- All steel construction for rigid platform\n\n- Cuts up to 1.5\u201d thick steel capacity\n\n- High-speed cutting up to 800 IPM\n\n- Magnetic Torch Break away\n\n- Multiple torch options available",
        "Specs": null,
        "Url": "edquip.co\/en\/techno-cnc\/phoenix-plasma",
        "Page title": "Phoenix Plasma: Techno CNC System - EDQUIP",
        "Page description": "The Phoenix series CNC Plasma machine is all steel constructed, providing a rigid foundation to support heavy plate loads and delivering ultra-smooth plasma cut",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Industry-Grade Equipment",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": null,
        "Other requirements": null,
        "Teacher materials": false,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Techno CNC Systems\/Phoenix Plasma\/Techno-CNC_Phoenix-Plasma_1.png",
        "Video link": null,
        "Main category": "CNC Training Machines"
    },
    {
        "Edquip ID": "PL-770131",
        "Product Type": "hardware",
        "Producer": "ID System Didactic",
        "Producer product number": "SHCO V3",
        "Content languages": "en, fr, de, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Documentation"
        ],
        "Name": "Hydraulic Training Bench SHCO V3",
        "Description": "The SHCO bench is a bench completely different from traditional panel benches. We designed this didcatic system in order to propose mixed equipment and thus provide training in both industrial and mobile hydraulics due to the components selected to produce this bench.\n\nThe SHCO didactic bench takes the form of a hydraulic power station, i.e. a real item of equipment such as is found in industry or in mobile machine manufacturing firms, rather than a hydraulic simulator or mock-up.\n\nWith this equipment, we place emphasis on:\n\nReflection on hydraulic diagrams Assembling and disassembling by the student of Cetop 3 industrial components, Identification of the hydraulic kinematic chain thanks to the physical arrangement of components on the plate.\n\nOpen circuit bench, On-Off or Porportional control or mixed control of these two technologies.",
        "Specs": "CETOP 3 function block for On\/Off controls\n\nHydraulic component warehouse.\n\nAxial piston pump with constant pressure regulation system and load sensing,\n\nPVG 32 valve for proportional control of receivers (as per version),\n\n3-axis proportional manipulator for PVG 32 control (as per version),\n\nElectrical connections by Harting connectors,\n\nSpecial block with adjustable pressure limiter,\n\nDouble acting cylinders,\n\nSingle acting cylinder,\n\nHydraulic motors,\n\nHydraulic connections with secured hoses and anti-pollution couplers.\n\n13 PRACTICAL WORK \u201c Exercises & Corrections\u201c paper and digital :\n\n- PW1 = Pressure relief valve\n- PW2 = Flow limiter at intake\n- PW3 = Flow limiter at exhaust\n- PW4 = Flow regulation\n- PW5 = Secondary pressure limiter\n- PW6 = Pressure reducing limiter\n- PW7 = Controlled check valve\n- PW8 = Constant pressure regulation\n- PW10 = Fixed displacement pump\n- PW11 = Variable displacement pump + PVG32\n- PW12 = Fixed displacement pump + KVM10\n- PW13 = Accumulator\n\n1 USB Key with 10 video tutorials explaining the 10 first practical works of the ID SYSTEM SHCO bench by a professional trainers ( hydraulic engineer)",
        "Url": "edquip.co\/en\/id-system\/hydraulic-didactic-bench-shco-v2",
        "Page title": "Hydraulic didactic bench SHCO V2: ID System - EDQUIP",
        "Page description": "Designed to provide training in both industrial and mobile hydraulics, this bench takes the form of a hydraulic power station. Suitable for technical training c",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V",
            "100-127V",
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023.00.00",
        "Equipment dimensions": "161\/96\/142",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "664",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "238\/120\/158",
        "Packed dimensions unit": "cm",
        "Packed weight": "830",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ID System Didactic\/Hydraulic Training Bench SHCO V3\/Hydraulic Training Bench SHCO V3_SHCO V3_ID System Didactic_SHCO-V3-sans-pied-et-ecran-DSF1384.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/P9uTpXFXrGg?si=ZyznEBpO1ldOvIsa",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-489392",
        "Product Type": "hardware",
        "Producer": "ID System Didactic",
        "Producer product number": "SHCO V3 4.0",
        "Content languages": "en, fr, de, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Documentation"
        ],
        "Name": "Hydraulic didactic bench SHCO V3 4.0",
        "Description": "The SHCO 4.0 bench has the same functionality as the SHCO-V2, with a difference that we have replaced the remote control by a new generation touch screen PLC.\n\nDigital control of the bench\n\nControl hydraulic functions of the bench through touch screen: bench start-up and commissioning, motors and cylinders control, command signal input for hydraulic proportional valves\u2026 Data visualization (flow, temperature, pressure, speed, oil level\u2026).\n\nRemote Access\n\nPilot the bench from anywhere at any time with a Smartphone, a tablet or a PC\u2026\n\nPerform remotely configurations through webserver , even on the other side of the world: breakdown simulation, analysis & maintenance\n\nPdf & videos Viewer\n\nLectures of the manuals, technical datasheets, exercise workbooks, demonstration videos associated to the benches.\n\nImport & export , record measurement data\n\nCurves, diagrams, values (flow, temperature, pressure, speed)\u2026",
        "Specs": "Details of the SHCO 4.0 hydraulic didactic bench\n\n- HMI 15.6\u2033 touch screen,\n- Interfaces with Audio output, SD Micro card, USB 2.0 ports,\n- Remote Control \u2013 Remote Access,\n- Import & Export, data recording,\n- .pdf & video Viewer.\n\n13 PRACTICAL WORK \u201c Exercises & Corrections\u201c paper and digital :\n\n- PW1 = Pressure relief valve\n- PW2 = Flow limiter at intake\n- PW3 = Flow limiter at exhaust\n- PW4 = Flow regulation\n- PW5 = Secondary pressure limiter\n- PW6 = Pressure reducing limiter\n- PW7 = Controlled check valve\n- PW8 = Constant pressure regulation\n- PW10 = Fixed displacement pump\n- PW11 = Variable displacement pump + PVG32\n- PW12 = Fixed displacement pump + KVM10\n- PW13 = Accumulator",
        "Url": "edquip.co\/en\/id-system\/hydraulic-didactic-bench-shco-40",
        "Page title": "Hydraulic didactic bench SHCO 4.0: ID System - EDQUIP",
        "Page description": "Designed to provide training in both industrial and mobile hydraulics, fully managed through a new generation touch screen PLC. Suitable for technical schools, ",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V",
            "100-127V",
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023.00.00",
        "Equipment dimensions": "161\/96\/142",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "664",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "238\/120\/158",
        "Packed dimensions unit": "cm",
        "Packed weight": "830",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ID System Didactic\/Hydraulic didactic bench SHCO V3 4.0\/Hydraulic didactic bench SHCO V3 4.0_SHCO V3 4.0_ID System Didactic_SHCO-v3-ecran-deporte_DSF2806.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/p4-v2M4cZzk?si=6C9zfFaaVPgohJHd",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-884963",
        "Product Type": "hardware",
        "Producer": "ID System Didactic",
        "Producer product number": "BHT3",
        "Content languages": "en, fr, de, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Documentation"
        ],
        "Name": "Hydrostatic transmission training system BHT3",
        "Description": "Place the students into transmission situation like a real agricultural machine The hydrostatic transmission bench BHT3 is intended for trainings in mobile hydraulics.\n\n\u200b\n\nIt offers the possibility to understand the basic principles of a closed circuit. It is equipped with a POCLAIN pump with its configured calculator by computer.\n\nAll the receivers (motors and cylinders) are coupled to opposing loads or actuators to simulate a resistance force as real mobile machinery.\n\nA data logger kit with flow, pressure and temperature sensors allows taking measurements at different points in the circuit.\n\nThe BHT3 didactic bench can be coupled with the SHDH operative part, thus allowing your students to complete their training in the fundamental principles of hydrostatic transmission.",
        "Specs": "Description of functions and manipulations\n\nThe BHT3 bench is designed to help understand the fundamental principles of the closed circuit (Hydrostatic):\n\n- The hydraulic unit is started up by an ON\/OFF button on the front face of the panel.\n- Machine forward and reverse movements are simulated by rotating in one direction or the other of the hydraulic motors as well as modulating wheel rotation speed.\n- Rotation speed and direction are controlled by a proportional solenoid valve control joystick.\n- The effects of inertial mass on the hydraulic circuit are ensured by a 40kg weight coupled directly to the shaft of a receiving motor.\n- The exchange valve equipped with pressure limiter, performing the shock-absorbing valve function, limits the pressure peak on clean stopping of rotation, and discharges the excess to the other channel to ensure boosting.\n- The effects of a variable load on the hydraulic circuit are ensured by the antagonistic motor connected to a braking unit comprising a 7\/100b pressure limiter on each channel (100b on the antagonistic motor side = 150b approx. on the receiver side with the displacement ratio), by a bypass 2\/2 valve with possibility of disengaging the receiver from its antagonistic motor by means of a lever.\n- Circuit flow rate and pressure are read by a flow-meter on line A and by pressure taps mounted at various points on the hydraulic circuit.\n- Pressures, flow rates, temperatures and rotation speeds are displayed and can be recorded using the MC4000 control box.\n\nDetails of the BHT3 hydraulic didactic bench \u2013 Hydrostatic transmission :\n\n- 5.5 kW 3Ph electric motor coupled to a 18 cm3 hydrostatic pump + 7 cm3 booster pump,\n- Hydraulic motor with 40 Kg inertial load,\n- Disengaging system for uncoupling antagonistic motors,\n- Circuit cooling by a 2-pass cooling tower,\n- Control joystick,\n- Flowrate, pressure, temperature and data acquisition measurements.\n\nDescription of the \"PHASES\" software\n\nCreated by POCLAIN, the \u201cPHASES\u201d programming software allows us to send the programming file to the pump.\n\nIn particular, PHASES is designed to:\n\n- update the software embedded in the computer,\n- adjust and manage the computer operating parameters,\n- calibrate the sensors connected to the computer and check operation,\n- diagnose any hydrostatic transmission malfunctions by displaying the history of the logic errors memorised by the computer.",
        "Url": "edquip.co\/en\/id-system\/hydrostatic-transmission-training-system-bht3",
        "Page title": "Hydrostatic transmission training system BHT3: ID System - EDQUIP",
        "Page description": "This hydrostatic transmission bench is intended for trainings in mobile hydraulics. Designed for education and training, it is suitable for schools, colleges an",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V",
            "100-127V",
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023.00.00",
        "Equipment dimensions": "135\/81\/180",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "490",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "198\/92\/100",
        "Packed dimensions unit": "cm",
        "Packed weight": "650",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ID system\/Hydrostatic transmission training system BHT3\/banc-didactique-hydraulique-transmission-hydrostatique-bht3-768x907.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/i9tI5Q6rfdc?si=_cQX73UXF_lPl4_f",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-182532",
        "Product Type": "hardware",
        "Producer": "ID System Didactic",
        "Producer product number": "SHDH",
        "Content languages": "en, fr, de, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Documentation"
        ],
        "Name": "Hydrostatic drive and wheel motor SHDH",
        "Description": "Learn more about hydrostatic transmission and steering\n\nThe operative part SHDH is dedicated specifically to the mobile hydraulic trainings.\n\nThe SHDH offers completing trainings to our BHT3 bench in basic principles of a hydrostatic transmission.\n\nThanks to its drive and wheel motor design, students will understand and analyse more easily external constraints (realized by the mechanical steering on the wheel) on the hydraulic kinematics of a closed circuit.\n\nThis operative part is therefore the ideal complement system to our BHT3 bench to gain addtional skills and knowledge of a complete hydrostatic transmission.",
        "Specs": "Description of functions and manipulations\n\nThe SHDH bench is designed to help understand the fundamental principles of hydrostatic steering:\n\n- The composition of hydrostatic steering\n- The effects of flywheel rotation on the steering cylinder\n- The effects of Orbitrol flowrate variation on wheel slant\n- Speed management of the POCLAIN hydrostatic wheel motor\n- The effects on speed and pressure of a mechanical load on the hydrostatic motor wheel.\n\nDetails of the SHDH operative part\n\n- Steering Orbitrol and column with its pressure limiter, shock absorbers and anti-cavitation valves,\n- Poclain 255cm3 hydrostatic wheel motor with inductive sensor,\n- Antagonistic effort bar on the wheel driven by a pump,\n- Double-action steering cylinder (wheel orientation),\n- Distribution and control block,\n- Steering wheel and control joystick of the hydrostatic wheel motor simulating control of forward and reverse movements of a vehicle.",
        "Url": "edquip.co\/en\/id-system\/hydrostatic-drive-and-wheel-motor-shdh",
        "Page title": "Hydrostatic drive and wheel motor SHDH: ID System - EDQUIP",
        "Page description": "Designed to teach students about hydrostatic transmission and steering. Suitable for technical schools, training centers, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 3,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V",
            "100-127V",
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023.00.00",
        "Equipment dimensions": "160\/95\/150",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "400",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "152\/103\/159",
        "Packed dimensions unit": "cm",
        "Packed weight": "560",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ID system\/SHDH\/Operative-part-SHDH-\u2013-Hydrostatic-drive-and-wheel-motor.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/mcBhEspj6iA?si=-GjBmaqLHr685Zm8",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-264005",
        "Product Type": "hardware",
        "Producer": "ID System Didactic",
        "Producer product number": "POGT",
        "Content languages": "en, fr, de, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Documentation"
        ],
        "Name": "Telescopic Crane Training System POGT",
        "Description": "The POGT telescopic crane operative part represents a real industrial system allowing students to be placed in simulated real-life situations and to materialise hydraulic functions.\n\nThe kinematics provide for 4 movements: stabilisers, grasping\/lifting, telescope, and tipper truck.\n\nThis \u201cStandalone\u201d version is equipped with a generation set, with manual\/electrical control valves and with a PLC for operation in automatic cycle.\n\nThe \u201cNon-Standalone\u201d POGT Operative Part represents a real telescopic crane allowing students to be placed in simulated real-life situations in a safety approach in order to materialize hydraulic functions.\n\nFor which sector is this standalone telescopic crane bench intended?\n\nIt is intended for the following sectors:\n\n- Industrial maintenance,\n- Equipment maintenance (Agriculture, Public Works, and Parks & Gardens),\n- Agricultural equipment,\n- Maritime and naval.",
        "Specs": "Characteristics of the telescopic crane bench, manual version\n\n- 4 stabilizers\n- 1 lifting cylinder\n- 1 x 80 kg load\n- 1 telescope cylinder with double balancing valve\n- 1 tipper cylinder\n- 3 x 4\/3valves with indexed manual control\n- 1 double flow limiter\n- 1 pressure gauge",
        "Url": "edquip.co\/en\/id-system\/telescopic-crane-training-system-pogt",
        "Page title": "Telescopic Crane Training System POGT: ID System - EDQUIP",
        "Page description": "Designed for training in real industrial system allowing students to be placed in simulated real-life situations and to materialise hydraulic functions.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "24 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023.00.00",
        "Equipment dimensions": "240\/110\/130",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "630",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "260\/126\/164",
        "Packed dimensions unit": "cm",
        "Packed weight": "830",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ID system\/Telescopic Crane Training System POGT\/PO-GT-v2-Telescopic-crane-training-bench-standalone-version-768x907.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/hb7myKCqmRc?si=0Q9_4SpC8vW_E9eF",
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-978491",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SOLAR-PV",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Photovoltaic Solar Panel Measurement Trainer",
        "Description": "Didactic system for the theoretical and practical study of photovoltaic solar panels.\n\nWith the photovoltaic solar panel measurement trainer, it is possible to perform experiments indoor and outdoor to determine and measure the characteristics of different types of photovoltaic panels and connections.\n\nThe system is provided with connecting cables, instruments and experiments and learning activities manual.\n\nTRAINING OBJECTIVES\n\n- Solar panels under a variety of effects.\n- Short-circuit current of a PV panel.\n- Open-circuit voltage of a PV panel.\n- Current at maximum output of a PV panel.\n- Voltage at maximum output of a PV panel.\n- Relationship between panel tilt, illuminance, short-circuit current and electrical output: Relationship between panel tilt and irradiation, Relationship between the solar panel output voltage and the irradiation, Relationship between the solar panel short-circuit current and irradiation.\n- Determining the efficiency of a PV panel.\n- Comparing different panel types.\n- Series and parallel connections: Series connection of two solar panels, Parallel connection of two solar panels.",
        "Specs": "- Two polycrystalline inclinable photovoltaic panels: approx. 90W, 12V, complete with a cell for measuring the solar irradiance and a temperature sensor each.\n- Two monocrystalline inclinable photovoltaic panels: approx. 85 W, 12V, complete with a cell for measuring the solar irradiance and a temperature sensor each.\n- Two Sun simulators consisting of halogen lamps to provide energy to the photovoltaic modules for indoor use.\n- One active DC load used in the renewable energies laboratories configurable as constant resistance or constant current.\n- One multifunction Photovoltaic panel measurement module with 2 solar irradiance and solar panel temperature meters, 2 DC multi-meters (current, voltage and power) and Modbus RTU serial communication for remote data acquisition. It includes diodes to connect the solar panels in series and parallel and a potentiometer to control the power of the sun simulator modules.\n- Temperature and solar irradiance sensor module.\n\nSOFTWARE\n\nThe Photovoltaic Solar Panel Measurement Trainer is supplied with a software developed in LabVIEW that communicates with the main components of the modular system via RS485 serial communication using Modbus RTU protocol to perform data acquisition and processing.",
        "Url": "edquip.co\/en\/de-lorenzo\/photovoltaic-solar-measurement-trainer",
        "Page title": "Photovoltaic Solar Measurement Trainer: De Lorenzo - EDQUIP",
        "Page description": "Solar PV training equipment. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Fundamental Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "243 x 35 x 126",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "50",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "255 x 62 x 164",
        "Packed dimensions unit": "cm",
        "Packed weight": "78",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Photovoltaic Solar Measurement Trainer\/Photovoltaic Solar Measurement Trainer dl-solar-pv.jpg",
        "Video link": null,
        "Main category": "Solar Training System"
    },
    {
        "Edquip ID": "PL-675785",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL WIND-WT",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Micro-grid Wind Turbine Trainer",
        "Description": "Modular trainer for the theoretical and practical study of the electric energy generation from a wind turbine.\n\nThe system is composed of laboratory didactic panels installed on a vertical frame and a three-phase wind turbine to be installed on the rooftop.\n\nWith the Micro-Grid Wind Turbine Trainer, it is possible to perform experiments to study the conversion from wind energy into electrical energy, and measure the system parameters such as wind speed, turbine speed, electrical power and efficiency on a real wind turbine installed outdoor.\n\nTRAINING OBJECTIVES\n\n- Identification of wind turbine components\n- Wind turbine installation and testing\n- Anemometer installation and testing\n- Operating the wind turbine and anemometer\n- Operating the wind turbine breaker\n- Measuring wind power\n- Measuring wind turbine electrical power\n- Wind speed vs rpm\n- Wind speed vs power\n- Calculating wind turbine power coefficient Cp\n- Using the wind turbine to charge the Battery\n- Study of the wind turbine with load.",
        "Specs": "Laboratory equipment\n\n- Three phase rectifier bridge module\n- Battery 100 Ah complete with battery protection module\n- Wind turbine charge controller with brake\n- Active DC load used in the renewable energies laboratories configurable as constant resistance or constant current.\n- Multifunction measurement module: wind speed (m\/s), wind direction (degrees), wind turbine speed (rpm), 2 AC power meters (512Vac, 20Aac, 1000W).\n- AC and DC power meter: (0-750 Vac\/dc, 0-20Aac\/dc, 0-1000W).\n\nRooftop Wind Turbine equipment\n\n- Three phase wind turbine (400 W, 12 Vac)\n- A cylindrical 4 meters-tall pole with a base plate with complete kit for permanent outdoor installation.\n- 5 meters three phase cable\n- Anemometer with wind direction sensor\n\nSOFTWARE\n\nhe Micro-grid Wind Turbine Trainer is supplied with a software developed in LabVIEW that communicates with the main components of the modular system via RS485 serial communication using Modbus RTU protocol to perform data acquisition and processing.\n\nNote: Wind turbine installation not included",
        "Url": "edquip.co\/en\/de-lorenzo\/microgrid-wind-generation-trainer",
        "Page title": "Microgrid wind generation trainer: De Lorenzo - EDQUIP",
        "Page description": "Micro-Grid hands on Wind Turbine Trainer. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "170 x 35 x 500",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "40",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "182 x 62 x 538",
        "Packed dimensions unit": "cm",
        "Packed weight": "68",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Microgrid wind generation trainer\/Microgrid wind generation trainer dl-wind-wt.jpg",
        "Video link": null,
        "Main category": "Wind Energy Training Systems"
    },
    {
        "Edquip ID": "PL-170105",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "TKC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Kaplan Turbine",
        "Description": "The [\"TKC\" Computer Controlled Kaplan Turbine](https:\/\/www.edibon.com\/en\/computer-controlled-kaplan-turbine) by [EDIBON](https:\/\/www.edibon.com\/en\/) is a scaled-down Kaplan turbine featuring adjustable guide vanes in a ring configuration. These vanes enable precise control over the water flow entering the turbine. The system is equipped with a computer-controlled pump to drive the fluid through the turbine, where it transfers part of its energy, causing the turbine to rotate. This rotation is controlled and can be varied by an electromagnetic brake, which allows adjustments to the braking load for in-depth study of turbine performance under different conditions.\n\nThe unit includes several sensors to monitor critical parameters: a pressure sensor at the turbine inlet to measure water pressure, a flow sensor to track water flow into the turbine, an optical sensor to capture the turbine shaft speed, and additional pressure sensors on the pump inlet and outlet to help generate the pump's characteristic curve. The setup also features a tank and recirculating piping system to ensure constant use of the same fluid, conserving water.\n\nComplete with [EDIBON](https:\/\/www.edibon.com\/en\/)'s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)-based Computer Control System, the TKC comes with a Control Interface Box, a Data Acquisition Board, and control, data acquisition, and data management software, allowing users to monitor and control the full turbine operation and analyze the data for each process parameter in detail.",
        "Specs": "- [TKC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-kaplan-turbine):\n\n- Bench-top unit.\n- Anodized aluminum frame and panels made of painted steel.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Functional model of Kaplan turbine, a ring with adjustable guide vanes that allows to control the water flow in the turbine.\n- Computer controlled centrifugal water pump.\n- Transparent water tank, capacity.\n- Regulation valve.\n- Electromagnetic brake.\n- nstrumentation.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized EDIBON Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the EDIBON Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- TKC\/CIB. Control Interface Box.\n- TKC\/CCSOF. PID Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- - Determination of the operating characteristics of a Kaplan turbine at different speeds.\n- Investigation of the conversion of hydraulic energy into mechanical energy.\n- Determination of the characteristic curves of a Kaplan turbine: power (W), torque (Nm) and efficiency (%) as a function of the turbine speed and the inlet flow rate.\n- Determination of the characteristic curve of a hydraulic pump.\n- Determination of the height of a hydraulic turbine.\n- Effect of guide vanes setting on the turbine performance.\n- Adimensional analysis.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-kaplan-turbine",
        "Page title": "Computer Controlled Kaplan Turbine: Edibon - EDQUIP",
        "Page description": "Kaplan turbine for technical education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "800 x 900 x 1100 mm approx.  (31.49 x 35.43 x 43.30 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "75",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Kaplan Turbine\/Computer Controlled Kaplan Turbine_TKC.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-357064",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "TPC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Pelton Turbine",
        "Description": "The Pelton Turbine, Computer Controlled (PC), \"TPC\", consists of a small-scale Pelton turbine, with a valve that allows the flow to be regulated. The turbine includes a PELTON runner with 16 buckets, which can be clearly seen through the turbine\u2019s transparent casing.\n\nIn order to raise the fluid, it has a computer controlled pump that enables the impelled flow to pass through the turbine, in which part of its energy is left, causing the turbine to turn, overcoming the external resistance caused by an electromagnetic brake. This computer controlled brake makes it possible to vary the braking load on the turbine.\n\nIn addition, the unit is equipped with a pressure sensor placed at the turbine water inlet which measures the inlet pressure, a flow sensor to measure the turbine water inlet flow, an optical sensor which determines the speed of the turbine shaft and has two pressure sensors at the pump inlet and outlet, in order to obtain its characteristic curve.\n\nThe pump-turbine group has a tank and a pipes system which allow to work constantly with recirculated fluid to avoid the indiscriminate water consumption.\n\nThis Computer Controlled Unit is supplied with the EDIBON Computer Control System (SCADA), and includes: The unit itself + a Control Interface Box + a Data Acquisition Board + Computer Control, Data Acquisition and Data Management Software Packages, for controlling the process and all parameters involved in the process.\n\nEXERCISES AND GUIDED PRACTICES\n\n- To determine the operating characteristics of a Pelton turbine at different speeds.\n\n- Investigation of the conversion of hydraulic energy into mechanical energy.\n\n- Determination of the characteristic curves of a turbine: Power M (n, Ha), Torque Nm (n, Ha), efficiency h (n, Ha).\n\n- Determination of the characteristic curve of a hydraulic pump.\n\n- Determination of the height of a hydraulic turbine.\n\n- Adimensional analysis.\n\n- Calibration of sensors.\n\n- Many students view results simultaneously. To view all results in real time in the classroom by means of a projector or an electronic whiteboard.\n\n- Open Control, Multicontrol and Real Time Control. This unit allows intrinsically and\/or extrinsically to change the span, gains, proportional, integral, derivative parameters, etc, in real time.\n\n- The Computer Control System with SCADA and PID Control allow a real industrial simulation.\n\n- This unit is totally safe as uses mechanical, electrical and electronic, and software safety devices.\n\n- This unit can be used for doing applied research.\n\n- This unit can be used for giving training courses to Industries even to other Technical Education Institutions.\n\n- Control of the TPC unit process through the control interface box without the computer.\n\n- Visualization of all the sensors values used in the TPC unit process.\n\n- By using PLC-PI additional 19 more exercises can be done.\n\n- Several other exercises can be done and designed by the user.",
        "Specs": "The [\"TPC\" Computer Controlled Pelton Turbine](https:\/\/www.edibon.com\/en\/computer-controlled-pelton-turbine) by [EDIBON](https:\/\/www.edibon.com\/en\/) is a small-scale model designed for precise control and analysis of Pelton turbine operations. It features a 16-bucket Pelton runner, which is fully visible through its transparent casing, along with a flow-regulating valve to adjust water entry into the turbine.\n\nTo drive the fluid, the turbine is equipped with a computer-controlled pump that channels flow through the turbine, transferring energy to induce rotation. This motion is controlled by an electromagnetic brake that enables adjustable braking load, allowing for detailed investigation of turbine performance under varied conditions.\n\nThe [TPC](https:\/\/www.edibon.com\/en\/computer-controlled-pelton-turbine) includes multiple sensors for comprehensive monitoring: a pressure sensor at the turbine inlet to measure incoming water pressure, a flow sensor to track water flow into the turbine, and an optical sensor to capture the turbine shaft speed. Additionally, two pressure sensors at the pump inlet and outlet provide data for constructing the pump's characteristic curve. The system includes a recirculating tank and pipeline setup, ensuring sustainable fluid use by reusing water throughout the operation.\n\nThis unit integrates seamlessly with [EDIBON](https:\/\/www.edibon.com\/en\/)\u2019s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)-based Computer Control System. It includes a Control Interface Box, Data Acquisition Board, and software for process control, data acquisition, and data management, enabling users to monitor, control, and analyze all aspects of the turbine's operation and performance metrics in real time.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-pelton-turbine",
        "Page title": "Computer Controlled Pelton Turbine: Edibon - EDQUIP",
        "Page description": "Pelton turbine, for technical education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "800 x 900 x 800 mm approx.  (31.49 x 35.43 x 31.49 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "15",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Pelton Turbine\/Computer Controlled Pelton Turbine_TPC.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-224575",
        "Product Type": "hardware",
        "Producer": "DIKOIN",
        "Producer product number": "TH 04.4",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Documentation"
        ],
        "Name": "Autonomous Electric Brake Kaplan Turbine",
        "Description": "The equipment is designed for the study and visualization of both the behavior and the characteristics of a Kaplan turbine.\n\nThe turbine can be operated in a totally autonomous way, thanks to the equipment is composed of water tank, pump and all the necessary instruments, on a mobile laboratory car.\n\nThe equipment is designed for the study and visualization of both the behavior and the characteristics of a Kaplan turbine.\n\nThrough the different indicators of the system, you can see all the variables that come into play in the transformation of energy.\n\nLearning objectives\n\n- Characteristic curves of the turbine:\n\n- Torque \u2013 rotational speed (M-n).\n\n- Brake power \u2013 Rotational speed (Pe- n).\n\n- Efficiency \u2013 rotational speed (h \u2013 n).\n\n- Torque \u2013 U (M-U).\n\n- Brake power \u2013 U (Pe- U).\n\n- Efficiency \u2013 U (h\u2013 U).\n\n- Iso-performance curves.\n\nTechnical Data\n\n- Type of Brake: Braking with Electric Brake.\n\nTurbine:\n\n- Type: Kaplan\n\n- Number of impeller blades: 4\n\n- Angle of the impeller blades: Variable, with adjustment by impeller exchange.\n\n- Guide pallets\n\nStructure:\n\n- The equipment is supplied on an aluminum structure, with tank and pump, in which the necessary flow is generated for the turbine.\n\nElectronic components:\n\n- Pressure transducer.\n\n- Differential pressure sensor.\n\n- Direct rpm detection sensor.\n\n- Load cell for torque measurement.\n\n- Data acquisition card.\n\nOther elements:\n\n- PC with software.\n\nRequirements\n\n- Input: 230V\/50Hz. (Others like option)",
        "Specs": "Technical Data\n\n- Type of Brake: Braking with Electric Brake.\n\nTurbine:\n\n- Type: Kaplan\n\n- Number of impeller blades: 4\n\n- Angle of the impeller blades: Variable, with adjustment by impeller exchange.\n\n- Guide pallets\n\nStructure:\n\n- The equipment is supplied on an aluminum structure, with tank and pump, in which the necessary flow is generated for the turbine.\n\nElectronic components:\n\n- Pressure transducer.\n\n- Differential pressure sensor.\n\n- Direct rpm detection sensor.\n\n- Load cell for torque measurement.\n\n- Data acquisition card.\n\nOther elements:\n\n- PC with software.\n\nRequirements\n\n- Input: 230V\/50Hz. (Others like option)",
        "Url": "edquip.co\/en\/dikoin\/autonomous-electric-brake-kaplan-turbine",
        "Page title": "Autonomous Electric Brake Kaplan Turbine",
        "Page description": "Didatic training system for study and visualization of both the behavior and the characteristics of a Kaplan turbine. Suitable for schools and colleges.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
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        "Equipment weight unit": null,
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        "Packed dimensions unit": null,
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        "Packed weight unit": null,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Dikoin\/Autonomous Electric Brake Kaplan Turbine\/Autonomous_Electric_Brake_Kaplan_Turbine_Dikoin_1.jpg",
        "Video link": null,
        "Main category": "Hydropower Training Systems"
    },
    {
        "Edquip ID": "PL-284108",
        "Product Type": "hardware",
        "Producer": "DIKOIN",
        "Producer product number": "TH 04.1 ",
        "Content languages": "en, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "Documentation"
        ],
        "Name": "Autonomous Electric Brake Pelton Turbine",
        "Description": "The turbine housing is transparent so that can be viewed as the turbine uses the inertia that transfers a water jet which propels the recoil principle.\n\nRegulating valve has water inlet, which allows working with different flows as required.\n\nThe braking system by electric brake allows working at different speeds.\n\nThe equipment is computerized which means that the inlet pressure to the turbine, the flow, the braking torque, ultimately, all variables are displayed in the integrated team structure computer.\n\nLearning objectives\n\n- Turbine characteristic curves:\n\n- Torque \u2013 speed (M-n).\n\n- Brake power \u2013 speed (Pe- n).\n\n- Performance \u2013 speed (h \u2013 n).\n\n- Torque \u2013 U (M-U).\n\n- Brake power \u2013 U (Pe- U).\n\n- Performance \u2013 U (h\u2013 U).\n\n- Iso-performance curves.\n\nTechnical Data:\n\nBrake Type:\n\n- Electric brake.\n\nTurbine:\n\n- Type: Pelton\n\n- Number of blades: 16.\n\n- Wheel diameter 124 mm.\n\n- Bucket depth 14 mm.\n\n- Jet diameter 10 mm.\n\n- Shaft diameter 16 mm.\n\n- Rated speed 1,900 rpm\n\n- Transparent front plate to visualize the Pelton wheel working.\n\nStructure:\n\n- The equipment is provided on an aluminum frame, with tank and pump, in which the required flow for the turbine is generated.\n\nElectronic components:\n\n- Pressure transducer.\n\n- Rpm direct detection sensor.\n\n- Load cell for measuring the torque.\n\n- Data acquisition module.\n\nOther elements:\n\n- Computer with touch screen attached to the main control panel.\n\n- The system is controlled with the computer (not only data acquisition).\n\nRequirements:\n\n- Power supply: 230V \/ 50 Hz.",
        "Specs": "Technical Data:\n\nBrake Type:\n\n- Electric brake.\n\nTurbine:\n\n- Type: Pelton\n\n- Number of blades: 16.\n\n- Wheel diameter 124 mm.\n\n- Bucket depth 14 mm.\n\n- Jet diameter 10 mm.\n\n- Shaft diameter 16 mm.\n\n- Rated speed 1,900 rpm\n\n- Transparent front plate to visualize the Pelton wheel working.\n\nStructure:\n\n- The equipment is provided on an aluminum frame, with tank and pump, in which the required flow for the turbine is generated.\n\nElectronic components:\n\n- Pressure transducer.\n\n- Rpm direct detection sensor.\n\n- Load cell for measuring the torque.\n\n- Data acquisition module.\n\nOther elements:\n\n- Computer with touch screen attached to the main control panel.\n\n- The system is controlled with the computer (not only data acquisition).\n\nRequirements:\n\n- Power supply: 230V \/ 50 Hz.",
        "Url": "edquip.co\/en\/dikoin\/autonomous-electric-brake-pelton-turbine",
        "Page title": "Autonomous Electric Brake Pelton Turbine",
        "Page description": "Didactic training equipment for studying a Pelton turbine. Fully controlled via computer. Suitable for technical schools, colleges, universities etc.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
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        "Equipment dimensions unit": "",
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        "Equipment weight unit": "",
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        "Packed dimensions unit": "",
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        "Packed weight unit": "",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Dikoin\/Autonomous Electric Brake Pelton Turbine\/Autonomous_Electric_Brake_Pelton_Turbine_Dikoin_1.jpg",
        "Video link": null,
        "Main category": "Hydropower Training Systems"
    },
    {
        "Edquip ID": "PL-680108",
        "Product Type": "hardware",
        "Producer": "ASTI Automation",
        "Producer product number": "AA900.030.01",
        "Content languages": "en, ro",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Smart Vibration Analysis Learning System (IFM)",
        "Description": "The Vibration Analysis Learning System with IFM technology offers a complete solution for vibration monitoring, conditional monitoring (condition-based monitoring based on vibration characteristics) and machine protection \/ process monitoring (monitoring vibration characterises in real time with very fast reaction, up to 1 ms).\n\nThe system includes a powerful monitoring tool that can observe up to 24 objects ((indicators for different machine parts, vibration characteristics or process values) such as dynamic values within the time range (e.g. v-RMS to ISO) \u2013dynamic values within the frequency range FFT or H-FFT (e.g. imbalance or rolling element bearing) and share information via Profinet.\n\nThe equipment includes one Siemens inverter for motor control and a table-top frame with start\/stop button, 30mA protection fuse, ESD button and multiple power sockets.\n\nThe structure includes:\n\n1 x AA031.010.05 - Condition monitoring system (VSE150)\n\n1 x AA200.000.05 - Table-Top Stand for Training Panels with Modular Supply Panel\n\nSIZE (W x H x D): Table-Top Stand with the Training Panels: 910 x 800 X 370 mm\n\nNET WEIGHT: 27.85 kg\n\nTHE PACKAGE ALSO INCLUDES: Power cables, User manuals.\n\nOPTIONAL EQUIPMENT:\n\nAA600.102.01 - PROSIM V+ 10.5 inch Tablet Display (MICROSOFT)\n\nAA600.103.01 - PROSIM V+ALL IN ONE PC27\"TOUCH (ASUS)\n\nAA050.000.01 - Remote Communication Panel (SiteManager SECOMEA)\n\nAA050.100.01 - Remote Communication Licence (LinkManager SECOMEA)",
        "Specs": "SIZE (W x H x D): Table-Top Stand with the Training Panels: 910 x 800 X 370 mm\n\nNET WEIGHT: 27.85 kg\n\nTHE PACKAGE ALSO INCLUDES: Power cables, User manuals.",
        "Url": "edquip.co\/en\/asti-automation\/smart-vibration-analysis-learning-system",
        "Page title": "SMART VIBRATION ANALYSIS LEARNING SYSTEM",
        "Page description": "A complete solution for vibration monitoring, conditional monitoring (condition-based monitoring based on vibration characteristics) and machine protection.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
        "Equipment weight": null,
        "Equipment weight unit": "",
        "Packed dimensions": null,
        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ASTI Automation\/Smart Vibration Analysis Learning System (IFM)\/SMART VIBRATION ANALYSIS LEARNING SYSTEM (IFM)_ASTI Automation.png",
        "Video link": null,
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-742333",
        "Product Type": "hardware",
        "Producer": "ASTI Automation",
        "Producer product number": "AA900.030.02",
        "Content languages": "en, ro",
        "Targeted audience": "Technicians",
        "Training types": [
            "Documentation",
            "In person",
            "Live online"
        ],
        "Name": "Advanced Smart Vibration Analysis Learning System (SIEMENS)",
        "Description": "The SMART Vibration Analysis Learning System (BVALS) is a versatile platform for a broad range of maintenance tasks on various manufacturing processes.\n\nThe BVALS has been designed to incorporate several highly valuable didactic topics which include the measuring of specific variables, thus enabling the machine monitorization and effective protection during operation.\n\nThe most important measured variables are those that best describe the state of the machine. Mechanical vibration is of special significance in this regard.\n\nThe SIPLUS CMS1200 module has been chosen for this platform due to its crucial contribution toward greater plant availability.\n\nINCLUDES:\n\n1 x AA031.010.04 - VALS 1200 Training System (SM 1281)\n\n1 x AA042.000.02 - Sinamics G120 Training Panel\n\n1 x AA200.000.05- Table_Top Stand for training panels with Power Supply\n\nSIZE (W x H x D): Table-Top Stand with the Training Panels: 910 x 800 X 370 mm\n\nNET WEIGHT: 27.85 kg\n\nTHE PACKAGE ALSO INCLUDES: Power cables, User manuals.\n\nOPTIONAL EQUIPMENT:\n\nAA600.102.01 - PROSIM V+ 10.5 inch Tablet Display (MICROSOFT)\n\nAA600.103.01 - PROSIM V+ALL IN ONE PC27\"TOUCH (ASUS)\n\nAA050.000.01 - Remote Communication Panel (SiteManager SECOMEA)\n\nAA050.100.01 - Remote Communication Licence (LinkManager SECOMEA)",
        "Specs": "SIZE (W x H x D): Table-Top Stand with the Training Panels: 910 x 800 X 370 mm\n\nNET WEIGHT: 27.85 kg\n\nTHE PACKAGE ALSO INCLUDES: Power cables, User manuals.",
        "Url": "edquip.co\/en\/asti-automation\/advanced-smart-vibration-learning-system-siemens",
        "Page title": "ADVANCED SMART  VIBRATION ANALYSIS LEARNING SYSTEM (SIEMENS)",
        "Page description": "The SMART Vibration Analysis Learning System (BVALS) is a versatile platform for a broad range of maintenance tasks on various manufacturing processes.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
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        "Equipment weight unit": "",
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        "Packed dimensions unit": "",
        "Packed weight": null,
        "Packed weight unit": "",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ASTI Automation\/Advanced Smart Vibration Analysis Learning System (SIEMENS)\/ADVANCED SMART VIBRATION ANALYSIS LEARNING SYSTEM (SIEMENS) ASTI Automation.jpg",
        "Video link": null,
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-344252",
        "Product Type": "hardware",
        "Producer": "ASTI Automation",
        "Producer product number": "AA900.020.01",
        "Content languages": "en, ro",
        "Targeted audience": "Technicians",
        "Training types": [
            "Live online",
            "In person",
            "Documentation"
        ],
        "Name": "Smart PLC Programming Learning System",
        "Description": "The basic PLC programming system is built around an industrial process simulator (ProSimT) for immersive and engaging virtual learning experiences in industrial automation training, research, and development.\n\nIt offers a complete software package (34 scenarios) for discrete and continuous automation processes in various fields of industry. The simulated process list, in increasing order of complexity, covers rich 2D\/3D graphics and animations running on a large 15\u201d capacitive display.\n\nThe Siemens S7-1200 PLC includes industrial standardized 14DI\/10DO\/2AI\/2AO IO interface and PROFINET connection for programming and data linking. The Siemens KTP700 provides basic graphic capabilities. The solution includes 34 demo projects.\n\nThe structure includes:\n\n1 x AA066.001.02 - PLC S7-1200 Training Panel (CPU 1215C, KTP 700) SIEMENS\n\n1 x AA600.101.03 - PROSIM V+ Smart Digital Coupler\n\n1 x AA600.103.01 - PROSIM V+ALL IN ONE PC27\"TOUCH (ASUS)\n\n1 x AA200.000.05 - Table-Top Stand for Training Panels with Modular Supply Panel",
        "Specs": null,
        "Url": "edquip.co\/en\/asti-automation\/smart-plc-programming-learning-system",
        "Page title": "Smart PLC Programming Learning System",
        "Page description": "The basic PLC programming system is built around an industrial process simulator (ProSimT) for immersive and engaging virtual learning experiences in industrial",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": "",
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        "Equipment weight unit": "",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/ASTI Automation\/Smart PLC Programming Learning System\/Smart_PLC_Programming_Learning_System_ASTI_Automation.png",
        "Video link": null,
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-555319",
        "Product Type": "hardware",
        "Producer": "ASTI Automation",
        "Producer product number": "AA800.000.01",
        "Content languages": "en, ro",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Smart Sensors & Communications Training System",
        "Description": "IFM \"SENSORS & COMMUNICATIONS\" TRAINING SYSTEM includes:\n\nAA200.000.05 TABLE_TOP STAND with Supply Panel (850 x 760)mm\n\nAA044.000.03 PLC S7-1200 Training Panel(CPU 1215C 8DI_8DO_2AI_2AO), SWITCH SCALANCE XB005\n\nAA026.000.03 KTP700 HMI TRAINING PANEL\n\nAA045.000.01 SINAMICS V90 TRAINING PANEL\n\nAA060.000.02 IFM AS-i AC402S TRAINING PANEL\n\nAA094.101.06 Conveyor Belt with SIMOTICS S-1FL6(servo) V90\n\nAA095.100.01 3D PIECES ( 1 set) \/\/ AA059.000.09 AIR Compressor SUPERSILENT\n\nIFM SENSORS SET:\n\nInductive sensor with IO-Link, Sensing range [mm]-5 NO;\n\n5-segment light tower IO-Link programmable;\n\nIO-Link memory plug;\n\nEvaluation system and display for analogue signals 4-20 MA;\n\nRFID evaluation unit with IO-Link, M12 connectors;\n\nRFID tag 125 kHz - Q5 \u00d8 30 \/ L = 2.2;\n\nRFID read\/write antenna with AS-Interface;\n\nRFID tag 125 KHz - Hitag S \u00d8 30 \/ L = 2,5 mm;\n\nAS-Interface flat cable connnector M12;\n\nIlluminated E-STOP with integrated AS-i:\n\nAS-Interface illuminated pushbutton module with 2 buttons;\n\nAS-Interface Airbox 4 Digital Inputs and 2 Pneumatic Outputs;\n\nPressure sensor for pneumatics IO-Link, Measuring range-> -1...10 bar;\n\nTemperature transmitter with display IO-Link, Measuring range->-50...150 \u00b0C;\n\nRFID read\/write antenna IO-Link, Distance to the ID tag [mm] \u2264 55;\n\nIO-Link master with PROFINET interface with 8 configurable I\/O's;\n\nAS-Interface ClassicLine Module with 2 IO-LINK PORTS;\n\nPhotoelectric distance sensor with AS-Interface,Measuring range [m]->0.03...2;\n\nAS-Interface ClassicLine Module with M12 connectors for sensors and actuators for 2 DI and 2 DO;\n\nSIZE (W x H x D): 910 x 800 x 730 mm\n\nNET WEIGHT: 37.00 kg\n\nTHE PACKAGE ALSO INCLUDES: Power cables, User manual.\n\nRECOMMENDED: Safety connection cables 4 mm\n\nLICENSE Programming software",
        "Specs": "SIZE (W x H x D): 910 x 800 x 730 mm\n\nNET WEIGHT: 37.00 kg\n\nTHE PACKAGE ALSO INCLUDES: Power cables, User manual.\n\nRECOMMENDED: Safety connection cables 4 mm\n\nLICENSE Programming software",
        "Url": "edquip.co\/en\/asti-automation\/smart-sensors-communications-training-system",
        "Page title": "Smart Sensors & Communications Training System",
        "Page description": "IFM \"SENSORS & COMMUNICATIONS\" TRAINING SYSTEM is used at universities and technical training institutions. For education and training purposes.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
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        "Video link": null,
        "Main category": "PLC training rigs"
    },
    {
        "Edquip ID": "PL-508978",
        "Product Type": "hardware",
        "Producer": "ASTI Automation",
        "Producer product number": "AA205.000.03",
        "Content languages": "en",
        "Targeted audience": "Technicians",
        "Training types": null,
        "Name": "Training System for AC motor & IFM encoder (G120) SIEMENS",
        "Description": "TRAINING SYSTEM for SIEMENS AC Motor & IFM ENCODER & Drive (G120) includes:\n\nAA017.100.09 - ASYNC. MOTOR 0.37 KW SIEMENS w\/ IFM encoder; SIEMENS AC MOTOR 0.37kW SIMOTICS GP Motor type: Low-voltage motor, IEC Squirrel-cage rotor,self-ventilated, IP55, temperature class 155(F); aluminum housing High Efficiency IE2, 4-pole *size 71M * 0.37 kW(50 Hz) 3 AC 50 Hz 400 VD\/690 VY IM B 3, without motor protection.\n\nIFM INCREMENTAL ENCODER PERFORMANCE (ROP522)\n\nAA042.000.02 - SINAMICS G120 -1AC 230 V - TRAINING PANEL SINAMICS G120 CONSISTING OF CU250S-2 PN, PM240- 2 FSA WITHOUT FILTER, 1\/3 200-240V 4,2A ; 0,75KW LO 1\/3 200-240V ; 3,2A ; 0,55KW , Intelligent Operator Panel It includes sockets for connection to the driven motor, for DI\/AI signals, potentiometer for adjusting the frequency SP.\n\nAA010.000.02 - Motor Control Training Panel 3-PHASE Supply:\n\n- SIEMENS emergency STOP witch 3-pole, SIEMENS circuit breaker (400V 6KA, 3-POLE, C, 10A)\n- SIEMENS FI\/LS-protector type AC, SIEMENS circuit-breakers for mototr protection\n- SIEMENS auxiliary switches 1NO + 1NC, sockets for eletrical connections\n\nAA011.000.02 - Motor Control Training CONTROL UNIT:\n\n- SIEMENS contactors (3 KW\/400 V AC, 1 NO, AC 230 V, 50\/60 HZ)\n- SIEMENS auxiliary switch blocks2NO+2NC; - SIEMENS emergency STOP mushr.pushbutton\n- SIEMENS pushbuttons with flat button with holder (green\/red)\n- SIEMENS actuator\/indicator component contact blocks 1NO+1NC; SIEMENS selector switches with holder black\n- SIEMENS actuator\/indicator component contact blocks 1NO\n- SIEMENS selector switches with holder black, sockets for electrical connections\n\nAA200.000.03 -Table-Top Stand for Training Panels\n\nSTAND (W x H x D : 910 x 800 x 370) mm\n\nSIZE (W x H x D): 910 x 800 x 370 mm\n\nNET WEIGHT: 18.5 Kg\n\nTHE PACKAGE ALSO INCLUDES: Power cable, 3Phase Power cable, Ethernet cable, User manual\n\nRECOMMENDED ACCESSORIES: Safety connection cables 4 mm",
        "Specs": "STAND (W x H x D : 910 x 800 x 370) mm\n\nSIZE (W x H x D): 910 x 800 x 370 mm\n\nNET WEIGHT: 18.5 Kg\n\nTHE PACKAGE ALSO INCLUDES: Power cable, 3Phase Power cable, Ethernet cable, User manual\n\nRECOMMENDED ACCESSORIES: Safety connection cables 4 mm",
        "Url": "edquip.co\/en\/asti-automation\/training-system-ac-motor-ifm-encoder-g120-siemens",
        "Page title": "Equipment for AC motor & IFM encoder: Asti Automation - EDQUIP",
        "Page description": "Training System for AC motor & IFM encoder. Request quotation today, free price estimations, hands-on learning, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
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        "Video link": null,
        "Main category": "Mechatronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-339079",
        "Product Type": "hardware",
        "Producer": "ASTI Automation",
        "Producer product number": "AA096.001.01",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation"
        ],
        "Name": "Integrated ABB iRB120 Robot Training Station",
        "Description": "Integrated ABB iRB120-Robot Training Station features:\n\nAA200.001.02 WorkstationMR (800 x 800 x750) with Modular Supply Panel\n\nABB iRB120 ROBOT IRC5 Compact PN \/\/Reach: 530 mm, Payload: 3 kg, Armload: 0.3 kg\n\nSIEMENS CPU 1215C\/\/switch XB005\/\/PS 24V\/3A;\n\nAA026.001.03 HMI KTP700 TRAINING CASE with Flexible Support\n\nAA096.001.04 Double Gripper E-PNEUM& VACUUM (SMC)\n\nCompact Storage Unit and Compact Unloading Unit ( inside robot cell)\n\nAA096.002.01 CAGE (safety for ROBOT)\n\nAA094.100.06 Conveyor Belt with Sinamics Servo & RFID- SIEMENS RF200\n\nAA045.000.01 SINAMICS V90 Panel\n\nAA095.000.05 Compact Pneumatic INDEX UNIT (on conveyor belt)\n\nAA059.000.06 Air Supply Filter Regulator with pressure swich\n\nAA059.000.09 Air Compressor Supersilent SAGER\n\nAA095.100.01 3D Printed Assembly Line Set (4 sets)\n\nSIZE (Base\/ H): 750 x 1000 mm \/ 1800 mm\n\nNET WEIGHT: 65.50 kg\n\nTHE PACKAGE ALSO INCLUDES: Power cable, Ethernet cable,User manual\n\nRECOMANDED: LICENSE Programming software",
        "Specs": "SIZE (Base\/ H): 750 x 1000 mm \/ 1800 mm\n\nNET WEIGHT: 65.50 kg\n\nTHE PACKAGE ALSO INCLUDES: Power cable, Ethernet cable,User manual\n\nRECOMANDED: LICENSE Programming software",
        "Url": "edquip.co\/en\/asti-automation\/integrated-abb-irb120-robot-training-station",
        "Page title": "ABB Robot Training Station: Asti Automation - EDQUIP",
        "Page description": "Integrated ABB iRB120 Robot Training Station. Request your quotation today, free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 4,
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            "Engineering Undergraduate"
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    {
        "Edquip ID": "PL-795538",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "COBOT Cell",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Documentation",
            "Video"
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        "Name": "Collaborative Robot (COBOT) Training Cell with PLC, HMI and IIOT",
        "Description": "Collaborative Robot (COBOT) Training Cell with PLC, HMI and IIOT\n\nThe Hytech Automation COBOT Training Cell is an advanced industrial robotics training platform designed to deliver hands-on learning in collaborative robotics, PLC-HMI integration, Industrial IoT (IIOT), digital twin technology, and smart manufacturing applications.\n\nBuilt using industrial-grade components and modular aluminium extrusion structures, the training system enables learners to gain practical exposure to real-world collaborative robotic operations, industrial automation workflows, and Industry 4.0 technologies.\n\nThe system integrates a Mitsubishi \/ KUKA \/ FANUC collaborative robot with PLC, HMI, RFID systems, load cells, colour sensors, IO-Link devices, smart lights, conveyors, pneumatic modules, and IIOT infrastructure. The COBOT operates seamlessly with automatic tool changing systems, enabling autonomous switching between pneumatic grippers and vacuum tools for different industrial applications.\n\nThe training platform supports standalone COBOT programming as well as integrated PLC-HMI-COBOT operation for advanced automation training. Users can develop custom PLC logic, HMI screens, SCADA dashboards, RFID tracking applications, sorting algorithms, and IIOT monitoring systems.\n\nIntegrated Digital Twin technology enables complete offline robot programming, virtual commissioning, real-time simulation, and safe experimentation before executing programs on physical hardware. The complete setup is compatible with Siemens Tecnomatix and Visual Components software platforms.\n\nKey Features:\n\n- Industrial Collaborative Robot (COBOT) with Teach Pendant\n- Automatic Tool Changer with multiple gripper configurations\n- PLC and HMI integrated robotic automation system\n- Industry 4.0 and IIOT-enabled training platform\n- Digital Twin integration with offline programming\n- RFID-based object tracking and sorting applications\n- Load-based and colour-based robotic sorting applications\n- IO-Link-based industrial sensor integration\n- Conveyor system with pneumatic auto feeder\n- Real-time monitoring, diagnostics, and data visualization\n- Collaborative assembly operations between human and robot\n- Preconfigured workstation with licensed industrial software\n- Industrial aluminium extrusion-based modular structure\n- Polycarbonate safety enclosure with industrial safety interlocks\n\nLearning Outcomes:\n\n- Understand collaborative robot architecture, safety systems, and industrial operation principles\n- Program COBOT operations using teach pendant and offline programming software\n- Develop PLC logic and HMI applications for robotic process control\n- Integrate RFID, load cells, colour sensors, conveyors, and smart sensors with COBOT systems\n- Perform robotic pick-and-place, palletizing, sorting, and assembly operations\n- Work with automatic tool changing systems and multi-gripper robotic applications\n- Understand IIOT concepts including remote monitoring, dashboards, and industrial data acquisition\n- Gain hands-on exposure to Digital Twin simulation and virtual commissioning\n- Learn SCADA integration with robotics and industrial automation systems\n- Develop troubleshooting and diagnostics skills in industrial robotic systems\n- Understand Industry 4.0 manufacturing workflows and smart factory integration\n\nIntegrated Training Applications:\n\n- Collaborative Assembly Operations\n- Automatic Tool Changing Applications\n- RFID-Based Sorting System\n- Load-Based Sorting System\n- Colour-Based Sorting System\n- Conveyor Automation and Material Handling\n- PLC-HMI-COBOT Integrated Operations\n- IIOT and Industrial Edge Monitoring\n- Digital Twin and Offline Programming\n- SCADA and Robotics Integration\n\nDigital Twin & Industry 4.0 Integration:\n\nThe COBOT Training Cell is fully integrated with Digital Twin platforms such as Siemens Tecnomatix and Visual Components for simulation, offline programming, real-time communication, and virtual commissioning. The system also supports Siemens Industrial Edge for IIOT applications including remote monitoring, analytics, data acquisition, and dashboard development.\n\nHytech Learning Management System (LMS):\n\nThe training platform includes access to Hytech Automation\u2019s Learning Management System (LMS) featuring structured robotics and automation courses, guided exercises, assessments, trainer support, certification workflows, and continuously updated Industry 4.0 learning content.\n\nApplications:\n\n- Industrial Robotics Training\n- Collaborative Robot Programming\n- PLC-HMI Integration Training\n- Industry 4.0 and Smart Manufacturing\n- IIOT and Industrial Communication\n- Digital Twin and Virtual Commissioning\n- Automation and Mechatronics Education\n- Advanced Manufacturing and Assembly Systems\n\nIdeal For:\n\n- Engineering Colleges and Universities\n- Technical Training Institutes\n- Industrial Automation Training Centers\n- Skill Development Centers\n- Industry 4.0 and Robotics Labs\n- Research and Innovation Centers",
        "Specs": "Collaborative Robot (COBOT) Training Cell \u2013 Technical Specifications\n\nThe Hytech Automation COBOT Training Cell is an Industry 4.0-ready collaborative robotics training platform designed for hands-on learning in robotic automation, PLC-HMI integration, IIOT, digital twin technology, and smart manufacturing systems.\n\n1. Structure & Safety System\n\n- Fabricated using industrial-grade high-strength aluminium extrusions\n- Outer Dimensions: 1700 mm (L) \u00d7 1300 mm (W) \u00d7 800 mm (H)\n- Mounted on 4 industrial castor wheels with brakes and anti-vibration mounts\n- Horizontal work surface made using aluminium extrusions for industrial durability\n- Integrated robot controller cabinet with electrical control panel arrangement\n- Transparent polycarbonate safety enclosure with industrial safety interlocks\n- Transparent access door with door-latching safety switch\n- Industrial modular design for easy maintenance and future expansion\n\n2. Collaborative Robot (COBOT)\n\n- Compatible with KUKA \/ FANUC \/ Mitsubishi Collaborative Robots\n- Teach Pendant included for robot programming and operation\n- Minimum Payload Capacity: 5 kg\n- Minimum Robot Reach: 900 mm\n- Electrical Gripper (Schunk or equivalent) for collaborative robotic applications\n- Automatic Tool Changer support for multi-operation handling\n- Integrated robotic pick-and-place and assembly applications\n\n3. Digital Twin Integration\n\n- Complete 3D setup provided in STP format for offline simulation and virtual commissioning\n- Fully integrated with Siemens Tecnomatix for robotic simulation and programming\n- Compatible with Visual Components for Digital Twin and offline robot programming\n- Supports real-time simulation and optimization of robotic workflows\n- Offline programming capability before actual hardware execution\n- Dynamic communication between Digital Twin software and physical robot\n\n4. Central Control Unit\n\n- Separate industrial control structure made with aluminium extrusions\n- Top Surface Dimensions: 720 mm \u00d7 1000 mm\n- Combination work surface using aluminium extrusions and industrial MDF\n- Mounted on 4 castor wheels with brakes and anti-vibration mounts\n- Complete industrial electrical control panel with PLC integration\n- Transparent front doors with safety interlocking switches\n- Aluminium extrusion-based mounting arrangement for LED TV, Monitor, and HMI\n\n5. PLC, HMI & IIOT Control System\n\n- PLC Options:\n\n- Siemens S7-1200\n- Mitsubishi FX5 Series\n\n- HMI Options:\n\n- Siemens MTP700\n- Mitsubishi GT2110\n\n- Siemens TIA Portal Software License (Latest Version \u2013 Perpetual License)\n- Optional Siemens Industrial Edge for IIOT applications\n- I\/O Link Master with minimum 8 ports\n- I\/O Link-based Smart Light for industrial signaling applications\n- HMI mounting unit with industrial push buttons:\n\n- CYCLE START\n- CYCLE RESET\n- EMERGENCY STOP\n\n6. Computer & Workstation System\n\n- Industrial Workstation with Intel i5 processor and 21-inch monitor\n- Optional High-Performance Laptop preconfigured with system software\n- Wireless Keyboard and Mouse\n- Pre-installed software for:\n\n- Robot Programming\n- PLC Programming\n- HMI Development\n- Digital Twin Simulation\n- IIOT Monitoring\n\n7. Modular Training Tables\n\nTable 1: Conveyor with RFID-Based Sorting\n\n- Conveyor with DC geared motor and pneumatically actuated auto feeder\n- Minimum Conveyor Travel Length: 500 mm\n- Minimum Conveyor Width: 70 mm\n- I\/O Link-based RFID Reader and Writer\n- RFID Tags \u2013 08 Qty\n- Workpieces with RFID mounting arrangement \u2013 08 Qty\n- Pallet for RFID-tagged workpieces\n- Industrial RFID tracking and sorting applications\n\nTable 2: Load & Colour-Based Sorting\n\n- I\/O Link-based Colour Sensor\n- Load Cell with analog output and digital set point\n- Workpieces in three different colours \u2013 06 Qty\n- Workpieces in three different weights \u2013 06 Qty\n- Pallet for sorting applications\n- Weight-based and colour-based robotic sorting applications\n\nTable 3: Collaborative Assembly Table\n\n- Pallet integrated with photo sensors \u2013 08 Qty\n- Automatic Screwdriver for collaborative assembly operations\n- Industrial assembly workpieces and fasteners\n- Human-robot collaborative assembly applications\n- Real-time monitoring and assembly workflow control\n\nTable 4: COBOT Tool Changer Table\n\n- Robot Side Tool \u2013 01 Qty\n- Tool Side Clamping Units \u2013 03 Qty\n- Vacuum Gripper with Vacuum Generator\n- Pneumatic Parallel Grippers \u2013 02 Qty\n- Aluminium extrusion-based gripper mounting arrangement\n- Automatic robotic tool changing applications\n\n8. IIOT & Industry 4.0 Integration\n\n- Industrial Edge-based remote monitoring and analytics\n- Real-time industrial data acquisition\n- Dashboard creation and process visualization\n- Supports Industry 4.0 and Smart Manufacturing concepts\n- Remote access and monitoring capabilities\n\n9. Optional Digital Twin Software Packages\n\nOption 1:\n\n- Siemens Tecnomatix \u2013 1 Seat\n- 1-Year Subscription-Based License\n- License deactivates after 1 year\n\nOption 2:\n\n- Visual Components \u2013 15 Seats\n- Perpetual License with 1-Year AMC\n- License remains permanently active\n- Software updates available for 1 year\n\n10. Learning & Industrial Applications\n\n- Collaborative Robotics Training\n- PLC-HMI-COBOT Integration\n- RFID Tracking Applications\n- Industrial Sorting Systems\n- Human-Robot Collaboration\n- Industry 4.0 & IIOT Training\n- Digital Twin & Offline Programming\n- Smart Manufacturing Workflows\n- Robotic Assembly Operations\n- Industrial Automation & Mechatronics Training",
        "Url": "edquip.co\/en\/hytech\/collaborative-robot-cobot-training-cell-plc-hmi-iiot",
        "Page title": "Collaborative Robot (COBOT) Training Cell with PLC, HMI and IIOT: Hytech - EDQUIP",
        "Page description": "A complete cell for training on pick and place robot, for technical education & training. Request your quotation today! Get free price estimations.",
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        "Teacher materials": true,
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        "HS Code": "84795000",
        "Equipment dimensions": "170 \u00d7 130 \u00d7 80",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "250",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "200 \u00d7 150 \u00d7 230",
        "Packed dimensions unit": "cm",
        "Packed weight": "350",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/Collaborative Robot (COBOT) Training Cell with PLC, HMI and IIOT\/Collaborative Robot (COBOT) Training Cell with PLC, HMI and IIOT_COBOT Cell_Hytech Automation_New COBOT 040725.92.png",
        "Video link": "https:\/\/www.youtube.com\/embed\/J5qDnc2lEio",
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-115497",
        "Product Type": "hardware",
        "Producer": "Hytech Automation",
        "Producer product number": "MIG Welding Robocell",
        "Content languages": "en",
        "Targeted audience": "Engineers",
        "Training types": [
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        "Name": "Integrated Robotics Welding Cell with PLC, HMI and IIOT",
        "Description": "MIG Welding Robot Training Cell with PLC, HMI & IIOT\n\nThe Hytech Automation MIG Welding Robot Training Cell is a comprehensive Industry 4.0-ready training platform designed to provide hands-on experience in robotic welding, industrial automation, PLC-HMI integration, Digital Twin technology, Offline Programming, and Industrial IoT (IIOT).\n\nThe system combines an industrial welding robot, PLC, HMI, welding source, servo systems, pneumatic automation, and intelligent communication technologies to simulate real-world robotic welding environments used in modern manufacturing industries.\n\nThe training cell enables learners to develop practical skills in robotic welding, automation system integration, welding process optimization, industrial communication, and smart manufacturing workflows.\n\nThe robot can be programmed using a Teach Pendant as well as through advanced Offline Programming (OLP) software integrated with a Digital Twin environment for simulation, validation, and virtual commissioning.\n\nKey Features:\n\n- Industrial Welding Robot with minimum 900 mm reach and 10 kg payload capacity\n- Fronius, Lincoln, or equivalent industrial welding source\n- PLC and HMI integrated welding automation platform\n- Digital Twin and Offline Programming integration\n- Industrial communication using PROFINET and I\/O Link\n- IIOT-enabled architecture with cloud connectivity and remote monitoring\n- Servo motor, pneumatic actuator, and sensor integration\n- Industrial Smart Light with I\/O Link communication\n- Real-time process monitoring and diagnostics\n- 43-inch display for Digital Twin visualization and training\n- Mobile industrial control unit with robot controller and welding controller\n- Gas cylinder trolley and welding cable management system\n\nIntegrated Training Stations:\n\n- Basic Weld Joint Training Table\n- Automated Welding Table with Servo Indexing System\n- Complex Shape and 3D Circular Welding Table\n\nLearning Outcomes:\n\n- Understand industrial robotic welding architecture and operation\n- Program and operate welding robots using Teach Pendant and Offline Programming software\n- Develop PLC logic and HMI applications for robotic welding systems\n- Integrate welding robots with PLC, HMI, sensors, servos, and pneumatic devices\n- Configure industrial communication protocols such as PROFINET and I\/O Link\n- Perform automated welding operations on butt joints, lap joints, corner joints, edge joints, T-joints, and circular welding applications\n- Gain hands-on experience with servo indexing systems and automated workpiece handling\n- Work with Digital Twin technology and virtual commissioning concepts\n- Understand IIOT, Industrial Edge, cloud connectivity, and smart manufacturing workflows\n- Develop troubleshooting, diagnostics, and predictive maintenance skills\n- Prepare for Industry 4.0 and advanced manufacturing environments\n\nDigital Twin & Offline Programming\n\nThe training cell supports Digital Twin-based simulation and Offline Programming, enabling learners to validate welding paths, optimize robot movements, perform collision detection, and test complete robotic welding cycles before execution on physical hardware.\n\nIndustrial IIOT Integration\n\nThe system supports Siemens Industrial Edge technology for real-time data acquisition, remote monitoring, dashboard creation, analytics, and Industry 4.0 applications. Learners gain exposure to MQTT, OPC UA, edge computing, and smart factory concepts.\n\nHytech Learning Management System (LMS)\n\nThe training cell includes access to Hytech Automation's Learning Management System (LMS), providing structured robotics, PLC, HMI, welding automation, IIOT, and Digital Twin training modules along with assessments, certifications, and instructor resources.\n\nApplications:\n\n- Robotic Welding Training\n- Industrial Automation Training\n- PLC-HMI Integration\n- Industry 4.0 Training Labs\n- Digital Twin & Virtual Commissioning\n- Smart Manufacturing & IIOT Applications\n- Technical Education & Skill Development Programs",
        "Specs": "MIG Welding Robot Training Cell \u2013 Technical Specifications\n\nHytech Automation's MIG Welding Robot Training Cell is an Industry 4.0-ready robotic welding platform designed for hands-on training in robotic welding, PLC-HMI integration, Digital Twin technology, Offline Programming, IIOT, and industrial automation.\n\nRobotic Welding System\n\n- Industrial Welding Robot (Fanuc ARC Mate or equivalent)\n- Minimum Reach: 1000 mm\n- Minimum Payload Capacity: 12 kg\n- Teach Pendant for robot programming and operation\n- Offline Programming (OLP) and Digital Twin support\n- Compatible with Fanuc Roboguide and Siemens Tecnomatix\n\nPLC, HMI & Control System\n\n- PLC: Siemens S7-1200 or Mitsubishi FX5\n- HMI: Siemens KTP700 or Mitsubishi GS Series\n- PROFINET and I\/O Link communication\n- I\/O Link Smart Light integration\n- Servo motor and pneumatic valve integration\n- Industrial operator control panel\n\nExperiment Stations\n\nTable 1 \u2013 Basic Welding Station\n\n- Butt Joint Welding\n- Corner Joint Welding\n- Edge Joint Welding\n- Lap Joint Welding\n- T-Joint Welding\n- Mechanical clamping arrangements\n\nTable 2 \u2013 Automated Welding Station\n\n- Servo motor driven indexing table\n- PLC-controlled automated job sequencing\n- Industrial welding automation applications\n\nTable 3 \u2013 3D Circular Welding Station\n\n- Pneumatic pick-and-place mechanism\n- Pipe-in-pipe assembly application\n- 3D circular robotic welding operations\n\nWelding Equipment\n\n- Fronius \/ Lincoln Industrial Welding Source\n- Robot Controller\n- Welding Controller\n- Step-down Transformer\n- Gas Cylinder Trolley\n- Cable Management System\n\nIndustry 4.0 Features\n\n- Digital Twin Visualization\n- Offline Robot Programming\n- IIOT Integration\n- Real-Time Monitoring & Diagnostics\n- Industrial Edge Connectivity\n- Cloud-Based Data Monitoring\n- 43\u201d Display for Digital Twin Visualization\n\nLearning Outcomes\n\n- Robotic Welding Programming\n- PLC-HMI-Robot Integration\n- Digital Twin & Virtual Commissioning\n- Offline Programming Techniques\n- Industrial Communication Protocols\n- Smart Manufacturing & Industry 4.0 Applications\n- Automated Welding Process Development\n- Industrial Troubleshooting & Diagnostics",
        "Url": "edquip.co\/en\/hytech\/integrated-robotics-welding-cell-with-iiot",
        "Page title": "Integrated Robotics Welding Cell with IIOT",
        "Page description": "Advanced training cell which provides hands on experience on the integration of two industrial robots to work in tandem in collaboration with PLC \u2013 HMI \u2013 SCADA ",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Industry-Grade Equipment",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": null,
        "Warranty": "24 months",
        "Voltage availability": [
            "380\u2013400V"
        ],
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            "Internet"
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        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "84795000",
        "Equipment dimensions": "300 x 180 x 190",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "450",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "350 x 220 x 220",
        "Packed dimensions unit": "cm",
        "Packed weight": "550",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Hytech Automation\/Integrated Robotics Welding Cell with PLC, HMI and IIOT\/1753525649_MIG Welding 1.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/fyRJuKDmOl8",
        "Main category": "Robotics Lab Equipment"
    },
    {
        "Edquip ID": "PL-563230",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "RYC-T",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Modular Control and Regulation Unit",
        "Description": "Control theory is broadly divided into two main areas: classical and modern. Classical control designs, such as PID controllers, are easier to implement than modern control methods, making them the preferred choice for most industrial applications.\n\nThe [\"RYC\/T\" Computer Controlled Modular Control and Regulation Unit](https:\/\/www.edibon.com\/en\/computer-controlled-modular-control-and-regulation-unit) by [EDIBON](https:\/\/www.edibon.com\/en\/) allows students to simulate various systems, including an integrator, a first-order system, and a second-order system. These can be regulated using a PID controller or a Lead and Lag compensator, and the unit enables the addition of perturbations and offsets to analyze system responses.\n\nThe unit is compatible with various modules like the DC Servo Motor Module and the Ball and Beam Module, offering hands-on exploration of control system responses and real-time regulation studies. It is supplied with [EDIBON](https:\/\/www.edibon.com\/en\/)'s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)-based Computer Control System, which includes the unit itself, a Data Acquisition Board, and software for process control, data acquisition, and data management, enabling precise control and analysis of all process parameters.",
        "Specs": "- [RYC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-modular-control-and-regulation-unit):\n\n- Metallic box.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Reference signals module.\n- PID controller module.\n- Lead\/Lag compensator:.\n- Integrator system.\n- First order system.\n- Second order system.\n- Perturbation module.\n- Offset module.\n- Analog Inputs.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- RYC\/CCSOF. PID Computer Control + Data Acquisition + Data Management Software:\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with the following manuals: Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Response of a first order system in time domain. (Step response).\n- Response of a first order system in time domain. (Ramp response).\n- Response of a first order system in time domain. (Sine response).\n- Response of a first order system in frequency domain. (Sine response).\n- Response of a second order system in time domain. (Step response).\n- Response of a second order system in time domain. (Ramp response).\n- Response of a second order system in time domain. (Sine response).\n- Response of a second order system in frequency domain. (Sine response).\n- Phase Lead Compensator experiment.\n- Phase Lag Compensator experiment.\n- Structure of a PID controller. (Proportional-IntegrativeDerivative blocks).\n- PID control of a first order system in open-loop.\n- PID control of a second order system in open-loop.\n- PID control of a first order system in closed-loop. (Mathematical tuning).\n- PID control of a first order system in closed-loop. (Experimental tuning).\n- PID control of a first order system in closed-loop. (ZieglerNichols tuning).\n- PID control of a second order system in closed-loop. (Mathematical tuning).\n- PID control of a second order system in closed-loop. (Experimental tuning).\n- PID control of a second order system in closed- loop. (ZieglerNichols tuning).",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-modular-control-regulation-unit",
        "Page title": "Computer Controlled Modular Control and Regulation Unit",
        "Page description": "Regulation & Control equipment, for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "490 x 330 x 310 mm approx.  (19.29 x 12.99 x 12.20 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "10",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Modular Control and Regulation Unit\/computer-controlled-modular-control-and-regulation-unit_Edibon.jpg",
        "Video link": "",
        "Main category": "Process Control Training Equipment"
    },
    {
        "Edquip ID": "PL-561055",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HYDROGEN-B",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Fuel Cell Systems Trainer",
        "Description": "This trainer has been designed for the study of fuel cell systems. It teaches their engineering principles and it allows performing a set of experiments for educational purposes. It is safe and easy to be operated.\n\nComplete with connecting cables, experiment manual and software for data acquisition and processing.\n\nTRAINING OBJECTIVES\n\nThe trainer is very flexible, modular and suitable for the understanding of basic principles as well as more complex technology concepts. It allows performing the following experiments:\n\n- Familiarize yourself with the trainer\n- Performance of the PEM Fuel Cell with fixed loads, without DC\/DC converter\n- Performance of the PEM Fuel Cell with fixed loads, with DC\/DC Converter\n- Recording of the current\/voltage characteristic curve of the PEM Fuel Cell with variable load\n- Calculation of the energy efficiency of the PEM Fuel Cell",
        "Specs": "TECHNICAL SPECIFICATIONS\n\nThe trainer includes the following modules:\n\n- 100 W PEM fuel cell. Performance: 14 V at 7.2 A. Consumption of H2: 1.4 l\/min. it includes the electronic controller.\n- 300 Nl aluminum storage canister\n- DC\/DC converter, output 12 V, 8 A\n- Load, with one halogen lamp, 12 V, 20 W, and one LED lamp, 12 V, 3 x 1 W\n- Variable logarithmic rheostat, 1.5 Ohm \u00f7 17 Ohm, 100 W, Imax = 8 A\n- Battery\n- Instruments module, containing 4 multifunction meters and 4 LCD displays\n\nAverage training hours: 8h. Approx. packing dimensions: 1.21 x 0.62 x 0.82 m. Net weight: 35 kg.\n\nOption: DL HYGEN: Hydrogen generator, for filling the hydride storage canister",
        "Url": "edquip.co\/en\/de-lorenzo\/fuel-cell-systems-trainer",
        "Page title": "Fuel Cell Systems Trainer: De Lorenzo - EDQUIP",
        "Page description": "A Fuel cell systems trainer. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "121 x 62 x 82",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "35",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "121 x 82 x 62",
        "Packed dimensions unit": "cm",
        "Packed weight": "36",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Fuel Cell Systems Trainer\/Fuel_Cell_Systems_Trainer-DL_Hydrogen_B.jpg",
        "Video link": null,
        "Main category": "Fuel Cell Training Systems"
    },
    {
        "Edquip ID": "PL-588545",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EC5C",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled PEM Fuel Cell Unit",
        "Description": "The [\"EC5C\" Computer Controlled PEM Fuel Cell Unit](https:\/\/www.edibon.com\/en\/computer-controlled-pem-fuel-cell-unit?video_modal=on) by [EDIBON](https:\/\/www.edibon.com\/en\/) is designed to teach students the fundamentals of fuel cell technology, particularly focusing on proton exchange membrane (PEM) fuel cells. The unit allows for the calculation of essential parameters, such as power density, polarization curves, and efficiency, as well as how these values change based on reagent consumption and power output.\n\nThe [EC5C](https:\/\/www.edibon.com\/en\/computer-controlled-pem-fuel-cell-unit?video_modal=on) comes with a 100 W PEM fuel cell stack, comprised of 24 channeled cells that facilitate airflow across the membrane, enabling hydrogen flow and the release of electrons. Each cell is separated by conductive plates, allowing for electron flow between cells. The system is self-humidifying, eliminating the need for external humidification, and includes a fan to provide adequate airflow and maintain operational temperature.\n\nThe unit addresses hydrogen storage needs with two pressure regulators: one for adjusting outlet pressure from an H\u2082 bottle (5-50 bar) and another for controlling inlet pressure to the stack (0-1 bar). For safety, two solenoid valves control the hydrogen flow\u2014one valve shuts off the hydrogen supply when the unit is turned off to prevent leaks, while the other purges excess water and hydrogen to ensure proper functioning.\n\nA load regulation system is included for studying the electrical output and creating operational curves for comparison with theoretical data. It features a variable power rheostat for adjusting generated power and includes a 12 V battery to power the unit's interface. Safety measures are integral, with short circuit protection for currents above 12 A and low-voltage shutoff at 12 V. Additionally, a hydrogen leak detector offers a detection range of 0-2% Vol and 0-100% L.E.L. (Lower Explosive Limit) for added security.\n\nThis unit is fully integrated with [EDIBON](https:\/\/www.edibon.com\/en\/)'s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)-based Computer Control System, which includes the unit itself, a Control Interface Box, a Data Acquisition Board, and software packages for process control, data collection, and comprehensive parameter management.",
        "Specs": "- [EC5C. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-pem-fuel-cell-unit?video_modal=on):\n\n- Bench-top unit.\n- Anodized aluminum frame and panels made of painted steel.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Pressure regulator for the hydrogen inlet at the PEM fuel cell, range.\n- Pressure regulator of the H2 bottle.\n- Solenoid valve to supply H2\n- Purge solenoid valve.\n- Suitable tubes and hoses for their use with H2 with a high safety factor.\n- Load module: Rheostat.\n- Battery and charger.\n- Fuel cell stack.\n- Instrumentation.\n- Safety measures and protections.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EC5C\/CIB. Control Interface Box.\n- EC5C\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study of the fundamental principles of operation of a proton exchange fuel cell (PEM).\n- Study of the frame and main principles of a metal hydride bottle.\n- Calculation of a fuel cell efficiency.\n- Study of the influence of air consumption and hydrogen in the efficiency of a fuel cell.\n- Study of the influence of generated power in the efficiency of a fuel cell.\n- Determination of the current density - voltage characteristics of a fuel cell.\n- Power density from a single cell and a stack of cells.\n- Representation of the polarization curve of a fuel cell.\n- Study of the influence of the reagents flows in the generation of electrical power.\n- Study of the use of reagents and transport phenomena.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-pem-fuel-cell-unit",
        "Page title": "Computer Controlled PEM Fuel Cell Unit",
        "Page description": "PEM Fuel Cell training equipment. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "700 x 400 x 550 mm approx.  (27.56 x 15.75 x 21.65 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "40",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled PEM Fuel Cell Unit\/Computer Controlled PEM Fuel Cell Unit_EC5C-SCADA.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/vArz1Khnvqo?si=7QzqHskqLPUonaAh",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-357332",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL TMAC10",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Split Type Air Conditioner Training System",
        "Description": "Air Conditioner Training System developed to demonstrate the operation and working principle of split air conditioners. Students will be able to follow the refrigeration cycle, explore the layout and functions of all main components and perform maintenance and troubleshooting exercises.\n\nThe didactic system is fully operable and contains all the basic components of a split air conditioner. The components are exposed and mounted on a vertical frame. The students control and monitor the experiments procedure using instruments and transparent observation points.\n\nMAIN CHARACTERISTICS\n\n- The functions available with the system are refrigeration, heating, ventilation, dehumidification, temperature and wind speed selection, timing, sleep.\n- It includes electric control unit, air conditioning unit, measuring instruments unit, power supply units and fault introduction system.\n- It shows the inner components layout and refrigerating cycle system structure\n- it includes AC voltmeter, AC ammeter, thermometer, vacuum pressure gauge, pilot lamps and real-time LED status. The main control board is covered with a transparent board for process observation; schematic diagram of control system and relative test points; sight glass in the pipeline is used to refrigerant status observation; HV pipeline is marked with red, while LV pipeline with blue, relative components are all labeled.\n- It includes a connection area for electrical control circuit of outdoor unit for students hands-on ability training.\n- It includes fault introduction system",
        "Specs": "DIDACTIC EXPERENCE\n\nWith this trainer is possible follow the experiments below:\n\n- Transformer primary coil fault\n- Transformer secondary coil fault\n- Rectifier bridge fault\n- Three-terminal voltage regulator fault\n- Winding of step motor - Indoor faults\n- Buzzer Faults\n- Auxiliary Heating Faults\n- Four-way Valve Faults\n- Compressor faults\n- Outdoor Fan Faults\n- Open Circuit Fault of Outdoor Ambient Sensor\n- Fan motor-Indoor fault\n- Infrared receiving circuit fault\n- Indicator light fault\n- Temperature sensor X105 fault\n- Open Circuit Fault of Outdoor- Piping Coil Temperature Sensor\n\nTECHNICAL SPECIFICATIONS:\n\n- Refrigerating system:\n\n- Indoor unit: Evaporator, indoor fan, indoor fan motor, Wind direction guide board, indoor wind direction step motor, room temperature sensor\n- Outdoor unit: condenser, outdoor fan, outdoor fan motor, compressor, four-way valve, capillary tube, filter, dryer\n- Electrical control system:\n\n- Instruments: AC voltmeter, AC ammeter, Pressure gauge x2, thermometer x4.\n\n- Silkscreen with test points.\n- Fault system: 34 faults could be set and simulated\n- Two manual valves could simulate ice block faults\n- Power supply: Single phase by the mains\n- Dimensions: 1060 mm, 790 mm, 1940mm(L*W*H)\n- Weight: 70kg\n- Complete with all accessories needed\nThe system is supplied with data acquisition software",
        "Url": "edquip.co\/en\/de-lorenzo\/split-type-air-conditioner-training-system",
        "Page title": "Split Type Air Conditioner Training System",
        "Page description": "Split Type Air Conditioner Training System. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": "132 x 92 x 216",
        "Packed dimensions unit": "cm",
        "Packed weight": "195",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Split Type Air Conditioner Training System\/Split Type Air Conditioner Training System_DL TMAC10_De Lorenzo_DL TMAC10.jpg",
        "Video link": null,
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-839148",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL CIM-CT",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Computer Integrated Manufacturing Trainer",
        "Description": "CIM (computer integrated manufacturing) is a manufacturing method, in which the entire production process is controlled by computer. This manufacturing method includes transversal applications in several didactic areas such as automation, pneumatics, electronics, mechatronics and process control.\n\nDe Lorenzo has developed station-based training systems, which allow the student to view a specific manufacturing process of an industrial production line. The trainer is a closed- loop control system based on PLC that exchanges information collected from sensors.\n\nThe version DL CIM-C integrates Conveyer belt, Linear Transfer unit, Pick and Place unit, six stations rotary table, drilling module, uploading arm, weighing module and palletizer.\n\nTRAINING OBJECTIVES\n\nDL CIM-C focuses on the study of the integration of the industrial sensors in process inspection as a support for manufacturing processing line. The trainer integrates the typical actuators (electric, pneumatic) into process executions. The performances of the actuators influence the quality of industrial automation functions. Together with the sensors, they ensure and multiply the value of manufacturing processes.\n\nTo study the components substations functionalities: linear transfer unit, horizontal transfer unit, pick and place unit, six stations rotary table, drilling module, uploading arm, weighing module and palletizer.\n\nIdeal for 4 students to work simultaneously.\n\nVocational and technical schools.\n\nAnd applicable to courses in:\n\n- Automation\n- Electronics\n- Mechatronics\n- Electro pneumatics\n- Process Control\n\nHIGHLIGHTS\n\nThe trainer is a real application of industrial sensors and actuators, programmable logic control (PLC), and dedicated information and computer technologies (ICT-s).\n\nAll training topics are designed for CIM applications understanding. The sensors are a support for inspections and manipulation, the actuators run process and the PLC monitors and controls manufacturing algorithms adjusting the processes variables.\n\nIt is the basic study of Flexible Manufacturing Systems, with benefits in increasing the machines utilization, reducing the manufacturing leading time, and ensuring high flexibility scheduling.",
        "Specs": "Power supply: single phase by the mains.\n\nTotal power: 450W, 2A fuse on socket for overload and short circuit protections.\n\nPLC included features: \u2022 SIEMENS PLC S7-1200 series Models including HMI and SCADA software is also available: \u2022 DL CIM-CS_7INCH with 7 inch HMI \u2022 DL CIM-CS_10INCH with 10 inch HMI\n\nThe CIM system is also available with an open terminal block instead of the PLC. This version allows the connection of an external controller through the 2mm terminals. For the correct operation of the system, it is recommended to use a PLC with similar or improved characteristics (INPUT\/OUTPUT) as the ones provided with our standard versions (see previous notes). Order code: DL CIM-CT\n\nNote: A compressor is needed (no less than 0.6Mpa). Module suggested: DL 8110SLZ SUBSTATIONS DETAILS CONVEYER UNIT This is a miniature model of a real time industrial conveyor system, driven by a DC motor. The operation of the conveyor is limited to single direction according to the usage. The conveyor belt rolls over two pulleys fixed on either end. The pulleys roll freely and maintain a free movement for the belt. \u2022 Length: 500 mm. \u2022 Width: 50 mm. LINEAR TRANSFER UNIT The Linear Transfer Unit is an electro-pneumatic controlled linear actuator. Magnetic switches are fixed to sense the retracted and extended position of the transfer unit. It transfers materials from the conveyor with the help of a pneumatically operated rod less double acting cylinder. \u2022 Cylinder: Pneumatic rod less (16 mm diameter, stroke length 200 mm). \u2022 Travel length: 200 mm. PICK AND PLACE UNIT It is a totally electro-pneumatic control system. There are three main parts in this unit: \u2022 a vertical arm (double acting cylinder), \u2022 a horizontal arm (double acting cylinder), and \u2022 an angular gripper (double acting angular gripper for holding work pieces). Magnetic switches are fixed to sense the retracted and extended position of the vertical and horizontal arms; so, the Pick & Place Unit transfers the material from the Linear Transfer Unit end to the next Unit with the help of the vertical arm, the horizontal arm, and the angular gripper. o Vertical travel: 80 mm. o Horizontal travel: 150 mm. o Load Capacity: 0.5Kg. CONTROL SYSTEMS: SIEMENS AND ALLEN BRADLEY PLCs There are programmable controllers that combine high performance and ease of use. Their main advantages are: \u2022 the flexibility, as they can be reprogrammed, \u2022 the possibility of their use in environments with severe working conditions, \u2022 the reliability and safety, and \u2022 the possibility of processing both digital and analogue signals. With this controller integrated into the system, the students can perform experiments commonly used in the industrial automation environment. It includes 30 digital inputs, 26 digital outputs and 2 analogue inputs. It can be programmed through the integrated Ethernet port with TIA portal software. SIX STATIONS ROTARY TABLE A Six Stations Rotary Table (also known as Rotary Indexer Supplier) consists of a horizontal circular worktable, on which the work piece is placed to be processed. The worktable is indexed to present each work piece to each work head to accomplish the sequence of machining operations. The control and driver use electrical energy. DRILLING MODULE The module simulates the function of drilling the work piece. The PLC tells the vertically double acting flat cylinder to position the drilling device near the work piece and to start the drilling device. The Drilling module is pneumatically operated with several main characteristics: \u2022 Speed: 20000 RPM \u2022 Work pressure: 0.5 \u00f7 0.8 Mpa \u2022 Connection Port: 3\/8 Lifting cylinder: 16 mm diameter & Stroke length 60mm Fixed cylinder: 10 mm diameter & Stroke length 10mm. UPLOADING ARM The uploading arm or horizontal Pick & Place Unit is an electro-pneumatic system in which the movement is controlled by a linear and rotary actuator. This system works as a miniature pick and place robot with a limited path application. The uploading arm is used to transfer the components or work pieces from one workstation to the other. It is pneumatically operated with main characteristics: \u2022 Lifting cylinder: 16 mm diameter & stroke length 20 mm \u2022 Rotary cylinder: 0 \u00f7 180\u00b0 \u2022 Load Capacity: 0.5 kg. WEIGHING MODULE The weighing module consists of two elements: the load cell and the interface circuit. The load cell generates a variable resistance value related to the weight of the object that is placed over it. The interface circuit receives processes and sends this value to the analogue input of the PLC, which determines the correspondent weight of the work piece placed over the load cell. The measuring principle: balance beam-single point weighing with: \u2022 Rated load: 0 \u00f7 1 kg \u2022 Output: 0 \u00f7 10V. VISION SYSTEM The vision system is a compact visual sensing equipment, which is used for quality control inspections in automated production lines. The vision system serves under the class of visual sensing methods. It basically analyses an image obtained by a video camera, displays it, and reports its characteristics to the system controller. Visual process module parameters: \u2022 Interface: Ethernet TCP\/IP \u2022 Stable light source: 6 LED White Ring Light \u2022 Lens:12mm; \u2022 Sensor Type 1\/3\u201d Mono Global Shutter, 3.75\u03bcm pixel Format: 640x480 Rate: 45 \u2022 Electronic shutter \u2022 Built-in data processing system \u2022 External shooting signal \u2022 Operation mode: still shooting \u2022 Fixed method: Independent installation STACKER CRANE - PALLETIZER Stacker crane - also called palletizer; it is used for palletizing (placing) the work piece in a particular order. Our XY palletizer is a stepper motor-controlled unit. The motor controls the movement and the position of the axis of the Palletizer. For work piece handling, a suction cup is provided which is controlled using a double acting flat cylinder that will extend & retract to pick up or dispense the work piece. The driver adopts AC servo driver current loop for subdivided control, motor low speed running stable, almost no shake and noise. Suit for various CNC mechanical, robotic, cash-counting machine industries. Its main parameters are: \u2022 2 Stepepr motor :24VDC \u2022 The stroke of axis are 110mm and y axis are 310mm \u2022 Cylinder: vertical flat type, double acting cylinder 10mm diameter and stroke 60mm. \u2022 4 inductive sensors: Used to detect the X,Y-axis home position and the X,Y-axis ultimate limit position \u2022 Gripper: Suction cup \u2022 Operating pressure: 6 bar \u2022 Number of I\/O \u2013 6 inputs and 6 outputs HUMAN MACHINE INTERFACE (HMI) It is a computer based DCS and power automation monitoring system, which has a wide application area and can be used for data acquisition, supervisory and process controls, and it is the most widely used in power systems. With this unit added to the system, the students can perform experiments commonly used in the industrial automation environment. It has a high resolution and includes I\/O interfaces such as Serial interface and Ethernet 10\/100 base-T. it is available in 7-inch or 10-inch Supervisory Control And Data Acquisition (SCADA) software The system is supplied with Supervisory Control And Data Acquisition (SCADA) software and already installed in the HMI unit. It occupies an important position in remote control systems and can monitor and control on\u2010site operating equipment to achieve functions such as data acquisition, equipment control, measurement, parameter adjustment, and various signal alarms. It interfaces with the CIM\u2019s PLC. EXPERIMENTS DESCRIPTION Integration of the sensors in CIM experiments: \u2022 Capacitive proximity switch \u2022 Inductive proximity switch \u2022 Photoelectric switch \u2022 Electromagnetic sensors On the inspection area (a), the capacitive sensor detects metals, the inductive sensor distinguishes the difference between metals and plastic, and the photoelectric switch detects reflexivity of the object for correct positioning. In the transfer area (b), electromagnetic (reed) sensors collect information regarding strokes of the horizontal rod less cylinder. On the handling area (c), electromagnetic (reed) sensors detect correct positions of the arms during manipulations. Integration and control of dedicated actuators experiments: \u2022 DC motor control \u2022 Pneumatic cylinders control The DL CIM-C trainer offers an excellent possibility to study, understand, and design the most appropriate applications of a DC motor use (a). Simple, easy to control, with some proper gear, the application for belt conveyer is fast integration of this electric machine in manufacturing chain. The pneumatic actuators, with their elasticity, offer best solutions for alternative linear displacements, and grippers. Together with its electric and pneumatic controlling accessories, and the use of PLC, these execution elements define and describe in an excellent form the mechatronics concept. Through these experiments, the student\/user can compare the possibilities of expansion for these actuators, following the main formulated functions for the manufacturing process design. Substation functionality: Linear transfer unit experiment Around a PLC program, that integrates different kind of signals (detection whether has work piece, metal work piece detection, detection whether the work piece coming, START\/STOP commands), it is built a linear transportation system, as manufacturing function. Different kinds of working zones are identifiable: process controlling, inspection area, delivering point. Substation functionality: Transfer unit experiment Around a PLC program, that integrates different kind of substation signals (linear transport cylinder stretch out detection, linear transport cylinder retract detection with upstream process signals and type of transported materials), it is built a transfer substation. Through this experiment, we understand the operations sequence and dependencies of the material transportation and handling up to the moment of materials transferring substation. These understood and clarified handling constraints allow expanding solutions for many other classes of transported materials. Substation functionality: Pick and place unit experiment Around another PLC program, that integrates different kind of substation signals (horizontal cylinder stretch out detection, horizontal cylinder retract detection, vertical cylinder stretch out detection, vertical cylinder retract detection) with upstream process signals (related to availability of the materials), it is built this pick and place substation. The implementation and the control of the gripper is the core idea. Through this experiment, we understand the operations sequence and dependencies of the material transportation and handling up to the moment of materials transferring substation. These understood and clarified handling constrains allows expanding solutions for many other classes of transported materials. Six Stations Rotary Table Experiment We study here an integrated motion system (motors, mechanical power transmission devices, encoders, sensors, and controllers). We underline the important parameters for rotary indexing tables (the needed resolution of the application, the required repeatability and accuracy, and other mechanical parameters such as acceptable levels of backlash or hysteresis). Another key parameter is the loading including torque, axial, radial, and moment loads. These can impact the type and size of the indexer used in each application - probably it is the most important element in the production chain (four major interconnected operations: 1- 4). A rotary indexing table can be used in many applications including manufacturing, inspection, and assembly tasks Drilling Module Experiment Hole drilling operation using an elastic driving system (pneumatically operated) offers the possibility to observe, understand, and design later, the main operations: connecting the air source output port of the compressor to the air source input, turning the pressure regulating valve, the drilling control, till the ending operation. It is an application and technique that utilizes high pressure to obtain a mechanical movement. As for many other machine tools used in industrial processes, this station is equipped with standard control (manual or automated, emergency actions). At the same time, we underline some major advantages: safe, robust, powerful, long lasting, easy to maintain. Uploading Arm and Weighing Module Experimen A simple and robust decision maker algorithm has been implemented in DL CIM-C based on the weight of the work pieces. The uploading arm is controlled for selecting pieces of work, in a programmed operations sequence. During the experimenting time, the automation of the uploading process is tested as a concept. Visual Inspection Module Vision inspection systems provide image-based inspection automated for your convenience for a variety of industrial and manufacturing applications. They can measure parts, verifying parts are in the correct position, and recognizing the shape of parts. Computer software processes images captured during the process you are trying to assess to capture data, and they can be embedded into your lines to provide a constant stream of information. The visual inspection module has two work modes: learning mode and compare mode; learning mode is used to update the contrast images stored in the system; the compare mode is that the camera compares the store image with the shoot one, to determine that this image is similar with which picture that pre-existing in the system. These systems can be used in any number of industries in which quality control is necessary. For example, they can assist robotic systems to obtain the positioning of parts to further automate and streamline the manufacturing process. The data collected by a vision system can help improve efficiency in manufacturing lines, sorting, packing and other applications. In addition, the information captured by the vision system can identify problems with the manufacturing line or other function you are examining to improve efficiency, stop inefficient or ineffective processes, and identify unacceptable products. Integration of the substations: CIM experiment The DL CIM-C trainer offers excellent possibility to study, understand, and design the most proper applications where particular substations are implemented to work together. The experiment is mostly focused on sequential execution of different manufacturing operations: 1- reception, loading and first inspection, then transporting materials according with the processes flow, 2- selection point according with inspection algorithms, 3- locating on rotary index for repetitive operations, 4- example of technological process (drilling machine), 5- selection point according with another specific criteria (weight), 6- output selection, palletizing, and preparation for expedition. One time we understand the main operations of defined manufacturing system, the success of using this trainer would be the measure of expansion, or customization according to local requirements. In actual implementation, the PLC sub-programs are working in CIM experiment, like program routines that allow easy understanding of the programming manner",
        "Url": "edquip.co\/en\/de-lorenzo\/computer-integrated-manufacturing-trainer",
        "Page title": "Computer Integrated Manufacturing Trainer: De Lorenzo - EDQUIP",
        "Page description": "Computer Integrated Manufacturing Trainer. Request quotation today, free price estimations, hands-on learning, suitable for schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Integrated Lab Solution",
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        "Packed dimensions": "186 x 72 x 68",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Computer Integrated Manufacturing Trainer\/Computer_Integrated_Manufacturing_Trainer_DeLorenzo_CIM_C.jpg",
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    },
    {
        "Edquip ID": "PL-650505",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL CIM-PMC",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Automated Factory Programmable Manufacturing Cell",
        "Description": "CIM (computer integrated manufacturing) is a manufacturing method, in which the entire production process is automated and controlled by computer to reduce the errors and increase its efficiency.\n\nThe DL CIM-PMC is station-based modular training system, that simulates an automated factory. Each manufacturing cell is controlled by a programmable logic controller (PLC) that allows the automation of the processes and the operation of the industrial production line.\n\nIt is a closed- loop control based on PLC that exchanges information collected from sensors and covers CIM system functional areas like design, analysis, planning, purchasing, cost accounting, inventory control, or more applied functions: materials handling and management, direct control, and monitoring of all the operations.\n\nCOMPOSITION\n\nThe system is composed of 3 main sections that can be used stand-alone or combined in a full production line:\n\nDL CIM-PMC01: Material detection and transport station.\n\nDL CIM-PMC02: Processing station with pneumatic press.\n\nDL CIM-PMC03: Storage station with vertical warehouse.\n\nIn case of a combined purchase, the measurements and weight indicated must be multiplied by 3.\n\nTARGET\n\nIdeal for 4 students to work simultaneously. Vocational and technical schools Applicable to courses in: Automation, Electronics, Mechatronics, Electro pneumatics and Process Control.\n\nTRAINING OBJECTIVES\n\nThe trainer focuses on the study of a programmable manufacturing cell and implementation of an industrial process. It demonstrates the role and the integration of the typical actuators (electric, pneumatic) into process executions.\n\nThe performances of the actuators influence the quality of industrial automation functions. Together with the sensors, they ensure and increase the value of manufacturing processes.\n\nSensors, actuators and transducers work together, allowing the students to perform practices on different topics related to automation such as:\n\n- PLC programming.\n- Material transport with conveyor belt.\n- Using sensor for product detection (material, colour, and position).\n- Understanding of an assembly process system.\n- Use of a Cartesian robot with pneumatic gripper.",
        "Specs": "HIGHLIGHTS\n\nThe DL CIM-PMC is a compact solution that covers many transversal applications and didactic topics in the areas of Automation, Pneumatics, Mechatronics, Electronics, and Process Control.\n\nIt not only uses a proof of concepts approach; but it also simulates a real application of industrial sensors and actuators, programmable logic control (PLC), and dedicated information and computer technologies (ICT-s).\n\nAll training topics are designed to understand the CIM main functions and components, where the sensors collect the information needed for inspections and handling, the actuators execute the process, and the PLC monitors and controls manufacturing algorithms.\n\nThe trainer implements sequential operations, with some automated parallel work. Each substation can be studied separately learning about its specific components and functionalities of each manufacturing phase:\n\n- Material transport and detection.\n- Product assembly.\n- Storage and Warehouse management.\n\nThe provided CIM software for PLC shows the openness of the system for expansion, or customization. At the same time, it can be a ready-for-industry implementation solutions because it has been tested on the CIM trainer.\n\nKEYWORDS\n\nComputer Integrated Manufacturing, Automation, Pneumatics, Mechatronics, Electronics, Process Control, Industrial processes applications, Flexible Manufacturing Systems, design, analysis, planning, materials handling, direct control, manufacturing cell, PLC.\n\nAUTOMATED FACTORY MATERIAL TRANSPORT AND DETECTION STATION DL CIM-PMC01 CIM (computer integrated manufacturing) is a manufacturing method, in which the entire production process is automated and controlled by computer to reduce the errors and increase its efficiency. The DL CIM-PMC01 reproduces a scaled-down material detection and transport station. The manufacturing cell is controlled by a programmable logic controller (PLC) that allows the automation of the processes and the operation of the industrial production line. It is a closed- loop control based on PLC that exchanges information collected from sensors and covers CIM system functional areas like design, analysis, planning, purchasing, cost accounting, inventory control, or more applied functions: materials handling and management, direct control, and monitoring of all the operations. PROCESS DESCRIPTION The automated factory simulates the assembly of cubes composed of two parts, a metal base and a plastic lid (black and white), joined together with plugs. The DL CIM-PMC01 is the first station in the chain. It is composed of 2 vertical feed bins that contain the raw material (lower and upper parts of the cube). When a part is discharged on the belt, different sensors will detect its material, colour, and drilled hole before travelling to the next station to be processed or being discarded. TARGET Ideal for 4 students to work simultaneously. Vocational and technical schools Applicable to courses in: Automation, Electronics, Mechatronics, Electro pneumatics and Process Control. TECHNICAL FEATURES The DL CIM-PMC01 includes: \u2022 Feed bin unit: used to store raw materials, consisting of upper metal feed bin and lower plastic feed bin. Both are equipped with a sensor to detect the feeding shortage, as well as a discharge cylinder. The Feed bin contains 12 lower metal covers, 6 black upper plastic covers, 6 white upper plastic covers and 1 lower undrilled metal cover for waste material detection. Housing cubes made of aluminum and Plastic covers (white and black). \u2022 Detection unit: Different sensors are available to detect different materials qualities: Photoelectric sensor, Capacitive sensor, Inductance sensor, Fiber optical sensor, Magnet switch. \u2022 Conveyor unit: forwards the work pieces and connects the workstations. The conveyor belt is driven by a stepper motor with adjustable speed. \u2022 Control panel for monitoring the system in real time that includes indicator lights (power on, stop, start, reset) and an emergency stop button. \u2022 Siemens PLC-CPU1214C: o Includes the software for programming the PLC. o 32 I\/Os at 24 Vdc: 22 input 10 outputs. o Communication interface. \u2022 Power supply: AC power supply single-phase 3-wire. The station is supplied with programming software, connection cables and working cubes. TRAINING OBJECTIVES The trainer focuses on the study of a programmable manufacturing cell and the functionality of a material transport and detection station. It demonstrates the role and the integration of the typical actuators (electric, pneumatic) into process executions. The performances of the actuators influence the quality of industrial automation functions. Together with the sensors, they ensure and increase the value of manufacturing processes. Sensors, actuators and transducers work together, allowing the students to perform practices on different topics related to automation such as: \u2022 PLC programming. \u2022 Material transport with conveyor belt. \u2022 Using sensor for product detection (material, colour, and position). AUTOMATED FACTORY PROCESSING STATION CIM (computer integrated manufacturing) is a manufacturing method, in which the entire production process is automated and controlled by computer to reduce the errors and increase its efficiency. The DL CIM-PMC02 reproduces a scaled-down processing station with pneumatic press. The manufacturing cell is controlled by a programmable logic controller (PLC) that allows the automation of the processes and the operation of the industrial production line. It is a closed- loop control based on PLC that exchanges information collected from sensors and covers CIM system functional areas like design, analysis, planning, purchasing, cost accounting, inventory control, or more applied functions: materials handling and management, direct control, and monitoring of all the operations. PROCESS DESCRIPTION The automated factory simulates the assembly of cubes composed of two parts, a metal base and a plastic lid (black and white), joined together with plugs. The DL CIM-PMC02 received the inspected material and relative information from the DL CIM-PMC01. The metal base, after having the pins inserted, is placed in the press where it is assembled with a plastic lid. The assembled cube is placed back on the belt and transferred to the next station for storage. TARGET Ideal for 4 students to work simultaneously. Vocational and technical schools Applicable to courses in: Automation, Electronics, Mechatronics, Electro pneumatics and Process Control. TRAINING OBJECTIVES The trainer focuses on the study of a programmable manufacturing cell and the functionality of an assembly station with a pneumatic press. It demonstrates the role and the integration of the typical actuators (electric, pneumatic) into process executions. The performances of the actuators influence the quality of industrial automation functions. Together with the sensors, they ensure and increase the value of manufacturing processes. Sensors, actuators and transducers work together, allowing the students to perform practices on different topics related to automation such as: \u2022 PLC programming. \u2022 Sensor setting. \u2022 Understanding of an assembly process system. TECHNICAL FEATURES The DL CIM-PMC02 includes: \u2022 Pin assembly unit: insert 2 pins into the lower metal base. It consists of a material positioning mechanism, pin supply mechanism and pin assembly mechanism. It includes a shortage alarms and cylinders for intercepting, and pushing the metal base in the unit, and for feeding and pressing in the pins. \u2022 General assembly unit: assemble the upper plastic cover and the lower metal cover, completing a finished cube. It consists of a transfer mechanism with a vacuum gripper to place the material on the assembly mechanism which includes the press cylinder. \u2022 Conveyor unit: forwards the work pieces and connect the workstations. The conveyor belt is driven by a stepper motor with adjustable speed. Includes a light barrier for material detection at the conveyor\u2019s end. \u2022 Control panel for monitoring the system in real time that includes indicator lights (power on, stop, start, reset) and an emergency stop button. \u2022 Siemens PLC-CPU1214C: o Includes the software for programming the PLC. o 44 I\/Os at 24 Vdc: 26 input 18 outputs. o Communication interface. \u2022 Power supply: AC power supply single-phase 3-wire. The station is supplied with programming software, connection cables and working cubes. AUTOMATED FACTORY STORAGE STATION CIM (computer integrated manufacturing) is a manufacturing method, in which the entire production process is automated and controlled by computer to reduce the errors and increase its efficiency. The DL CIM-PMC03 reproduces a scaled-down vertical warehouse storage station. The manufacturing cell is controlled by a programmable logic controller (PLC) that allows the automation of the processes and the operation of the industrial production line. It is a closed- loop control based on PLC that exchanges information collected from sensors and covers CIM system functional areas like design, analysis, planning, purchasing, cost accounting, inventory control, or more applied functions such as materials handling and management, direct control, and monitoring of all the operations. PROCESS DESCRIPTION The automated factory simulates the assembly of cubes composed of two parts, a metal base and a plastic lid (black and white), joined together with plugs. The DL CIM-PMC03 received the inspected material and relative information from the DL CIM-PMC02. The assembled cube is placed in an empty slot of the warehouse based on its colour and the position predefined by the user. At the end of the process, the cubes can be manually extracted from the warehouse by opening the doors. TARGET Ideal for 4 students to work simultaneously. Vocational and technical schools Applicable to courses in: Automation, Electronics, Mechatronics, Electro pneumatics and Process Control. TRAINING OBJECTIVES The trainer focuses on the study of a programmable manufacturing cell and implementation of a storage warehouse system. It demonstrates the role and the integration of the typical actuators (electric, pneumatic) into process executions. The performances of the actuators influence the quality of industrial automation functions. Together with the sensors, they ensure and increase the value of manufacturing processes. Sensors, actuators and transducers work together, allowing the students to perform practices on different topics related to automation such as: \u2022 PLC programming. \u2022 Sensor setting. \u2022 Use of a Cartesian robot with pneumatic gripper. TECHNICAL FEATURES The DL CIM-PMC03 includes: \u2022 Servo drive robot unit: Cartesian robot for placement on high rack storage system, consisting of 2 electric servo axes, one pneumatic gripper, one pneumatic rotary axis and a pneumatic axis for moving the gripper to the conveyor or into the storage area. \u2022 Storage unit: vertical aluminium structure with 15 locations (3 rows x 5 columns) to store the finished cubes assembled in the previous stations. \u2022 Conveyor unit: forwards the work pieces and connect the workstations. The conveyor belt is driven by a stepper motor with adjustable speed. Includes photoelectric sensors for positioning. \u2022 Control panel for monitoring the system in real time that includes indicator lights (power on, stop, start, reset) and an emergency stop button. \u2022 Siemens PLC-CPU1214C: o Includes the software for programming the PLC. o 28 I\/Os at 24 Vdc: 14 input 14 outputs. o Communication interface. \u2022 Power supply: AC power supply single-phase 3-wire The station is supplied with programming software, connection cables and working cubes. NECESSARY ACCESSORIES (optional) Single-Phase Electro-Compressor DL 8110SLZ With very low noise level for small capacity. Tank capacity: 24 litres Air intake: 50 litres\/min. Max. working pressure: 8 bar or 116 PSI Motor power: 0.34 kW or 0.45 HP Noise level: 40 dB Dimensions: 40 x 40 x 60 (h) cm. Weight: 25 kg.",
        "Url": "edquip.co\/en\/de-lorenzo\/automated-factory-programmable-manufacturing-cell",
        "Page title": "Automated Factory Programmable Manufacturing Cell: De Lorenzo - EDQUIP",
        "Page description": "Automated Factory Programmable Manufacturing Cell. Request your quotation today, free price estimations, suitable for technical schools, colleges & universities",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Integrated Lab Solution",
        "Education level": [
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            "Engineering Undergraduate"
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        "Attributes": [],
        "Labels": [
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        "Warranty": "12 months",
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        "HS Code": "9023 0010",
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        "Packed dimensions": "88 x 88 x 190",
        "Packed dimensions unit": "cm",
        "Packed weight": "110",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Automated Factory Programmable Manufacturing Cell\/Automated_Factory_Programmable_Manufacturing_Cell_DeLorenzo_DL_CIM-PMC.jpg",
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        "Main category": "Manufacturing Training Systems"
    },
    {
        "Edquip ID": "PL-100747",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL TMAC11",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Refrigeration And Air Conditioning Training System",
        "Description": "Refrigeration and air conditioning training developed to demonstrate the operation and working principle of a cooling system. Students will be able to follow the refrigeration cycle, explore the layout and functions of all main components and perform maintenance and troubleshooting exercises. The didactic system is fully operable and contains all the basic components of refrigeration and air conditioning system. The components are exposed and mounted on a vertical frame. The students control and monitor the experiments procedure using instruments and transparent observation points.\n\nMAIN CHARACTERISTICS\n\n\u2022 The trainer combines air conditioning system, refrigerating system and electronical control system. \u2022 The trainer is based on a real domestic heat pump type air conditioner and a real domestic refrigerator \u2022 The air conditioner can be controlled by remote controller. \u2022 Working temperatures, pressures and electrical values can be directly read from meters for working principle understanding. \u2022 It clearly the refrigerator inner components layout and refrigerating cycle system structure; It demonstrates the operating principle of the refrigerator and a heat pump type air conditioner; in includes schematic diagram of control system and relative test points; sight glass in the pipeline is used to observe refrigerant status; HV pipeline is marked with red, while LV pipeline with blue, relative components are all labelled. \u2022 It includes a connection area for electrical control circuit of outdoor unit for students\u2019 hands-on ability training. \u2022 It includes fault introduction system",
        "Specs": "Air conditioning system \u2022 Main components: compressor, high pressure gauge, low pressure gauge, four-way valve, condenser, evaporator, sight glass, filter, capillary, sensors etc. \u2022 Electronical control system is composed of o Timer indicate light\uff0cpower indicate light, compressor indicate light, remote receiver, auto button, compressor working status light\uff0coutdoor fan status light\uff0cfour-way status light, indoor fan motor high speed running light, indoor fan motor middle speed running light, indoor fan motor low speed running light. o 6 relay testing points, 2 NTC test point, test points for DC 12V and DC 5V Refrigerator system \u2022 Main components: compressor, high pressure gauge, low pressure gauge, condenser, evaporator, capillary, sight class, refrigerator room simulating cabinet, temperature adjusting nob, 2-position 3-way solenoid valve, sensors, control valve; \u2022 Electronical control system is composed of o Compressor status light, deep freezing light, deep freezing button, start button, stop button, temperature adjust nob; o 2 test points for relays, 2 NTC test points, test points for DC 12V and DC 5V \u2022 Main electrical control part \u2022 Power supply: AC voltmeter, AC ammeter, fuse, mains with leakage protection, pilot LED, switch with key 1pc\uff0cemergency stop button 1pc \u2022 Four temperature meters \u2022 Test points \u2022 Connection area \u2022 Terminals for electronical connection to accomplish the cooling control functions. Faults can be simulated manually here. \u2022 Power supply: 220V 50Hz \u2022 Size: 1200 mm *800mm *1910mm(L*W*H) \u2022 Weight: 70kg EXPERIENCIA DID\u00c1CTICA DIDACTIC EXPERENCE With this trainer is possible follow the experiments below: Air conditioning \u2022 Electrical connection \u2022 Cooling experiment \u2022 Heating Experiment \u2022 Ventilating experiment \u2022 Dehumidifying Experiment \u2022 Fault simulation of outdoor fan motor \u2022 Fault simulation of compressor \u2022 Fault simulation of four-way valve \u2022 Fault simulation of indoor fan motor at various speed \u2022 Filth blockage simulation of air conditioner refrigeration system \u2022 AUTO KEY mode of air conditioner \u2022 Refrigerant recycling of air conditioning system \u2022 Refrigerant filling of air conditioning system Experiments of refrigerator \u2022 Electrical connection \u2022 Deep freezing experiment \u2022 Fault of compressor \u2022 Fault of solenoid valve 2 \u2022 Fault of solenoid valve 1 \u2022 Fault of Filth blockage Practicing Experiments \u2022 Pressure maintaining and leak detection of refrigeration system \u2022 Pipe cutter training \u2022 Copper pipe flaring training \u2022 Pipe bender training The system is supplied with data acquisition software",
        "Url": "edquip.co\/en\/de-lorenzo\/refrigeration-and-air-conditioning-training-system",
        "Page title": "Refrigeration And Air Conditioning Training System: De Lorenzo - EDQUIP",
        "Page description": "Refrigeration & Air Conditioning Training System. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
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        "HS Code": "9023 0010",
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        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-600967",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL I4.0 FACTORY",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Industry 4.0 Smart Factory",
        "Description": "De Lorenzo's solution creates a collaborative environment to study concepts related to Industry 4.0, integrating subsystems typically found in a production plant. The trainer is composed of a set of electronic boards and simulators to study the different subsystems that can be found in a real production line. Using an Arduino open-source microcontroller connected to a SCADA software for data acquisition and control, the students will be able to perform practices covering topics that range from the introduction to automation and robotics, communication protocols (IOT), sensors and actuators to a complete study of a productive system. The trainer is composed of 4 subsystems. Each onecan be studied independently to execute practices covering topics ranging from the operation of sensors and actuators to the introduction of automation and robotics or linked together for the simulation of a more complex Industry 4.0 production line. The student can acquire and analyze the data generated from the interactions between stations to manage and optimize the overall industrial process. CHARACTERISTICS \u2022 Multidisciplinary laboratory organized by levels ranging from the most basic concepts of electronics and automation to the simulation of an industrial process. \u2022 Hands-on training platform based on experiments. SKILLS DEVELOPMENT \u2022 Through an open source platform, students will be able to develop applications using programming and control techniques. \u2022 The trainer is a platform to simulate real scenarios. \u2022 Development of analytical and problem solving skills. MODULARITY \u2022 Collaborative environment to study Industry 4.0 concepts. \u2022 Scale model of the systems that make up a factory 4.0. \u2022 Modular reconfigurable laboratory. \u2022 Platform for project development. OPEN SCADA WEB \u2022 Software to monitor and control all subsystems of the trainer. \u2022 Learning platform based on a software structured using a didactic approach (CAI). \u2022 Open and customizable software. \u2022 Remote monitoring and control interface.",
        "Specs": "Modulary 1. RFID (RADIO-FREQUENCY IDENTIFICATION): \u2022 Use of RFID in industrial environments. \u2022 Product traceability 2. 5-AXIS ROBOTIC ARM \u2022 Introduction to robotics 3. CONVEYOR BELT: \u2022 Introduction to automation \u2022 PLC programming 4. SEMI-AUOTOMATIC WAREHOUSE: \u2022 Inventory management \u2022 Sorting algotithms OPEN SCADA-WEB DL I4.0 FACTORY 1. WITH A DIDACTIC APPROACH: The program is structured with a didactic approach, including the theoretical and practical information necessary to complete the proposed exercises. 2. OPEN CODE: The license allows students to create their own projects and customize them to show the parameters of interest. 3. INTELLIGENT MANAGEMENT: It is possible to generate automatic reports and control actuators for an \"intelligent\" management of a production process. 4. DISTANCE LEARNING: With the software you can remotely monitor the system from a local or remote PC using an Internet connection. The SCADA software exchanges information with all of the trainer's subsystems, displaying sensor data and system status to monitor the system in real time. The software also acts as a Computer Aided Instruction (CAI) software that guides the student through their learning path. SYSTEM ARCHITECTURE Through industrial SCADA software, all substations are able to exchange and display relevant information. The software is structured to follow a simulated manufacturing process that receives information from the user and generates report files that can be accessed remotely. Processes implemented in the Software include: \u2022 Processing a customer order. \u2022 Generating a production order \u2022 Generating a purchase order \u2022 Managing and updating different bills of materials \u2022 Monitoring the production process \u2022 Managing inventories \u2022 Creating packing lists All relevant historical data is recorded on the RFID tag. DIDACTIC APPROACH Level 1: BRS circuit subboards to study individual components (sensors, actuators). Level 2: Integration of the different components in subsystems through an Arduino microcontroller. Level 3: Integration of subsystems with a SCADA system to monitor and control a process. With this trainer, the student will become familiar with the different parts that make up a real industrial process and will learn the corresponding concepts gradually. It will start with the study of the basic hardware up to the practical development of a scale model of the production line. SKILLS DEVELOPMENT 1. TECHNICAL AND VOCATIONAL SCHOOLS \u2022 Circuit theory \u2022 Programming fundamentals \u2022 Sensors and actuators 2. ROBOTICS, TELECOMMUNICATIONS AND ELECTRONICS ENGINEERING COURSES \u2022 Study of communication protocols, RFID \u2022 Bluetooth, IOT \u2022 Automation and control theory \u2022 Microcontrollers 3. ENGINEERING STUDIES \u2022 Process theory and optimization \u2022 Information theory \u2022 Industrial automation The DL I4.0 system is composed of the following modules: \u2022 DL 3155BRS- RFID: RFID protocol study board. \u2022 DL ROB- SIM: Kit for the study of the robotic arm \u2022 DL CIM- SIM: Kit for the study of conveyor Belt \u2022 DL WMS-SIM: A Kit for the study of warehouse 4.0. KIT FOR STUDY OF RFID APPLICATIONS With this card, students can study the properties of an RFID system and all the components needed to develop a door access control system. Learning experience \u2022 Reader behavior when a tag is identified. \u2022 How to read data from the proximity IC card using an RFID reader. \u2022 How to read and write data blocks on a MIFARE proximity IC card. \u2022 How to write personal data to a MIFARE proximity IC card using an RFID reader. \u2022 How to read personal data on a MIFARE proximity IC card using an RFID reader. \u2022 How to activate a relay using the microcontroller outputs. How to control a display using the microcontroller. \u2022 How to control a real-time clock device using the microcontroller. \u2022 How to connect a keyboard to a microcontroller. Simulation of a door access control system. DL ROB-SIM; KIT FOR THE STUDY OF THE ROBOT ARM With this card system, students can study the properties of a 5-axis robotic arm used in industrial settings. Sensors and actuators are included to develop a complete course on robot control systems. The system for studying the control systems of a 5- axis robotic arm is composed of two main elements: \u2022 A kit of mini board to study the hardware characteristics and control techniques used in a robotic system by means of an open source microcontroller. \u2022 A real hardware simulator of a 5-axis robotic arm used in an industrial environment. DESCRIPTION OF THE SYSTEM CIRCUIT BLOCKS Kit composed of mini board for the propaedeutic study of the different elements that compose a robotic arm. LEARNING EXPERIENCES \u2022 Characteristics of a joystick controller and interface with the microcontroller. \u2022 Study of the ultrasonic proximity sensor, servomotor and its controller. \u2022 Introduction to Bluetooth standard and implementation of a Bluetooth interface with the microcontroller. \u2022 Flex sensor analysis and its interface with the microcontroller. \u2022 Control of an LCD display by means of an I2C communication interface. \u2022 Measurement of orientation and angular velocity with a gyroscope. HARDWARE SIMULATOR This system the student will experiment with different methods to control a 5-axis robotic arm and will increase the competence needed for HW design and SW programming of an electromechanical system. LEARNING EXPERIENCES \u2022 Study of the robot components. \u2022 Control of the arm in real time by means of Joystick. \u2022 Step-by-step programming of the movements. \u2022 Recording of movements. \u2022 Programming of the positioning in the Cartesian plane. \u2022 Bluetooth communication. DL CIM- SIM; KIT FOR THE STUDY OF A CONVEYOR BELT With this training system, students can learn about the properties of a conveyor belt used in industrial environments. Sensors and actuators are included to develop a complete course on the main characteristics of conveyor systems and their applications. The trainer for the study of a conveyor belt consists of two main elements: \u2022 A kit of mini board to study the hardware features and control techniques of a conveyor belt. \u2022 A real hardware simulator of a conveyor belt unit used in a real industrial environment. DESCRIPTION OF THE SYSTEME CIRCUIT BLOCKS Kit composed of mini board for the propaedeutic study of the different elements that compose a conveyor belt system. LEARNING EXPERIENCES \u2022 Control of an LCD display through a microcontroller. \u2022 Detecting an object by means of an infrared sensor. \u2022 Monitoring of an RGB sensor. \u2022 Control of a DC motor through a power controller. \u2022 Control of a stepper motor. \u2022 Acontrol and latching function via a pushbutton panel. Writing on a seven- segment display. HARDWARE SIMULATOR This system is primarily used to teach, demonstrate and experiment with different methods of controlling a conveyor belt. The student will develop the skills for HW design and SW programming of an electromechanical system. LEARNING EXPERIENCE \u2022 Control of a conveyor belt through a push button panel. \u2022 Use of a PLC to control the movement of the conveyor belt. \u2022 Monitoring and identification of a processed part on the conveyor belt. \u2022 Tracking the position of a part placed on the conveyor belt. \u2022 Identifying and verifying the color of a part. \u2022 Identify a defective part and place it in the correct location at the end of the line. DL WMS-SIM; KIT FOR THE STUDY OF A SMART WAREHOUSE With this training system, students can learn about the properties of a semi-automatic warehouse that can be found in industrial environments. The trainer for the study of a warehouse management system is composed of two main elements: \u2022 A kit of mini board to study the hardware features and control techniques used in a semi- automatic warehouse. \u2022 A real hardware simulator of a semi-automatic warehouse used in a real industrial environment. DESCRIPITON OF THE SYSTEM CIRCUIT BLOCKS Kit composed of mini board for the propaedeutic study of the different elements that make up a semi-automatic warehouse. LEARNING EXPERIENCES \u2022 Control of an LCD display through a microcontroller. \u2022 Weight measurement with a tension meter. \u2022 External temperature and humidity monitoring. \u2022 Implementation of a closed-loop ON-OFF controller for a temperature-humidity cycle. \u2022 Implementation of a closed-loop PID controller for a temperature-humidity cycle. \u2022 Performing measurements with a distance sensor. \u2022 Interconnecting a keyboard to a microcontroller. HARDWARE SIMULATOR This system is primarily used to teach, demonstrate and understand the main features and operation of a pick and place system and a semi-automatic warehouse. LEARNING EXPERIENCES \u2022 Identifying and weighing an item. \u2022 Manually assign an item to an item. \u2022 Automatically assign an item to an item. Automatic inventory update. \u2022 Manual picking of an item from the warehouse. \u2022 Automatic picking of an item from the warehouse. DL FABLAB; MANUFACTURING LABORATORY De Lorenzo proposes the FABLAB, as a fundamental laboratory to help the student move into the future, taking the first steps in the world of 3D modeling. The laboratory, which consists of a high performance 3D printer and a comprehensive didactic manual, aims to guide the student through a complete experience, starting from the mental conception of an object. The complete process proposed by De Lorenzo follows a 4-step cycle: design, modeling, 3D printing and application. With detailed documentation accompanied by practical videos, the student will learn the basics of 3D modeling, mechanics and strength of the models, and will also master the preparation of print files to create objects indispensable in various professional areas. \"Accessory Sold separately\" SCADA SOFTWARE FOR INDUSTRY 4.0 CHARACTERISTICS The Industry 4.0 training system is controlled by industrial SCADA (Supervisory Control and Data Acquisition) software that exchanges information with all subsystems of the trainer, displaying sensor data and system status for real-time control. The software learning platform (CAI) is structured using a didactic approach, including the theoretical and practical information necessary to address the proposed topics. PRACTICES Through the monitoring system, all substations that make up the Industry 4.0 trainer are able to exchange data and display process-relevant information. \u2022 Processing a customer order. \u2022 Generate a production order. \u2022 Generate a purchase order. \u2022 Manage and maintain different bills of materials. \u2022 Supervise the production process. \u2022 Manage inventories. \u2022 Create packing lists.",
        "Url": "edquip.co\/en\/de-lorenzo\/industry-4-0-smart-factory",
        "Page title": "Industry 4.0 Smart Factory: De Lorenzo - EDQUIP",
        "Page description": "Industry 4.0 Smart Factory. Request your quotation today, free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Engineering Undergraduate",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
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        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
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        "HS Code": "9023 0010",
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        "Packed dimensions": "167 x 92 x 98",
        "Packed dimensions unit": "cm",
        "Packed weight": "155",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Industry 4.0 Smart Factory\/Industry 4.0 Smart Factory DL I4.0 FACTORY (1).jpg",
        "Video link": "<a href=\"https:\/\/www.youtube.com\/embed\/BkCFwAWUiF8\" >https:\/\/www.youtube.com\/embed\/BkCFwAWUiF8<\/a>",
        "Main category": "Manufacturing Training Systems"
    },
    {
        "Edquip ID": "PL-604232",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL I4.0",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Professional Course On Industry 4.0",
        "Description": "The DL I4.0 Lab is a collaborative didactic system that integrates hardware processes through software that illustrates the Smart Factory of the future.\n\nData accumulation using data mining tools allows the student to identify key elements and develop the skills required by the fourth industrial revolution for more efficient planning and more flexible use of resources.\n\nDIDACTICS OF INDUSTRY 4.0\n\nThe trainer is designed for technical school, undergraduate and postgraduate students, to learn about the dominant concepts and technologies in the industrial market.\n\nThe student will learn how processes, software and hardware relate to each other, to later operate a current \u201cPush\u201d type automated production system and transform it into a \u201cPull\u201d type system operated in Industry 4.0.\n\nThe collaborative platform encourages student participation in multidisciplinary groups to simulate in the classroom conditions and problems typically found in the industry, by developing skills such as teamwork, leadership, and critical thinking, among others.\n\nRELATED COURSES\n\n01 - Mechatronics\n\n02 - Mechanics\n\n03 - Information Technology\n\n04 - Industrial Engineering\n\n05 - Logistics Business\n\n06 - Administration\n\n07 - Business Management\n\nARCHITECTURE\n\nThe DL I4.0 laboratory is made up of 3 main workstations that demonstrate the functioning of a productive Industry: The line achieves the complete operation of a scale factory within a school laboratory, with elements used in the industry, such as: Industrial Hardware, Industrial Software and Simulated Industrial Processes.\n\nThe modules interact with each other through different communication protocols, making it an Industry 4.0 Lab. Students will be able to use the platform to carry out career-specific practices, interact with the equipment, take relevant information to specific case studies, and learn new technologies. The limit is the teacher's imagination and what students are allowed to do. 1\n\nPROCESSES.\n\nA key element in any industry that allows a company to operate correctly. For the student, their understanding and assessment is important for a successful professional life. In the trainer, the processes are based on the study of Lean Six Sigma. 2\n\nHARDWARE.\n\nThe trainer is composed of 3 stations which together perform the functions of a factory as a whole. In these stations we will find technologies such as: IoLink, PLC, Spray Printer, Barcode Printer, Cartesian Robot, Industrial Scara Robot, Smart Sensors, IoT. 3\n\nSOFTWARE.\n\nIndispensable in the industry and in the life of the student, its use will allow him, in addition to knowing the processes, to obtain specific technical skills in the management of systems such as ERP, Enterprise Resource Planning, WMS, Warehouse Management System, MES, Manufacturing Execution System.\n\nAs well as: Software for Data Analysis, Augmented Reality, Virtual Clone. Processes In this laboratory, the student will understand the need to collect all possible information, for later storage and statistical studies for decision-making.\n\nThe student will also carry out practices with productive processes that will be perfected through Lean Six Sigma.\n\nOBTAINING DIFFERENT INDUSTRIAL PERFORMANCE INDICATORS (KIPs), SUCH AS:\n\nOEE (Overall Equipment Effectiveness) Purchase Order Costs Deadline Compliance Percentage Average Stock of Raw Materials Supply time Profit or Net Income Productivity Defective Product Stocks Some of the studies allowed by the process section are: Process Capability Indices. - Six Sigma Metrics. Pareto diagrams. - Ishikawa diagrams. Process diagrams. - Quality Function - Deployments (QFD). - Capacity and Stability. Reliability.\n\nFMEA (Failure Mode and Effect Analysis Laboratory based on a LEAN 6 SIGMA industry It is a methodology aimed at improving the products, services, and processes of an organization, incorporating statistical and problem-solving techniques, focused on eliminating defects and reducing possible variations and the process cycle time.\n\nThe processes are definable and measurable, and all the generated information can be used to improve them.\n\nThe implementation of Six Sigma takes place through five well-defined steps, known as the DMAIC cycle (Define, Measure, Analyze, Improve and Control).\n\nThus achieving: Reduction of non-quality costs. Defect reduction. Profitability improvement Reduction in complaints.\n\nLean Manufacturing and Six Sigma By focusing on continuous improvement, we optimize the production system by eliminating waste and activities that add no value to the process.\n\nThus achieving: A customer- focused system, the generation of significant returns or investments, and the stimulation of a new operational approach.",
        "Specs": "The system is composed by three collaborative stations\n\nDL I4.0-ST1 Storage and Feeding: This station functions as an Automated Storage and Retrieval System (AS\/RS) where the student feeds material into the station through a band and it is then placed by a Cartesian Robot in the locations predefined in the software.\n\nDL I4.0-ST2* Solids Filling and Closing: This station, which communicates with the DL I4.0-ST1 station and the DL I4.0-ST3, is where the P.O. is carried out (Production Order), a Cartesian Robot supplies the containers and labels them to move on to the next station.\n\nDL I4.0-ST3** Selection and Labeling: This station, which communicates with the DL I4.0-ST2 station, is where the part numbers that constitute a P.O. (Purchase Order) are selected and packaged with an industrial SCARA robot.\n\n\"ENCOURAGE COLLABORATIVE WORK IN LEARNING AND DEVELOPING STUDENT- CENTERED PROFESSIONAL SKILLS\"\n\nAll 3 stations are connected through hardware (PLC) and software (SCAP) *Station ST-1 is required for its operation. **Stations ST-1 and ST-2 are required for its operation\n\nCHARACTERISTIC HARDWARE SIEMENS 1500 SERIES PLC IO-LINK MASTER AND SENSORS SCARA ROBOT CARTESIAN ROBOT RFID VISION SENSOR SPRAY PRINTER BARCODE PRINTER Software. Block Diagram\n\nSOFTWARE: Warehouse and Production Control System (SCAP)\n\nWHAT IS IT? An inventory control system is the procedure through which a company efficiently manages the movement and storage of merchandise as well as the resulting flow of information and resources. The didactic objective of our software is for students to identify processes, inventory classification, and reliability (measurement and quantification) in the records that a company manages.\n\nThe software performs the functions of warehouse and production management systems, and environmental variables monitoring. The system controls the processes that the stations run, provides Information for decision-making that students will use to develop practices on different subjects.\n\nFEATURES\n\n- Unlimited number of devices or users. Intuitive and natural use.\n- No subsequent licensing costs.\n- Multiple languages.\n- Information backups.\n- Monitoring of system inputs.\n- Safetyis controlled by the teacher.\n- Monitoring of what happens in the station.\n- Practice resume function.\n- The teacher can restore the information of the practice that was carried out in a previous session.\n\nBackground and SCADA programs Interaction with the PLC and the implemented sensors.\n\n- Reading and writing information in the database which is the commanding element in the architecture.\n\n- Execution of web services that interact with the peripheral applications of the cell and where you can develop applications in various programming languages and JAVA.\n\n- They provide the infrastructure required for students to extract information they can use for calculations and considerations that demonstrate their knowledge gained in the classroom.\n\n- They allow augmented reality to exploit information on the elements contained in the cell.\n\n- This layer of software allows Information Technologies career students to carry out practices and applications that interact with the entire laboratory, including sensors and actuators.\n\n- Supervision, Control and Data Acquisition (SCADA) of each of the modules that make up the line. Includes APP's for Android Mobile Devices It allows analysing the processes that are carried out when moving through the warehouse and the \u201ctime and motion\u201d involved in its handling.\n\nWarehouse: Implements the basic functions of Cycle Inventory, Warehouse Input, Warehouse Output, Environmental Monitoring and Alerts. Virtual Clone It is an augmented reality environment that displays information through an app developed for Android operating system.\n\nPointing to markers positioned on the equipment, the application will allow the user to access information from the following two levels:\n\n- Display of administrative and process information.\n- Display of technical information.\n\nWith this interaction the student will learn how industrial processes work and their impact on hardware performance, allowing information to be generated in the virtual environment without affecting real indicators.\n\nThis way, the student will be able to generate a virtual manufacturing, to make decisions on the viability of the production. He will also understand the use of technology implemented in the cells and the functionality of each technological aspect.\n\nData analysis DATAMINING TOOL The SCAP (Warehouse and Production Control System) software provides mechanisms for extracting information that allow it to be integrated into the \u201cOrange\u201d software in a very simple way, developing the following knowledge:\n\n- Machine Learning\n- Data Display\n- Interactive Data Analysis\n\n\u201cSystems for the training of professionals in the 4th Industrial Revolution\u201d\n\nPRACTICES INDUSTRIAL ENGINEERING Bar Code Generation Line Balancing VSM Value Stream Mapping Left- hand Right- hand Diagram Human- Machine Diagram Flow chart Process Operations Diagram Route Diagrams OEE Overall Equipment Efficiency Lean Manufacturing Six Sigma\n\nMECHATRONICS ENGINEERING PLC Programming (Siemens Tia Portal) Acquisition of information in analog and digital PLC (Computer Import) Exploitation of IoT (Internet of Things) sensor information Exploitation of IO-Link sensor information Exploitation of RFID information\n\nLOGISTICS ENGINEERING International purchase and sale Import and export flowchart Incoterms Types of transportation (air, land, sea, and river)\n\nINFORMATION TECHNOLOGIES ENGINEERING Database Cloning. Development of entity - relationship diagram. Basic SQL handling. Advanced SQL handling. Stored Procedure Development (Stored Procedure). Triggers development. Web service development.\n\nENGINEERING IN BUSINESS MANAGEMENT Warehouse generation. Locations generation. Purchase orders from credit suppliers. Production Orders. Management of Suggested Purchases. Development and exploitation of indicators with information from the production line in real time (Mechanical, Mechatronics, Industrial, Business Management and Information Technologies Engineering). Actuator control from IoT sensor information (Mechatronics and Information Technology Engineering). Statistical quality control (Industrial and Information Technology Engineering). Equipment Maintenance (Mechatronics, Information Technology and Industrial Engineering).",
        "Url": "edquip.co\/en\/de-lorenzo\/professional-course-on-industry-40",
        "Page title": "Professional Course On Industry 4.0: De Lorenzo - EDQUIP",
        "Page description": "Professional Course On Industry 4.0 combines hardware & software and illustrates the future Smart Factory. Request your quotation today! Free price estimations.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
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        "HS Code": "9023 0010",
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Professional Course On Industry 4.0\/Professional Course On Industry 4.0 DL I4.0 senza livello bianco.png",
        "Video link": "<a href=\"https:\/\/www.youtube.com\/embed\/R6U8ND8D_NI\" >https:\/\/www.youtube.com\/embed\/R6U8ND8D_NI<\/a>",
        "Main category": "Manufacturing Training Systems"
    },
    {
        "Edquip ID": "PL-379275",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL CNSPLI-KT",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Didactic System for the study and training in refrigeration and air conditioning with reverse cycle",
        "Description": "Didactic station for cooling, with split-type air conditioning of 9000 BTU\/h, reverse cycle (hot\/cold). An air conditioner is basically a cooler without its cabinet and its basic parts are the compressor and the coil. It uses the evaporation of a refrigerant fluid (the gas circulating in the coil) to provide cooling. The mechanisms of the cooling cycle are the same as those in an apartment's fridge and air conditioning. It uses a non-flammable gas compressed by a compressor. Observe the steps of a cooling cycle on an air conditioner: 1. The compressor compresses the cold gas, causing it to heat up at high pressure (shown in red in the diagram above). 2. This hot gas flows through a heat exchanger to dissipate the heat and condense into a liquid state. 3. The liquid flows through an expansion valve and in the process vaporizes to become cold gas at low pressure (shown in blue in the diagram above). 4. This cold gas flows through a heat exchanger which allows the gas to absorb heat and cool the air inside the building. Mixed with the coolant, there is a small amount of low-density oil. This oil lubricates the compressor. DIDACTIC ACTIVITIES 1. Temperature measurements; 2. Pressure measurements; 3. Alternating current measurements; 4. Understanding the Mollier diagram; 5. Understanding thermodynamic tables; 6. Reheat temperature measurements; 7. Observing system performance by differential temperature measurement; 8. Observation of the physical condition of the gas through a liquid inspection glass; 9. Gas collection; 10. Overheating and undercooling control; 11. Simulation of loss of performance in the capacitor by failure insertion; 12. Observation of the effect of the lack of forced ventilation for heat exchange by failure insertion; 13. Observation of the effect of lack of gas compression by failure insertion; 14. Observation of the effect of forced ventilation with inadequate RPM for heat exchange by failure insertion; 15. Observation and understanding of the operation of a reverse cycle. The components of the equipment are part of a real air conditioning system, so they clearly show their complete operation and regulation, allowing the student to identify the main components such as pressure gauges, pressure switches, condensers, evaporators, electrical connection diagnostics and monitoring of the working conditions of the machines, this allows students to be trained in maintenance. In your simulation panel, common mechanical and electrical failures can occur in most air conditioning systems. During operation, the heating and cooling cycles can be regulated, and any physical differences, such as pressure and temperature, can be observed. Electrical faults that can be diagnosed are: \u2022 FAULT 1: Solenoid switch in bypass \u2022 FAULT 2: The blower relay is switched off \u2022 FAULT 3: The compressor relay switches off \u2022 FAULT 4: The fan condenser is switched off The insertion of electrical faults causes mechanical failures in the thermo-hydraulic circuit for maintenance and troubleshooting exercises. ower supply: Single-phase, 3-wire.",
        "Specs": "TECHNICAL DETAILS OF THE SYSTEM Main control panel consisting of: \u2022 Power supply: Single-phase, 3-wire. \u2022 Two-digit thermometers; \u2022 Protection circuit breaker; \u2022 On\/off switch for power supply; The system consists of a split-type air conditioning 9000 BTU, 220Vac, reverse cycle (cold and heat), installed on an anodized aluminum structure, with wheels, equipped with simulation of 4 electrical faults and front with thermo-hydraulic circuit with screen printing. The system has identified its components and its operation, it also has pressure gauges to measure suction and discharge. It is installed on a bench with wheels and is designed to support its entire structure and components, as well as being robust and easy to carry, its size aids in the visualization and manipulation of the components at the time of the study. The front panel shows the schematic diagram of the air conditioning and cooling system. it offers a range of components and test points and overheat protection that are part of an air conditioning system strategically positioned for simulations and labeled with each item's respective name. \u2003 TOOL KIT Kit for the study of projects for cutting, folding, welding and expansion of pipes within the system with pressure sensor unit, with four vacuum gauges to monitor the pressure of the air conditioning system and the cooling system, which contains: - 01 current clamp - 01 3x1 1 \/ 4.5 \/ 16.3 \/ 8 manual pipe bending machine. - 01 high accuracy analog vacuum gauge. - 01 tube piercing valve up to 3\/8. - 01 burr bit punch. - 01 eccentric flange without ratchet with bench screw in inches. - 01 gas manifold assembly r22 and r410a with 90 cm hoses and two adapters. - 01 tube bending spring set, 1 \/ 4.3 \/ 8.1 \/ 2.5 \/ 8 and 3\/4. - 01 pipe cutter from 1\/8 to 1\/1\/8 - 01 mini tubes cut up to 5\/8 for hard-to-reach locations. - 01 leak detector. - 01 extension pin for bag making. - 01 torch up to 1800 degrees welds tubes up to 1 inch. - 01 recharge torch. - 01 non-removable five-tip thermometer, ideal for comparing temperature and overheating and undercooling and air insufflation. - 01 dual stage 5.5 cfm vacuum pump. THE SYSTEM INCLUDES: - Operation Manual - 12-month warranty - Activities Manual",
        "Url": "edquip.co\/en\/de-lorenzo\/didactic-system-for-study-and-training-in-cooling-and-air-conditioning-with-reverse-cycle",
        "Page title": "Training System for Cooling And Air Conditioning: De Lorenzo - EDQUIP",
        "Page description": "Training equipment for cooling and Air Conditioning with Reverse Cycle. Request quotation today! Free price estimations, suitable for colleges and universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": "cm",
        "Equipment weight": null,
        "Equipment weight unit": "Kg",
        "Packed dimensions": "130 x 90 x 186",
        "Packed dimensions unit": "cm",
        "Packed weight": "160",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Didactic System For Study And Training In Cooling And Air Conditioning With Reverse Cycle\/Didactic_System_For_Study_And_Training_In_Cooling_And_Air_Conditioning_With_Reverse_Cycle_DL CNSPLI-KT.png",
        "Video link": null,
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-696575",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL  CLIMA-6",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Didactic System For The Study Of Energy Efficiency In Hvac Systems",
        "Description": "The bench for the Study of Energy Efficiency in HVAC (Air Conditioning) Systems was designed to allow the study and measurement of electrical consumption, temperature gradients, possible failures and loss of performance in an air conditioning system that includes the reverse cycle. It allows to demonstrate in practice, the differences in the energy consumption and the energy efficiencies of the system, with the insertion of faults that commonly occur in climate-controlled environments. The bench is made of structural aluminum profiles, reinforced, anodized and finished on the surface. Approximate dimensions are: 1500 mm wide x 900 mm deep x 1400 mm high, with an air conditioning chamber of approximately 0.5 cubic meters, and is suitable for the installation of drive equipment, electrical circuits, cooling gas pipes and system components, and instruments such as pressure gauges, valves, pressure switches, liquid inspection glass.",
        "Specs": "The entire circuit, its pipes and components are installed on an external panel to make it more didactic, which allows the operation of several valves that interfere with the operation of the system, in order to insert disturbances that simulate faults or losses of performance. The workbench consists of the following modules\/functions. CONTROL PANEL A panel that provides power and protection for the system with circuit breakers, switches, pushbuttons and signal lights and allows manual control. The necessary equipment for the measurement of electrical parameters and temperatures, as well as the data acquisition system, are installed. MULTIMETER WITH DATA ACQUISITION This multimeter allows the reading of electric parameters directly on the bench, without having to use a computer, by operating the bench manually. The multimeter is supplied with a RS485 to USB conversion cable and software to display the measured values on PC\/Windows (not supplied), with the possibility of storing them. EVAPORATOR The evaporator, from which the air conditioning exits, is installed inside the thermal chamber that is closed on all sides to form a sealed environment as an isolated area. CONDENSER The air conditioning is rated at 9,000 BTU's in reverse cycle, i.e. it can be cooled and heated. COMPRESSOR The compressor, liquid\/gas circuit, condenser, instruments, valves and other devices are installed on the sides and base of the bench, so they are visible and easily accessible. TEMPERATURE GAUGES Two digital thermometers are installed (without transmission, but with local indication), externally visualizing, at equidistant points of the indoor climate area, an internal temperature transmitter and an external temperature transmitter, in order to capture the temperature differences at these points. Two more temperature transmitters are installed in the compressor, one at the suction and one at the discharge, to observe the temperatures in the refrigeration circuit. Four transmitters send the information to the data collection system. \u2003 SYSTEM DIDACTIC ACTIVITIES a) Electrical experiments designed to study the electrical principles used in air conditioning and test its components. b) Diagnosis of the electrical part and monitoring of the working conditions. c) Electrical experiments related to the cooling system and component operating states. d) Pipe design, such as pipe cutting, pipe bending, pipe welding, and pipe expansions and their connections. e) Analysis of the complete air conditioning vacuum system and filling with cooling gas. f) Vacuum cleaning and filling with cooling gas, electrical connections and monitoring of working conditions. g) Power measurements h) Pressure measurements i) Temperature measurements j) Energy efficiency assessments in various modes and work points. k) Supervision program THE SYSTEM INCLUDES - Manuals with theoretical information and practical activities - A set of leads with a banana plug in sufficient quantity to make all necessary connections.",
        "Url": "edquip.co\/en\/de-lorenzo\/didactic-system-for-the-study-of-energy-efficiency-in-hvac-systems",
        "Page title": "Training System for HVAC Energy Efficiency: De Lorenzo - EDQUIP",
        "Page description": "Training system to study energy efficiency in HVAC systems. Request quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "150 x 90 x 140",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "163 x 106 x 161",
        "Packed dimensions unit": "cm",
        "Packed weight": "200",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Didactic System For The Study Of Energy Efficiency In Hvac Systems\/Didactic_System_For_The_Study_Of_Energy_Efficiency_In_Hvac_Systems_DL CLIMA-6.jpg",
        "Video link": null,
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-579871",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HBTV-S",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Didactic System For The Study Of Pumps",
        "Description": "The didactic bench has as objective the study and training in maintenance and assembly of different types of pumps in the range of 6 to 170 liters per minute with a maximum speed of 1750 RPM, in the range of 350 Watts.\n\nThe workbench uses a water tank and an oil tank.\n\nSupplied with a three-phase multimeter providing active and reactive power, consumed current and applied voltage. The multimeter comes with a USB interface for data acquisition to be displayed on a PC with Excel spreadsheets, in these spreadsheets the measured values can be displayed, and the desired curves can be plotted.\n\nEach pump is controlled by an inverter which regulates the speed and measures the developed torque independently. The bench was designed to perform experiments with various types of three-phase hydraulic pumps, with an inverter located inside the panel.\n\nThe frequency converter allows speed and torque measurement to be adjusted. The system aims to raise and compare the pump curves.\n\nThe teaching bench also allows the analysis of the hydraulic power by means of flow and head measurements; it contains a rotameter that measures the flow of the selected pump.\n\nThe bench has an HMI to operate and control the entire system. All steel parts are sandblasted, phosphated and painted by an electrostatic process, and pressure glass parts are borosilicate.",
        "Specs": "Main experiments related to hydraulic pumps:\n\n1. Characteristic curve of a centrifugal pump with acrylic device, suitable for simulating and visualizing the phenomenon of cavitation.\n\n2. Characteristic curve of a peripheral centrifugal pump, fitted with an acrylic tube to visualize changes in flow.\n\n3. Characteristic curve of a gear pump, circulating oil from a dedicated tank of approximately 60 liters.\n\n4. Characteristic curve of a submerged pump.\n\n5. Head, flow, power, and torque measurements.\n\nMain consumption experiments in:\n\n1. Electric energy calculation,\n\n2. Hydraulic power calculation.\n\nMAIN ELEMENTS OF THE SYSTEM\n\n\u2022 One gear, three-phase 0.5 HP pump, 6 poles with a head of 0-40 MCA and a flow rate of 0-12 L\/min (0-0.72 m3\/h).\n\n\u2022 One submerged , three-phase 0.5 hp pump, 2 poles with a head of 0-10 MCA and a flow rate of 0-166 L\/min (0 to 10 m3\/h). It is housed within an acrylic oil tank of approximately 60 liters and 10 mm thick. \u2022 A centrifugal, 0.5 hp, 2-pole pump, three-phase, with a head of 0-20 MCA and a flow rate of 0-66 L\/min (0-4 m3\/h).\n\n\u2022 Centrifugal turbine-type 0.5 hp pump, 2 poles, with a head of 0-20 MCA and a flow rate of 0-40 L\/min (0-2.4 m3\/h).\n\n\u2022 The panel contains a 7\u201d HMI to control the entire system, an emergency button, a multimeter, a rotary switch to allow selection of the motor pump to be measured and a red LED to indicate when the panel is energized.\n\n\u2022 Single-phase and three-phase, bi-directional and four-quadrant electric magnitude multimeter, with inductive and capacitive reactance indication. The module measures various types of electrical quantities, such as line and phase voltage, current, active, reactive, apparent, three phase, frequency and demand power, and provides THD measurements. It can measure up to 500 VAC voltage and 5 A current and provides an RS-485 communication port.\n\n\u2022 7-inch color touchscreen HMI with Type RS485 data buses and Ethernet, both with MODBUS communication. It has a USB port to connect a pendrive for data transfer.\n\n\u2022 A gauge to display the engine torque in Nm.\n\n\u2022 04 (four) frequency converters, each pump is controlled by a converter which regulates speed and measures torque independently. The frequency converter allows the measurement of speed and torque to be adjusted, they are located inside the panel.\n\n\u2022 A VG-68 or similar stainless steel oil storage tank; capacity, approximately 50 liters for hydraulic system recirculation, with positive displacement gear pump.\n\n\u2022 A water storage tank, with a capacity of approximately 190 liters for the recirculation of the hydraulic system, with positive displacement centrifugal pumps.\n\n\u2022 Three flowmeters for flow measurement in m\u00b3\/h. It has a measuring scale with display of up to 8m\u00b3\/h, to measure the pump flow of each pump, with pointer-type valves and pressure gauges (manometer).\n\n\u2022 One flowmeter to measure oil flow.",
        "Url": "edquip.co\/en\/de-lorenzo\/didactic-system-for-the-study-of-pumps",
        "Page title": "Didactic System For The Study Of Pumps: De Lorenzo - EDQUIP",
        "Page description": "Didactic System For The Study Of Pumps. Request quotation today! Free price estimations, hands-on learning, suitable for schools, colleges and universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "200 x 180 x 80",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "50",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "210 x 116 x 206",
        "Packed dimensions unit": "cm",
        "Packed weight": "300",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Didactic System For The Study Of Pumps\/Didactic System For The Study Of Pumps_DL HBTV-S_De Lorenzo_DL HBTV-S.png",
        "Video link": null,
        "Main category": "HVAC Training Equipment"
    },
    {
        "Edquip ID": "PL-624012",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HPC-4-CLS",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Training Bench for Hydrostatics and association of series and parallell Pumps and data acquisition",
        "Description": "Workbench for load loss study. It has PVC pipes with different diameters to compare measurements, which are connected by means of flanges to allow their removal, if necessary.\n\nThe system is controlled via inverters, Venturi tube and tube for experiments, observations and Reynolds number calculations, which can be easily changed between smooth tubes, simply by replacing the flanges.\n\nTo drain unused water, the bank has well-placed hydraulic drains.",
        "Specs": "Didactic activities\n\nThe system allows the following experiments:\n\n-  Anti-discharge head research;\n-  Load loss study on different tubes, connections including smooth tubes, straight tubes of different diameters, hard expansion and contraction, 50 mm radius elbow, 100 mm radius elbow, 90\u00b0 tube, length 45\u00b0, type \"t\" connection, type \"y\" connection;\n-  Study of flow measurement in different measuring instruments including at least: Use of the scale in a volumetric tank, Venturi meter; performance and efficiency of a centrifugal pump;\n-  Operation of the centrifugal pump;\n-  Head height measurement;\n-  Conversion between pressure - height;\n-  Pressure\/flow characteristics of centrifugal pumps;\n-  Available suction height;\n-  Filling the pump;\n-  Sizing and selection of centrifugal pumps;\n-  Parallel operation characteristics of two similar pumps;\n-  Series operation characteristics of two similar pumps;\n-  Parallel operation characteristics of two similar pumps operating at different speeds;\n-  Series operation characteristics of two similar pumps operating at different speeds.\n\nGoals\n\nExperiences in hydrodynamics and observation of hydraulic phenomena, such as:\n\n-  Association of pumps in series and in parallel, such as:\n\n-  Series connection of the pumps: R2, R4, R5 and R3 = Open with R4 and R1 = Closed.\n-  Parallel connection of the pumps: R1, R2, R3 and R4 = Open with R5 = Closed.\n\n-  Head loss in pipes and connections.\n-  Head loss in ascending lines and connections\n-  Head loss in tubular descent and connections\n-  Pressure comparison in pipes of different gauges (from \u00bd to 2 inches)\n-  Turbulence in rough pipe and smooth pipe\n\nDevices:\n\n-  Inverter pumping control;\n-  Orifice plate with 3 mm central hole;\n-  Venturi in acrylic. Dimensions:\n\n-  Inner \u00d8 9 mm and inner stroke 60 mm;\n-  Outer \u00d8 27 mm and strokes of 36.5 mm at each end;\n\n-  22 pressure measurement points;\n-  Manovacuometer;\n-  Bourbon manometer of 1, 2 and 3 kgf \/ cm2;\n-  Rotameter up to 8000 L \/ H;\n-  Pumping with open or closed system\n-  Observation and calculation of Reynolds number with clear acrylic tube with inkjet clips.\n\nTechnical characteristics\n\n-  Tank water capacity 48 L\n-  System water capacity (rest) 52 L\n-  Rated pipe diameter 32 mm\n-  Pump power 1 and 2 \u00bd HP\n-  Pumping capacity 4000 l\/h\/pump\n-  Rotameter capacity 8000 l\/h.\n-  Three-Phase Electrical Voltage\n\nElectric box with:\n\n-  Three-Phase Multimeter;\n-  HMI;\n-  Electrical controls and protections;\n-  Emergency button\n\nStructure and finish\n\n-  The equipment features a strong extruded aluminum frame of 30 x 30 mm with yellow electrostatic paint and industrial nylon caps with good mechanical and impact resistance, versatile and removable.\n-  Bench built with high-quality products from a renowned commercial brand; therefore, its maintenance and repairs and spare parts are easy to find on the market.\n\nThe bench includes software and exercise manual.",
        "Url": "edquip.co\/en\/de-lorenzo\/bench-for-study-and-training-in-hydrostatic",
        "Page title": "Bench For Study And Training In Hydrostatic",
        "Page description": "Hydrostatic study bench. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 2,
        "Highest number of students": 4,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Bench For Study And Training In Hydrostatic And Association Of Serial And Parallel Pump And Data Acquisition\/Bench For Study And Training In Hydrostatic And Association Of Serial And Parallel Pump And Data Acquisition_DL HPC-4-CLS_De Lorenzo_Screenshot_18-11-2025_135045_delorenzoglobal.com.jpeg",
        "Video link": null,
        "Main category": "Hydraulics Lab Equipment"
    },
    {
        "Edquip ID": "PL-153378",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SPH-33",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Didactic System for study and training in Pelton Turbine with DC Generator",
        "Description": "A bench developed to power a double jet Pelton turbine to convert hydraulic power into electric power and inject this energy to the mains. The equipment is designed to study the functions and measurements of a complete hydraulic\/electric generation system with a real turbine simulating a typical hydroelectric generation.\n\nThe front of the turbine is transparent so that you can see how the turbine uses the energy transfer between a water jet and its rotor. The system can be transported and operated in a totally autonomous way, being composed of a water tank, pumps and all the necessary elements for the performance of didactic exercises.",
        "Specs": "POSSIBLE PRACTICES:\n\nTurbine characteristic curve:\n\n-  Pressure \/ Speed (M-n)\n-  Power \/ Speed\n-  Performance \/ Speed\n-  Generator characteristic curve\n-  System efficiency curves\n\nPUMP TECHNICAL FEATURES\n\n-  Power: 2 HP\n-  Inlet diameter: 1 \"\n-  Outlet diameter: 1 \"\n-  Power: Three-phase with Inverter\n-  Flow: 2 liters \/ sec.\n-  RPM: 0-3600 RPM\n\nTECHNICAL FEATURES OF THE TURBINE\n\n-  Number of blades: 20\n-  Flow rate: 5 m \/ h\u00b2 max.\n-  Tube diameter: 52 mm\n-  Water Inlets: 2\n-  Jet diameter: 6.2 mm\n-  Speed: 1489 rpm\n-  Maximum power: 200 W\n-  Output voltage (no load): 42 V.\n-  Output voltage (with load): 20 V.\n-  Wire section: 4 mm\u00b2\n-  Maximum current: 18 A\n\nTECHNICAL FEATURES OF THE ELECTRIC BOX AND MEASUREMENT SYSTEM:\n\nThe electric panel contains the main switch and the inverter. The connection to the mains is made with a single-phase earth cable. A small frame supports the electrical measuring instruments, i.e. an analog DC voltmeter; an analog DC ammeter, a single-phase meter and a digital RPM meter. The inverter HMI displays the parameters used to drive the pump, as well as the power consumed.\n\nTECHNICAL FEATURES OF THE SYSTEM\n\nThe system includes, in addition to the previously indicated items, a total flowmeter (liters\/sec) and a complete pressure gauge. The system also has a Grid-Tie type inverter as an electrical charge that injects the available energy directly into the laboratory grid. The system thus defined allows the measurement of the DC energy of the generator and the AC energy in alternating current injected into the laboratory grid.\n\nTECHNICAL FEATURES OF THE HYDROSTATIC BENCH\n\nThe hydrostatic bench is designed as a table with minimum dimensions of 1700 x 1000 x 25 mm, supported by an aluminum frame with its own wheel for a transportable system. It has a 200-liter tank and a pump that simulates a height of approximately 10 meters. The water storage tank has a lid to prevent the accumulation of dust and particles, keeping the water in excellent condition for use.\n\nREQUIREMENTS: Power: 1600VA 200 liters of water\n\nTHE SYSTEM INCLUDES: Student and teacher manual with suggested exercises.",
        "Url": "edquip.co\/en\/de-lorenzo\/didactic-system-for-study-and-training-of-the-pelton-turbine",
        "Page title": "Didactic System For Study And Training Of The Pelton Turbine: De Lorenzo - EDQUIP",
        "Page description": "Pelton Turbine hands-on training equipment. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 2,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": null,
        "Equipment dimensions unit": "cm",
        "Equipment weight": null,
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": "cm",
        "Packed weight": null,
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Didactic System For Study And Training Of The Pelton Turbine With 150 Watt Dc Generator And Power Injection To The Electric Network\/Didactic_System_For_Study_And_Training_Of_The_Pelton_Turbine_DL SPH 33.png",
        "Video link": null,
        "Main category": "Hydropower Training Systems"
    },
    {
        "Edquip ID": "PL-450166",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL SGWD2.0",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Smart Grid 2.0",
        "Description": "De Lorenzo has designed a modular trainer that studies the power flow and interaction between the electricity supplier\u2019s networks (generation, transmission, and distribution systems) and the consumers (residential and\/or commercial customers).\n\nIndustrial grade equipment has been integrated into a controlled environment, providing a flexible and reconfigurable learning platform to study electrical power engineering applications. The core of the laboratory is a simplified scaled-down model of a power distribution system. Several power sources from different renewable energies are connected to the system on different points simulating a distributed power generation system. The energy can be added from the production side (high and mid voltage) or from the end-user side (microgrid).\n\nThe system includes 3 different energy generation subsystems:\n\n-  A variable pitch wind plant.\n-  A hydroelectric plant with pumped storage.\n-  Micro-grid energy sources using a solar photovoltaic system with battery storage and an optional micro-wind system generating energy from the low voltage side of the grid.\n\nA double busbar system and circuit breakers allow the isolation of sections of the system or the insertion of the available renewable energy sources to create a bidirectional power flow in the distribution network.\n\nA set of active measurement devices are strategically placed to monitor the power flow in the system in real time and provide protection. The operation of the laboratory is done through the SCADA software.\n\nAn industrial feeder manager relay can be configured to study the protection techniques at different points of the system.",
        "Specs": "Transmission and distribution system:\n\nAt the core of the system, the Smart Grid laboratory includes all the modules to simulate a simplified distribution system with unidirectional power flow, transmitting energy from a conventional thermal plant to an end user.\n\n-  A power supply connected to the mains represents a coal plant connected to the infinite bus.\n-  HV transmission lines of several lengths, busbar, and power switches simulate the power distribution and transmission system.\n-  Dedicated measurement devices are distributed in key points of the system to monitor the power flow.\n-  Industrial feeder manager relay provides protection to specific sections of the system.\n\nEnergy use and consumption:\n\nThe end user represented by an RLC load and a load management system to simulate different consumption profiles.\n\n-  An isolation transformer acts as a step down transformer.\n-  Automatic power factor compensator with capacitor banks.\n-  Variable resistive, inductive and capacitive loads simulate the end-users consumption.\n-  Energy meter, load manager and HMI simulate different consumption profiles acting as a smart user that can regulate his consumption based on his requirements and the cost of energy.\n\nHydro-electric system:\n\nThe hydroelectric plant is simulated by a three-phase synchronous machine that can be used to generate power or to simulate a pumped storage system to handle the excess of energy in the grid.\n\n-  Brushless servo-motor that represents the pelton turbine of a hydro power plant.\n-  Synchronous generator that transforms the mechanical power into electricity.\n-  Excitation controller with droop V\/Q function for closed loop regulation of the reactive power when connected to the grid.\n-  Isolation transformer that acts as a step-up transformer.\n-  Synchronization relay to connect the generator to the grid.\n\nWind power system:\n\nA variable pitch wind plant is simulated with a three-phase asynchronous induction machine.\n\n-  Brushless servo-motor that represents a wind turbine.\n-  Asynchronous machine transforms the mechanical power into electricity.\n-  Isolation transformer that acts as a step-up transformer.\n-  Network power analyzer.\n\nMicrogrid solar:\n\nFrom the end user side, different power sources provide energy to the system.\n\n-  Real solar photovoltaic panel illuminated with a halogen light source that simulates the sun.\n-  Photovoltaic panel simulator: programmable DC power supply that behaves as a solar panel providing power to the single-phase grid tie inverter.\n-  An inverter charger-module further expands the features of the solar system providing storage capabilities.\n-  Dedicated instruments and load provide the information needed for the characterization of the solar panel and measure the flow of power to the system.\n-  A programmable active DC load is used to characterize the solar panel.\n\nOPEN SCADA-WEB\n\nThe full system is integrated by an industrial Supervision and Control Data Acquisition (SCADA) software that communicates with all the active devices in the trainer and performs the following actions:\n\n-  acquisition and measurements of the physical quantities of the system;\n-  control of the system\u2019s operation;\n-  visual supervision of the system (also in remote mode), through the use of synoptic diagrams: operational status, alarms, etc.\n\nThrough the SCADA software, the operator can monitor the electric flow in the system to manage and optimize the power requirements based on the consumption, through the acquisition of real-time data from the measuring devices and protection relays and the control of actuators for an \u201cintelligent\u201d management of the whole electrical system.\n\nThe different sections of the trainer communicate through ethernet and dedicated serial RS485 buses using standard insutrial communication protocols such as MODBUS RTU.\n\nThe SCADA project is divided in templates each one corresponding to a particular exercise. The open SCADA- WEB developers license provided with the trainer allows the teachers to fully customize the existing templates or create new ones that can be used to monitor the system from a local workstation.\n\nSCADA main features\n\nThe software is structured following a didactic approach, dividing each study unit into single exercises.\n\nThe open SCADA-WEB license gives the teachers the possibility to create their own projects and fully customize the experiments by displaying the parameters of interest and controlling the actuators for an \u201cintelligent\u201d power management.\n\nTRAINING OBJECTIVES\n\nThe Smart Grid trainer is a multidisciplinary laboratory, aimed at undergraduate and graduate courses in the engineering schools for the study of energy management in a modern power grid. The laboratory equipment can be configured to create different exercises, which reinforce basic and advanced concepts in electric energy.\n\nThe smart grid system is an integrated laboratory that can be used by mechanical and electrical engineering students as a longtime project as it comprises enough elements to cover most of the topics such as electric circuits, electric machinery, hydroelectricity, renewable energies, power transmission, and power distribution. The main purpose is to study the principles of power engineering and study the power flow to develop advanced energy management strategies.\n\nThe entire system is fully configurable and can be tested under many conditions. Different experiments can be performed by rearranging the wiring and placement of the modules giving a lot of flexibility to simulate a full smart grid system with various network topologies. The proposed exercises in different topics connect theoretical and practical concepts through hands-on experience.\n\nThis innovative laboratory can include class demonstrations and laboratory experiments under regular laboratory classes. It provides a controlled and safe platform for further experimentation to simulate different network conditions and faults to study network efficiency, stability, and protection. The system architecture which uses standard industrial communication protocols and a fully customizable open SCADA software, makes it a complementary tool for research and development, further expanding its capabilities.\n\nSkills development:\n\n-  Basic:\n\n-  Circuits theory: validate the basic electric laws and circuit theory using three-phase power.\n-  Electrical measurements: Use of industrial measurement devices and protection relays.\n-  Renewable energies: photovoltaic energy, Wind energy.\n\n-  Intermediate:\n\n-  Electric machines: study of a three-phase transformer and alternator or a motor acting as load.\n-  Power electrical engineering: generation, transmission, distribution and use of electrical power.\n-  Power electronics, control systems, digital control, embedded systems.\n-  Energy Storage\n\n-  Advanced:\n\n-  Grid: Study of different network topologies.\n-  Energy management: Power flow control, fault simulation and troubleshooting.\n-  Power system stability, droop control.\n-  Intelligent power systems \"Smart Grid\".\n-  Energy cost and optimization methods.\n-  Stochastic processes, prediction, and data analytics.\n\nLIST OF EXPERIMENTS\n\nLOAD ANALYSIS\n\n-  R, L, C load characteristics\n-  Active energy measurement\n-  Reactive energy measurement\n-  Manual power factor compensation\n-  Automatic power factor compensation\n\nHYDROELECTRICAL SYSTEM\n\n-  Generator no-load characteristic\n-  Generator load characteristic\n-  Regulation performances characteristics\n-  Automatic synchronization\n-  Reactive power regulation (Droop V\/Q)\n-  Pumped storage\n-  Overcurrent protection\n-  Over-voltage and under-voltage protection\n-  Over-frequency or under-frequency protection\n\nWIND SYSTEM\n\n-  The relation between a pitch control system and wind\n-  Analysis of the mechanical parameters within an induction generator\n-  Analysis of electrical parameters within an induction generator\n\nMICROGRID SYSTEM\n\n-  Characterization of a photovoltaic panel without a load\n-  Characterization of a photovoltaic panel with a load\n-  Connecting a photovoltaic system to the real network by using an inverter grid system single-phase.\n-  Solar power battery storage\n\nTRANSFORMER\n\n-  Vector group\n-  No-load performance\n-  Load performance\n-  Asymmetrical performance\n-  Regulation performance\n\nTRANSMISSION\n\n-  No-load performances\n-  Matched-load performances\n-  Ohmic-inductive load\n-  Ohmic-capacitive load\n-  Radial network\n-  Meshed network\n-  Transmission line earth-fault\n-  Transmission line symmetrical short circuit\n-  Transmission line asymmetrical short circuit\n-  Transmission line earth-fault protection\n-  Transmission line instant and definite time overcurrent protection\n-  Transmission line under-voltage protection\n\nDISTRIBUTION:\n\n-  Basic double busbar system\n-  Double busbar system with load\n-  Busbar coupling\n\nSMART GRID\n\n-  Contribution of microgrid energy\n-  Contribution of hydropower\n-  Contribution of wind plant\n\nLIST OF MODULES\n\nDL 2108T26: Brushless Controller With Motor:\n\nDL 2108T26BR: Braking resistance:\n\nDL 1021\/4: Three-Phase Asynchronous Motor:\n\nDL 1013A: Base:\n\nDL 1026P4: Three-Phase Synchronous Machine:\n\nDL 1017R: Resistive Load:\n\nDL 1017L: Inductive Load:\n\nDL 1017C: Capacitive Load:\n\nDL 2108TAL\u2010CP: Three Phase Supply Unit:\n\nDL 1068: AC Machine excitation and droop V-Q controller:\n\nDL 7901TT: Overhead Line Model \u2013 360 Km:\n\nDL 7901TTS: Overhead Line Model \u2013 110 Km:\n\nDL 2109T29: Three\u2010Phase Power Meter:\n\nDL 2108T25: Generator Synchronizing Relay:\n\nDL 2108T23: Feeder Manager Relay:\n\nDL 2108T02: Power Circuit Breaker:\n\nDL 2108T02A: Power Circuit Breaker:\n\nDL 2108T02\/2: Double busbar:\n\nDL 2108T19: Reactive Power Controller:\n\nDL 2108T20: Switchable Capacitor Battery:\n\nDL 2108T20C: Rephasing capacitor module for induction machine:\n\nDL 4236: Load manager:\n\nDL HMI: Human machine interface:\n\nDL 2109T34: Three-phase active and reactive energy meter:\n\nDL 9013G: Inverter Grid:\n\nDL 9013G1C: Sigle phase inverter charger:\n\nBAT100AGM: 12V - 100Ah Battery:\n\nPFS-85: Photovoltaic Solar Panel:\n\nDL SIMSUN: Lamps For The Photovoltaic Solar Panel:\n\nDL 9021: Measurement module for photovoltaic panels:\n\nDL 9018H-A: DC Active load:\n\nDL 2101T13-DC: Transformer with rectifier:\n\nDL PVP-SIM: Photovoltaic panel simulator:\n\nDL HUBRS485F: Modbus Communication Hub:\n\nDL SCADA3+: Software Scada:\n\nDL 1080TT: Three\u2010Phase Transformer:\n\nDL 1155SGWD: Kit Of Connecting Leads:\n\nDL T12090: 120x90 Working Bench:\n\nDL T06090: 60x90 Working Bench:\n\nDL A120-3M-LED: Frame:\n\nDL PCGRID: All-In-One Personal Computer:\n\nDL 2100TTI: Three-Phase Transformer:\n\nDL 1196: Holder For Leads:\n\nOptions:\n\n-  Microgrid wind energy: It allows adding a microgrid wind energy system in parallel to the photovoltaic solar system at the user end of the system \u2013 ordering code: DL SGWD2.0-W.\n\n-  A micro-grid wind turbine powered by a servo-motor simulating the action of the wind.\n-  A single phase grid-tie inverter that feeds power from the turbine into the mains\n-  Dedicated instrument provide the information needed for the characterization of the wind system.",
        "Url": "edquip.co\/en\/de-lorenzo\/smart-grid-20",
        "Page title": "Smart Grid 2.0: De Lorenzo - EDQUIP",
        "Page description": "Smart grid training system v2.0. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 4,
        "Highest number of students": 6,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": false,
        "Student materials": false,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "620 x 90 x 185",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "200",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "632 x 117x 223",
        "Packed dimensions unit": "cm",
        "Packed weight": "228",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Smart Grid 2.0\/DeLorenzo-SmartGrid2.0-DLSGWD2.0-Edquip.jpg",
        "Video link": "<a href=\"https:\/\/www.youtube.com\/embed\/ZKsig33P9x0?si=cqvPwO347B32iq5x\" >https:\/\/www.youtube.com\/embed\/ZKsig33P9x0?si=cqvPwO347B32iq5x<\/a>",
        "Main category": "Smart Grid Lab"
    },
    {
        "Edquip ID": "PL-664021",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL HYGEN",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Hydrogen Generator",
        "Description": "The hydrogen generator is designed to produce Hydrogen for laboratory use and must comply with the limits for a class B digital device, pursuant to part 15 of the Federal Communications Commissions (FCC) rules.\n\nIt produces pure Hydrogen (and Oxygen as a by\u2010product) by the electrolysis of water. The key element is an electrochemical cell assembly which contains a solid polymer electrolyte filled by deionized or pure distilled water, and no free acids or alkaline are used. The conductivity of the water used in the generator must not exceed 2\u03bcS\/cm.\n\nIt must be placed on a flat level with vibration and shock\u2010free surface. It should not be in contact with any other objects on any side, and the air inlet must not be blocked. 30 cm of free space at the rear side must be left for ventilation.\n\nPure dry Hydrogen at regulated pressure is available at the Hydrogen outlet port at the rear of the generator. The pressure at this port is adjusted and shown on the display. The Hydrogen relief port and the Hydrogen vent at the rear of the unit can be connected to an exhaust hood or another venting system.\n\nOn the front side, it is equipped with a water level indicator.",
        "Specs": "It has an LCD display to provide the final user all the important information to manage the unit in a simple and safe mode, and the following parameters can be also configured:\n\n- To set the clock\n-  To set low pressure\n-  To set pressure rise\n-  To set pressure drop delay\n-  To set Auto start\n-  To set the beeper\n-  To set pre alarms\n-  To set pressure unit\n-  To set temperature unit\n-  To set volume unit\n-  To set the lock keyboard\n-  To set default values.\n\nand tests such as internal and external leak tests, flow test, and complete system test.\n\nThe hydrogen generator has the following technical specifications:\n\n-  Hydrogen flowrates at STP (Standard Temperature and Pressure) (20\u00b0C, 1barg): 0 \u00f7 100cc\/min,\n-  Max. Outlet pressure: 11bar (160psi),\n-  Purity: 99.9999%,\n-  Power consumption: 130W,\n-  Weight dry: 13kg,\n-  Input voltage: 100 \u00f7 240V\/50 \u00f7 60Hz,\n-  Fuse: 4A,\n-  Pressure accuracy: 0.1bar (\u00b1 0.5%),\n-  \u00b5Processor controlled display: graphic display, 128x64pixels,\n-  Index of protection: IP2x,\n-  Operating conditions:\n\n-  Temperature: 15\u00b0C to 40\u00b0C,\n-  Relative humidity (non-condensing): 0 \u00f7 80%,\n\n-  Over voltage category: II,\n-  Noise level: 46dB (A),\n-  Pollution degree: 2.\n\nIt is supplied with the following elements:\n\n-  Instruction USB key,\n-  Deionizer triangle bag,\n-  Water drain with flexible tubing,\n-  Power cable,\n-  USB cable.\n\nand a detailed manual in English language.",
        "Url": "edquip.co\/en\/de-lorenzo\/hydrogen-generator",
        "Page title": "Hydrogen Generator: De Lorenzo - EDQUIP",
        "Page description": "Electrolyzer (Hydrogen Generator) coupled with fuel cell trainer. Request quotation today! Free price estimations, suitable for schools, colleges & universities",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Industry-Grade Equipment",
        "Education level": [
            "Engineering Undergraduate",
            "Advanced Engineering \/ Professional"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": "9023 0010",
        "Equipment dimensions": "28 x 37 x 48",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "10",
        "Equipment weight unit": "Kg",
        "Packed dimensions": "39 x 67 x 86",
        "Packed dimensions unit": "cm",
        "Packed weight": "20",
        "Packed weight unit": "Kg",
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Hygen (Electrolyzer)\/DL-HYGEN_Hydrogen-Generator-Electrolyzer.png",
        "Video link": null,
        "Main category": "Fuel Cell Training Systems"
    },
    {
        "Edquip ID": "PL-639918",
        "Product Type": "hardware",
        "Producer": "De Lorenzo",
        "Producer product number": "DL 13003-02",
        "Content languages": "en, fr, it, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online"
        ],
        "Name": "Didactic System For Mechanical Assembly Practices",
        "Description": "The system allows the evaluation, after each assembly and disassembly, of a set of shafts and bearings driven by belts, gears and toothed pulleys driven by a three-phase motor whose variable speed implies a higher or lower level of vibration; the vibratory intensity is measured on all three shafts.\n\nEQUIPMENT COMPOSITION\n\n-  Aluminum bench with wheels.\n-  Mechanical transmission.\n-  Electrical panel with AC digital multimeter.\n-  Frequency converter for speed control.\n-  Shaft alignment tool set.\n-  Mechanical dynamometer with graduated scale for torque application\n-  Set of tools for assembly and disassembly of toothed pulleys.\n-  Set of shafts and bearings driven by belts, gears\n-  Two vibration indicators with RMS values\n-  0.25 hp three-phase induction motor\n\nDIDACTIC ACTIVITIES\n\n-  Assembly and disassembly of pulleys and bearings,\n-  Shaft alignment,\n-  Calculation of mechanical transmissions,\n-  Motor torque and resistive torque measurements,\n-  Energy efficiency measures,\n-  Vibration measurements in three planes,\n-  Vibration measurements at different speeds,\n-  Vibration measurements with inertia disc.",
        "Specs": "SYSTEM FEATURES\n\n1. Bench with wheels\n\nThe bench consists of a metal structure with wheels of the following dimensions: 1500 x 800 x 1300 mm (W x D x H). The top is suitable for typical machine shop applications.\n\n2. Electric panel with:\n\n-  Inverter for speed control and measurement with built-in HMI for rotation, proportional torque and load current measurement.\n-  Electric quantity multimeter (V, I, P, F, FP etc.)\n-  Overload protections, differential circuit breaker and safety relay on top\n-  Speedometer with selector for 2 channels.\n\n3. Alignment tool set\n\n-  A \u2013 Clock alignment system of probes, with fine adjustment.\n-  B \u2013 Magnetic bases.\n\n4. Shaft and bearing set.\n\nDriven by belts, gears, and toothed pulleys with torque application with dynamometer. This set includes:\n\n-  Mechanical belt.\n-  Mechanical toothed pulleys.\n-  Spur gears with a ratio of 2 to 1 or 1 to 2.\n-  Belt tensioner.\n-  Gear type elastic couplings.\n-  Split bearing.\n-  Monobloc bearing.\n-  Tools for moving parts.\n\n5. Vibration indicators\n\nThe two digital vibration indicators are used to measure the periodic movement, verify imbalance and deflection of the moving parts of machinery. Sensors can be applied at various points in the system covering all three planes.\n\nIncludes manual of exercises and operation of the instruments.",
        "Url": "edquip.co\/en\/de-lorenzo\/didactic-system-mechanical-assembly-practices",
        "Page title": "Didactic System For Mechanical Assembly Practices: De Lorenzo - EDQUIP",
        "Page description": "Drive gear system to teach mechanical power systems. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 2,
        "Highest number of students": 3,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Introductory Technical Education",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "CE"
        ],
        "Warranty": "12 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": false,
        "HS Code": null,
        "Equipment dimensions": null,
        "Equipment dimensions unit": null,
        "Equipment weight": null,
        "Equipment weight unit": null,
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/De Lorenzo\/Didactic System For Mechanical Assembly Practices\/Didactic_System_For_Mechanical_Assembly_Practices_De-Lorenzo.png",
        "Video link": null,
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-727102",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-PLC-FMS1",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Flexible Manufacturing System 1",
        "Description": "The Flexible Manufacturing System 1, \u201cAE-PLC-FMS1,\u201d by EDIBON is a modular automation system comprising several key workstations, including the Feeding Workstation for Pieces \u201cAE-PLC-A,\u201d Mounting Workstation \u201cAE-PLC-M,\u201d Automatic Pressing Workstation \u201cAE-PLC-P,\u201d Rotary Table Workstations \u201cAE-PLC-MR1\u201d and \u201cAE-PLC-MR2,\u201d Automatic Screw Workstation \u201cAE-PLC-AT,\u201d Robotic Arm Workstation \u201cAE-BR,\u201d Storage Workstation \u201cAE-PLC-AL,\u201d and Linear Transport Workstation \u201cAE-PLC-T.\u201d\n\nThe AE-PLC-FMS1 system automates the assembly process by supplying a base part and mounting multiple components onto it, followed by screwing and finally storing the assembled piece in a designated storage area. Here is an overview of the process sequence:\n\n- Feeding Workstation: This station prepares the base parts with the correct dimensions and positions them on the linear transport system.\n- Mounting Workstation: Another component is added to the base piece after a verification check, and it is then positioned on the transport system.\n- Pressing Workstation: A hydraulic cylinder presses the newly mounted component into the base piece.\n- Rotary Table Workstations: These two stations each add unique pieces of various colors, sizes, and materials to the base piece.\n- Automatic Screw Workstation: Four screws are placed into the base piece.\n- Robotic Arm Workstation: The robotic arm installs an automatic screwing tool to secure the screws into the mounted components.\n- Storage Workstation: Finally, an automated manipulator transports the assembled part to its designated position in storage.\n\nEach workstation operates autonomously via a local PLC, while a central PLC oversees coordination across the system. Communication between workstations and the central PC is established through an Ethernet protocol.\n\nDesigned to support the learning of automation fundamentals, the AE-PLC-FMS1 system offers practical training in areas such as PLC programming, Ethernet network operation, and technologies like pneumatics, electro-pneumatics, and vacuum systems. The optional \u201cAE-AS\u201d software allows students to practice real-world automation software skills through 2D and 3D process simulations, SCADA system supervision and control, PLC programming, and hydraulic, pneumatic, and electronic device simulations.",
        "Specs": "- [AE-PLC-FMS1. Unit](https:\/\/www.edibon.com\/en\/flexible-manufacturing-system-1):\n\n*Available PLC models of different manufacturers: PANASONIC, SIEMENS, OMRON, MITSUBISHI, ALLEN BRADLEY, etc.\n\n- AE-PLC-PAN-UB. PANASONIC PLC Base Unit.\n- N-ALI02. Domestic Power Supply.\n- N-CPU-PAN. Panasonic CPU Module.\n- PLC-PAN-K1, PANASONIC PLC Kit 1 (Optional).\n- N-MT. Test module.\n- PLC-PAN-K2, PANASONIC PLC Kit 2 (Optional).\n- N-ESA-PAN. Panasonic Analog I\/O Module.\n- N-SWT-4.4 Ports Ethernet Switch Module.\n- PLC-PAN-K4, PANASONIC PLC Kit 4 (Optional).\n- N-HMIA-PAN. Panasonic Large HMI Module.\n- N-SWT-4. 4 Ports Ethernet Switch Module.\n- PLC-PAN-K5, PANASONIC PLC Kit 5 (Optional).\n- N-MOD. Modem Communication Module.\n- N-SWT-8. 8 Ports Ethernet Switch Module.\n- AE-AS. Automation Systems Simulation Software. (Optional).\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- PLC, HMI and web server programming software.\n- Component Workstations.\n- SAC. Silent Air Compressor Unit\n- HPU. Hydraulic Power Unit\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Introduction to flexible manufacturing system (FMS).\n- Introduction to pneumatics and electro-pneumatics.\n- Introduction to vacuum technology.\n- Study of the sensor detection.\n- Testing the digital inputs and outputs of the automatic system through a PLC.\n- Modify manufacturing parameters through the PLC.\n- Configuration of a pneumatic application.\n- Introduction to the Human-machine interface systems (HMI).\n- Study of an automatic control of an industrial system.\n- Control of the flexible manufacturing system through a central PLC in an Ethernet network with local PLC in each workstation.\n- Manage the flexible manufacturing system through the HMI device.",
        "Url": "edquip.co\/en\/edibon\/flexible-manufacturing-system-1",
        "Page title": "Flexible Manufacturing System 1: Edibon - EDQUIP",
        "Page description": "Flexible manufacturing training system. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Integrated Lab Solution",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "6000 x 2500 x 1500 mm. approx.  (236.22 x 98.42 x 59.05 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "900",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Flexible Manufacturing System 1\/Edibon_Flexible_Manufacturing_System_1.png",
        "Video link": "",
        "Main category": "Manufacturing Training Systems"
    },
    {
        "Edquip ID": "PL-484853",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "MDSU",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Basic Unit of Mechanical Drive Systems",
        "Description": "[The Basic Unit of Mechanical Drive Systems, \u201cMDSU,\u201d](https:\/\/www.edibon.com\/en\/basic-unit-of-mechanical-drive-systems) by [EDIBON](https:\/\/www.edibon.com\/en\/), is a versatile training unit composed of a main frame that accommodates a range of accessories and components, organized into modules of various levels. This modular setup introduces users to fundamental concepts in mechanical systems and components. The main frame is designed for simultaneous use by multiple groups, with components mounted via quick-release fittings for easy assembly according to the desired study configuration. In addition to the frame, a variable-speed rotary motor initiates movement along a central shaft, driving various mechanical elements such as belts, gears, and chains.\n\nA brake mechanism is included, enabling users to measure the torque generated by the motor or through the student-designed mechanical system, using fundamental components found in any mechanical setup. The unit also provides hands-on experience with essential maintenance techniques, including the tools and materials used for upkeep.\n\nSafety features are fully integrated, including mechanical and electrical protections, disconnect switches, and an emergency stop button, ensuring safe operation.",
        "Specs": "- [EG5C. Unit](https:\/\/www.edibon.com\/en\/basic-unit-of-mechanical-drive-systems):\n\n- Anodized aluminum frame and panels made of painted steel.\n- The unit includes wheels to facilitate its mobility.\n- Variable speed electric motor.\n- Constant speed engine.\n- Prony brake.\n- Set couplings and shafts.\n- Set pillow block bearings.\n- Set of belt drives.\n- Set of chain drives.\n- Gear drives set.\n- Measurement devices.\n- Mounting and fixing parts.\n- Tool box.\n- Control panel.\n- All components to be industrial grade.\n- The unit includes a mounting guide and tools.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- - Introduction to the mechanical training system.\n- Study of safety procedure.\n- Handling of tools and adjusting screws.\n- Speed and torque measurements.\n- Efficiency study.\n- Introduction to shafts and pillow block bearings.\n- Techniques shaft alignment and flexible couplings.\n- Techniques shaft alignment and rigid couplings.\n- Motor soft foot study and correction.\n- Introduction to belt drives.\n- Introduction to the sheave and belt installation.\n- Sheave alignment.\n- Belt tensioning operation.\n- Sheave and belt maintenance.\n- Introduction to chain drives study.\n- Introduction of the sprocket installation.\n- Sprocket alignment study.\n- Chain installation procedure.\n- Chain tensioning procedure.\n- Sprocket and chain maintenance.\n- Introduction to gear drives.\n- Spur gear installation study.\n- Gear alignment.\n- Backlash adjustment.\n- Gears using split taper bushings mounting.\n- Gear trains.\n- Bearings and chains lubrication study.\n- Viscosity measurement.",
        "Url": "edquip.co\/en\/edibon\/basic-unit-mechanical-drive-systems",
        "Page title": "Basic Unit of Mechanical Drive Systems",
        "Page description": "Mechanical Drive Systems Training Equipment. Request your quotation today! Free price estimations, suitable for technical schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V",
            "100-127V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1500 x 1000 x 2000 mm approx.  (59.05 x 39.37 x 78.74 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "200",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Basic Unit of Mechanical Drive Systems\/basic-unit-of-mechanical-drive-systems-EDIBON-EDQUIP.jpg",
        "Video link": "",
        "Main category": "Industrial Maintenance Training Equipment"
    },
    {
        "Edquip ID": "PL-678944",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-FUSG",
        "Content languages": "en, es, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Final User Smart Grid System",
        "Description": "The [AEL-FUSG](https:\/\/www.edibon.com\/en\/final-user-smart-grid-system) Trainer consists of three main trainers and a set of static and dynamic loads.\n\n- AEL-FUSG-M. Final User Smart Grid - Smart Meter Trainer.\n- AEL-FUSG-E. Final User Smart Grid - Smart Energy Trainer.\n- AEL-FUSG-N. Final User Smart Grid - Net Metering Trainer.\n- AEL-FUSG-LO. Smart Grid Loads.\n\nThe Final User Smart Grid - Smart Meter Trainer, \"AEL-FUSG-M,\" developed by [EDIBON](https:\/\/www.edibon.com\/en\/), provides a practical introduction to the operation of modern utilities within Electrical Grids through an actual Smart Grid System. This trainer allows users to engage with a real Smart Meter, gaining insight into how utilities function in today's smart grid environments.\n\nThe AEL-FUSG-M offers a realistic simulation of Smart Grid operations, aimed at deepening user understanding of the roles and mechanisms utilities employ within smart grids. This hands-on experience is designed to facilitate comprehension of current energy distribution and management systems.\n\nThe Final User Smart Grid - Smart Energy Trainer, \"AEL-FUSG-E,\" by [EDIBON](https:\/\/www.edibon.com\/en\/), is a comprehensive trainer simulating the real functions of Home Energy Management Systems. The AEL-FUSG-E Trainer allows users to gain hands-on experience in understanding the workings of smart devices within a smart home or industrial setup, focusing on managing and controlling essential loads.\n\nWith this trainer, users can monitor, program consumption schedules, and visualize load profiles using smart devices, all connected via ZigBee wireless communication. This design enables an intuitive learning experience in managing energy-efficient environments, emphasizing the applications of smart grids in modern energy systems.\n\nThe \"AEL-FUSG-M\" trainer by [EDIBON](https:\/\/www.edibon.com\/en\/) enables users to simulate energy sales or consumption of generated power, supporting scenarios such as electricity sales to the grid, net metering, and measurement of power flows in and out of Renewable Energy simulators. Through this trainer, users experience realistic simulations related to net metering, self-consumption, and electricity selling.\n\nFor these purposes, the trainer includes a synchronous generator simulating a wind turbine. This simulated turbine\u2019s output is controlled by a voltage regulator, representing generation voltage, and a prime motor that adjusts the turbine's speed to replicate wind velocity. Users control the generation frequency and active power output through a frequency controller.\n\nTo facilitate synchronization between the generator and the grid, a synchronoscope is provided, allowing users to study real-world operations, such as net metering, self-consumption, isolated grid mode, and parallel operation mode. Additionally, the trainer includes a network analyzer to monitor key parameters\u2014energy demand by loads, energy supplied by the grid, power from the generator, and energy injected into the grid. All measurements and adjustments are managed in real time via the main module, the N-PFD (Power Flow Distribution Module).",
        "Specs": "- [EG5C. Unit](https:\/\/www.edibon.com\/en\/final-user-smart-grid-system):\n\n- AEL-FUSG-M. Final User Smart Grid - Smart Meter Trainer.\n- N-ALI01. Industrial Power Supply.\n- N-CTT. Data Concentrator Module.\n- N-SM. Smart Meter Module.\n- AEL-FUSG-E. Final User Smart Grid - Smart Energy Trainer.\n- N-HPM. Home Power Module.\n- N-WLSM. Wireless Light Sensor Module.\n- N-WSM. Wireless Switches Module.\n- N-IOWM. Wireless Outputs Module.\n- N-CON02. 3-Pole Contactor.\n- Control and programming software.\n- AEL-FUSG-N. Final User Smart Grid - Net Metering Trainer.\n- N-ALI01. Industrial Power Supply.\n- N-PFD. Power Flow Distribution Module.\n- N-EALDG. Network Analyzer Unit with Computer Data Acquisition + Oscilloscope Display.\n- N-VREG. Voltage Regulator Module.\n- N-ASY. Synchronoscope Module.\n- N-REL46. Thermal Electric Motor Protection Module.\n- N-VVCA4K. 4 KW Motor Controller Module.\n- GMG4K. 4 KW Generator-Group.\n- AEL-FUSG-LO. Smart Grid Loads.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nAEL-FUSG-M. Final User Smart Grid \u2013 Smart Meter Trainer:\n\n- Communication process with the data concentrator.\n- Remote control of the smart meter relay.\n- Real time monitoring of the energy consumed by the loads.\n- Power factor comparison with different load combinations using the data concentrator web server.\n- Comparison of the energy consumption from the utility point of view (with the platform integrated in the data concentrator) and from the final user point of view (using the smart meter display).\n- Power factor correction using capacitor banks. The student can configure different loads and analyze the quality of energy in real time.\n- nstantaneous measurement of the current, voltage, active power and power factor.\n\nAEL-FUSG-E. Final User Smart Grid \u2013 Smart Energy Trainer:\n\n- Studying the increase in energy efficiency by using capacitor banks to compensate the reactive power of loads.\n- Real time monitoring of local consumptions with induction, resistor or capacitive loads.\n- Simulation of different consumptions and scheduling of the Home Energy Management System devices by the final customer.\n- Study of the optimal load demand and programming the smart devices according to different programming schemes.\n- Controlling and programming the loads maximum accumulated consumption.\n- Programming the panel\u00b4s inputs and outputs.\n- Illumination control.\n- Temperature control system.\n- Programming the moment of the activating of washing machine.\n- Remote scheduling of smart devices (Smart relays, thermostat, different sensors, etc.).\n- Developing switching schemes for appliances connected to the smart relays or thermostat with the management platform.\n\nPractical exercises of AEL-FUSG-E Trainer with AEL-FUSG-M Trainer:\n\n- Measurement of energy consumption at home or by an industrial consumer and comparison of this measurement with the utility\u00b4s register (smart meter).\n- Simulation of different consuming periods and scheduling of the Home Energy Management System devices.\n- Telemetering of the energy consumed by the loads using the data concentrator platform.\n\nAEL-FUSG-N. Final User Smart Grid \u2013 Net Metering Trainer.\n\n- Synchronization operations of the generator.\n- Real time monitoring of local consumptions with induction, resistor or capacitive loads.\n- Simulation of renewable energy generation through Generator-Motor Group.\n- Measurement of the energy generated by the Generator-Motor Group.\n- Net Metering. Measuring the energy consumed and the energy injected to the grid and, finally, measuring the positive or negative energy balance.\n- Measuring of the energy consumption by the loads without generator.\n- Measuring the energy consumption by the loads with the generator and the grid controlling the power flows from the generator.\n- Net-Metering operations: selling energy to the grid.",
        "Url": "edquip.co\/en\/edibon\/final-user-smart-grid-system",
        "Page title": "Final User Smart Grid System: Edibon - EDQUIP",
        "Page description": "Smart Grid training equipment. Request your quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "AEL-FUSG-M:  640 x 320 x 670 mm approx.  (25.19 x 12.59 x 26.37 inches approx.)  AEL-FUSG-E: 640 x 320 x 920 mm approx.  (25.19 x 12.59 x 36.22 inches approx.)  AEL-FUSG-N: 640 x 320 x 920 m",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "220",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
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        "Support types": null,
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        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Final User Smart Grid System\/Final User Smart Grid System_AEL-FUSG_Edibon_AEL-FUSG.png",
        "Video link": "",
        "Main category": "Smart Grid Lab"
    },
    {
        "Edquip ID": "PL-826478",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-MGP",
        "Content languages": "en, es, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Microgrid Power Systems",
        "Description": "The Microgrid Power Systems training equipment, \u201cAEL-MGP\u201d, has been developed by EDIBON to provide both theoretical and practical training in microgrid power systems.\n\nIn today\u2019s global energy context, microgrids play a fundamental role in the transformation of electrical infrastructure. These systems make possible the local integration of renewable energy sources, intelligent energy demand management, and storage solutions, ensuring energy autonomy and supply continuity even during main grid failures or disconnections.\n\nThey also contribute to the reduction of greenhouse gas emissions and to the democratization of energy access, particularly in rural or isolated environments.\n\nIn response to these growing needs, EDIBON has carefully designed the \u201cAEL-MGP\u201d as a complete and practical educational tool, enabling users to simulate, evaluate, and understand the real operation of a hybrid microgrid.\n\nEDIBON\u2019s focus on educational innovation is evident in every aspect of the \u201cAEL-MGP\u201d: modular structure, industrial-grade components, high durability and safety, more than 70 practical exercises, and the ability to adapt to specific academic curricula or research projects.\n\nWith the \u201cAEL-MGP\u201d unit, instructors and professionals can explore advanced topics such as island mode operation, hierarchical energy management (energy mix), dynamic stability, power quality, black start procedures, reverse power flow analysis, power balance and distribution, blackout simulation, and the implementation of Grid-Forming and Grid-Following control strategies, among others.\n\nUltimately, this system is not only part of the energy transition\u2014it also trains the professionals who will lead it.\n\n- PWP-CE. Conventional Energy Power Plant.\n\nIts function, as in a real microgrid, is to serve as the structural foundation of the system and to provide voltage and frequency references. The rest of the power plants synchronize to it due to the stability it offers.\n\nAdditionally, this application operates as base-load generation, delivering continuous power supply. In real microgrids, this role is typically fulfilled by diesel or gas-powered systems.The setup includes a turbine-generator assembly consisting of an electric motor (simulating the turbine) mechanically coupled to a three-phase synchronous generator for electrical energy generation.\n\nA multifunction digital controller (AVR and ASC) manages the turbine-generator unit, allowing accurate control of both mechanical and electrical parameters. The key control variables include turbine speed, generator frequency, excitation current, voltage, and electrical power output (active P, reactive Q, and apparent S). This control module also features advanced generator and turbine protection functions in accordance with ANSI standards such as ANSI 81O, 81U, 59, 27, 50\/51, 32R\/F, IOP 32, MOP 32, 46, voltage asymmetry, generator ground fault, phase rotation, IEC 255, and lagging power factor, among others.\n\nThe system also includes smart metering-compatible network analyzers for monitoring generated and consumed energy, with two-way communication capability for optimized system management.\n\n- PWP-HE. Hydroelectric Power Plants.\n\nThe purpose of this application is to study hydroelectric power plants within the framework of microgrid systems. Hydroelectric plants offer a high capacity for supplying energy during peak demand due to their fast response times, making them a valuable element in intelligent energy distribution.\n\nThis application features a turbine-generator set designed to deliver power to the microgrid based on operator (user) decisions, and includes a network analyzer for real-time monitoring of the energy produced. A multifunction digital controller (AVR and ASC) manages the turbine-generator group, enabling optimal regulation of electrical and mechanical parameters, including active power reference control to determine the exact amount of power injected into the grid and coordinate energy sharing across generators.\n\n- PWP-WE. Wind Power Plants.\n\nThe purpose of this application is to study wind power plants within the context of microgrids. It features an induction turbine-generator unit designed to supply energy to the microgrid, enabling intelligent energy distribution based on the operator\u2019s (user\u2019s) decisions. The system includes a network analyzer for real-time measurement of the energy produced by the wind turbine.\n\nAdditionally, a multifunction digital controller (AVR and ASC) manages the turbine-generator unit, providing optimal regulation of all electrical and mechanical parameters, including the ability to set the active power reference point, which automatically determines the amount of power injected into the microgrid.\n\n- PWP-PE. Phototvoltaic Power Plants.\n\nThe purpose of this application is to study photovoltaic power plants within the context of microgrids. It includes a three-phase inverter powered by a photovoltaic panel array simulator, allowing the user to configure generation parameters and functions according to the scenarios and conditions being analyzed. At the same time, the application enables the study of key photovoltaic concepts such as MPPT (maximum power point tracking), inverter power limitation (derating), inverter efficiency, and reactive power generation.\n\n- PWP-BE. Batteries Energy Storage Power Plant.\n\nThe purpose of this application is to demonstrate the importance of energy storage in isolated environments. In situations where wind or photovoltaic energy is unavailable, chemical energy storage using batteries becomes essential.\n\nThis application features a bidirectional inverter designed to store energy in the included battery and to supply it rapidly when demand arises. Thanks to the use of power electronics, this system offers a high response speed, allowing power plants such as hydroelectric or wind farms sufficient time to adjust to sudden changes in energy demand by storing surplus energy during periods of overproduction.\n\n- PWP-FE. Flywheel Storage Power Plant.\n\nThe purpose of this application is to demonstrate the importance of energy storage in isolated environments. This advanced system stores kinetic energy using a flywheel and includes a bidirectional converter that enables energy to be absorbed from the microgrid and returned when needed. Thanks to the power electronics involved, the system offers a very fast response time, providing power plants like hydroelectric or wind farms sufficient time to respond to sudden changes in energy demand.\n\nThe \u201cAEL-MGP\u201d application includes a real-time supervision, control, and data acquisition SCADA software (EMG-SCADA), designed to represent and manage microgrid operations. This system enables remote and centralized control of each generation plant\u2014both conventional and renewable\u2014along with energy storage and system loads. Key features include configuration of plant parameters, adjustment of frequency (f), voltage (V), and power (P) setpoints, automatic grid synchronization, energy quality monitoring, load flow tracking, and the creation of dynamic demand and renewable resource profiles. Thanks to its intuitive graphical interface and high interactivity, the SCADA software allows simulation of real operational scenarios, faults, imbalances, and energy optimization strategies, making it an essential tool for technical training and validation of complex electrical systems.",
        "Specs": "- [AEL-MGP. Systems](https:\/\/www.edibon.com\/en\/microgrid-power-systems?video_modal=on):\n\nThe Conventional Power Plant, \u201cPWP-CE\u201d, includes the following elements:\n\nN-ALI12. Power Supply Module with Phase Sensor 3PH+N\/400 VAC.\n\n- Supply voltage: 400 VAC, 3PH + N.\n- ON\/OFF removable key.\n- Output voltage connections:\n\n- Three-phase + Neutral: 400 VAC.\n- Single-phase: 230 VAC\n\n- Three-phase supply hose with IP44 3PN+E 32 A 400 V connecting plug.\n- Differential magnetothermal 4 poles, 25 A, 30 mA AC 6 KA.\n- Emergency stop push-button.\n\nGMG4.5K3PH. 4.5 kW Generator-Motor Group.\n\n- Motor-generator group coupled in an aluminum frame with wheels.\n\nN-EALD\/M. Power Network Analyzer with Modbus TCP\/IP Module.\n\n- This network analyzer module allows measurement, visualization, and analysis of all electrical parameters in AC electrical networks. It features an LCD screen and navigation buttons for the menus. Includes specialized software for monitoring voltage and current waveforms, harmonic visualization, tariff programming, alarm programming, and storage of electrical parameters.\n- Features:\n\n- Multifunctional three-phase power meter:\n\n- Three-phase and single-phase voltage. Up to 690 VAC L-L.\n- Line and neutral nominal current: 10 A.\n- Active, reactive and apparent power.\n- Suitable frequencies: 25 Hz, 50 Hz, 60 Hz and 400 Hz.\n- Display of the V-I vector diagram.\n- Supply voltage: 85 \u2013 265 VAC.\n\n- Powerquality control:\n\n- Measurement of individual current and voltage harmonics up to the 40th harmonic.\n- Voltage and current THD, TDD, and K-Factor.\n- Maximum and minimum value display.\n- Waveformdisplay, 128 samples\/sec.\n\n- Events and data storage:\n\n- Harmonic analyzer:\n\n- Voltage and current THD, current TDD and K-Factor, up to the 40th harmonic.\n- Harmonic spectrum and phase angles for current and voltage.\n\n- Tariff programming:\n\n- Class 0.5S IEC 62053 \u2013 22, active and reactive power in four quadrants.\n- Measurement of the total and per phase three-phase active, reactive and apparent powers.\n- Usage time, four energy\/demand records of total tariffs.\n- Eight tariffs, four seasons and four types of days.\n- Automatic daily report of energy consumption maximums and minimums.\n\n- Communications:\n\n- Modbus TCP\/IP communication port.\n\nGEC-KIT-1. Generator Excitation Circuit Kit 1.\n\nN-AVR\/P. Automatic Voltage Regulator Module.\n\n- Input voltage: 0 \u2013 100 VDC.\n- Input for voltage regulation signal through PWM control.\n- Terminals for PWM signals monitoring.\n- Output voltage: 0 \u2013 100 VDC.\n- DC ammeter for output current measurement, 0 \u2013 4 A.\n- 3-pin female connector for connection to the excitation input of a generator.\n- Fuse 5 A.\n\nN-TRANS04. Single-Phase Transformer Module 230 VAC\/2 x 35 VAC, 300 VA.\n\n- Single-phase 230 VAC input terminals.\n- Terminals for a 70 VAC single-phase output.\n- Terminals for two 35 VAC single-phase outputs.\n- Two-position switch: 0 (open)\/1 (closed).\n- Fuses:\n\n- Primary side: 2 A.\n- Secondary side: 5 A.\n\nN-SPAD01. Single-Phase AC\/DC Converter Module 1.\n\n- 0 \u2013 230 VAC single-phase input terminals.\n- AC\/DC rectifier.\n- DC output terminals.\n- Filter capacitor for voltage ripple reduction.\n- Bypass terminals for filter capacitor connection.\n- Fuse 5 A\n\nN-ERP-PGC03. Power Generation, Control, Measurement, and Protection Module.\n\n- Automatic speed and voltage controller:\n\n- Enables to connect up to 16 electric generators in parallel-island with active and reactive power distribution and start\/stop operation control depending on the load demand.\n- Enables to connect a generator in parallel with the grid.\n- It allows different switch control modes, such as opening, closing and synchronization.\n- Three-phase measurement of the grid and the generator voltage.\n- Three-phase measurement of the generator current and power.\n- Single-phase measurement of the grid current.\n\n- Protection system:\n\n- Generator: Maximum\/minimum voltage (59\/27), maximum\/minimum frequency (81O\/U), voltage asymmetry, detection of dead busbars, overvoltage (32), load unbalance (46), negative sequence power\/reduced power (32R\/F), overcurrent by defined curve (50\/51), inverse time overcurrent (IEC255), measured ground fault (50N\/51N), phase rotation, switches faults.\n- Network: Maximum\/minimum voltage (59\/27), maximum\/minimum frequency (81O\/U), vector jump, phase rotation.\n- Measurement terminals.\n- Output terminals for the connection to the lab grid.\n- 2 mm terminals for monitoring the PWM regulation of the excitation and speed signals.\n\n- Three control switches:\n\n-  Start and stop the turbine.\n- Give permission to synchronize the generator with the grid.\n- Give permission to synchronize the generator with the national grid.\n\n- Two potentiometers:\n\n- Adjust the set point for the generated active power.\n- Adjust the set point for the output voltage.\n\n- Emergency stop push-button:\n\n- Two circuit breakers for operation in synchronization and island mode with indicator lights.\n\nN-BUS13. Generator Interconnection Busbar Module\n\n- Connection status indicators:\n\n- SOURCE 1: Conventional power plant (PWP-CE) connected.\n- SOURCE 2: Wind power plant (PWP-WE) connected.\n- SOURCE 3: Hydroelectric power plant (PWP-HE) connected.\n- SOURCE 4: Photovoltaic power plant (PWP-PE) connected.\n- SOURCE 5: Battery energy storage plant (PWP-BE) connected.\n- SOURCE 6: Flywheel energy storage plant (PWP-FE) connected.\n- GRID: Electricalgridconnected.\n- LOAD: Loadsconnected.\n- 2x BUS VOLTAGE: lit when voltage is applied to the busbar.\n- LED indicators for CLOSED and LOCKED (CB1, CB2, CB3, CB4, CB5, CB6 NET).\n\n- ON\/OFF switch.\n- Operating status indicator.\n\nTPEL\/1800W. Single-phase AC\/DC Electronic Load of 1800W (3 units).\n\n- The TPEL\/1800W electrical load stands out for its versatility in operating in both AC and DC. With a wide power range from 0 to 1800VA and an adjustable frequency from 45 Hz to 450 Hz, this electronic source offers exceptional capabilities.\n- With its advanced measurement capabilities, 7-inch LCD display, and features such as the built-in oscilloscope, the TPEL\/1800W is the ideal solution for laboratory testing of most of EDIBON\u2019s unit such as UPS, inverters, AC power supplies, electrical generators and AC electronic components. In addition, its connectivity via LAN and USB interfaces ensures reliable and fast control, adding an additional level of efficiency to its capabilities.\n- Technical Features:\n\n- Frequency Range: 45 Hz~450 Hz.\n- Power Range: 0~1.8 kVA.\n- Voltage Range: 50-420 Vrms, 15-260 Vrms.\n- Parallel Connection\/Three Phase Control: Capacity can be extended up to 43.2 kVA.\n- 7 Inch LCD Display: Provides a clear and accessible interface.\n- Oscilloscope Function: Allows display of voltage and current waveforms.\n- High Speed AD Sampling: Captures real-time waveforms.\n- Measurement Modes: Includes Vrms, Vpk, Vdc, Irms, Ipk, Idc, W, VA, VAR, CF, PF and FREQ.\n- Harmonic Measurement: Up to harmonic 50 (THD-V).\n- AC Electronic Load: DC\/CR\/CP modes.\n- DC Electronic Load: DC\/CR\/CP\/CV modes.\n- External Analog Control: 0~10 V analog input, with voltage and current monitoring functions.\n- Protection Functions: OTP, OCP, OVP, UVP and OPP.\n- Communication Interfaces: LAN and USB, plus external interface for USB flash disk.\n\nEMG-SCADA. Data Acquisition and Energy Management Software.\n\n- The \u201cEMG-SCADA\u201d software is the central component for supervision, operational control, and energy management within the \u201cAEL-MGP\u201d system. Specifically designed for advanced technical training environments and professional applications, this platform enables comprehensive monitoring, dynamic operational control, and detailed analysis of every element within a hybrid microgrid. Through a highly intuitive and functional graphical interface, \u201cEMG-SCADA\u201d provides real-time access to a wide range of critical variables such as voltage, current, frequency, active and reactive power, state of charge of storage systems, grid conditions, and generation performance. Its realistic and educational approach makes it a tool fully aligned with the current requirements of grid operators, technical instructors, and engineers specializing in renewable energy and microgrid systems.\n- SystemPlant Management:\n\n- Configuration of the most relevant parameters for each plant.\n- Selection and configuration of control modes: Grid-Forming \/ Grid-Following.\n- Start-up, shutdown, connection and disconnection control of plants and loads.\n- Dynamic adjustment of setpoints for each plant.\n- Execution of synchronization operations with the external grid or in island mode.\n\n- Real-Time Monitoring:\n\n- Power flow visualization across the microgrid.\n- Continuous monitoring of key parameters:\n\n- Power: Active (W), Reactive (VAr), and Apparent (VA).\n- Line and phase voltages and currents.\n- Frequency.\n- Power factor (PF).\n- Grid parameters: voltage, frequency, and phase.\n- Setpoints: Voltage (V), frequency (f), power (P).\n- Synchronization states of each generation unit.\n\n- Alarm visualization and management.\n- Plant connection and synchronization management via breakers.\n- Capability to graph a wide range of recorded parameters during simulation.\n\n- Simulation and Validation of Energy Management Strategies:\n\n- Creation of custom operation profiles: simulation of daily production cycles (solar\/wind) using real patterns or user-defined scenarios.\n- Load demand profiling: based on actual consumption patterns or customized user data.\n- Plotting and Analysis of Various Measurable System Variables.\n\n- Cables and Accessories, for normal operation.\n- This unit is supplied with the following manuals: Required services, Assembly and Installation, Starting-up, Safety, Maintenance and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nPractical possibilities required with the Conventional Energy Power Plant, \"PWP-CE\":\n\n- Configuration of key parameters in a conventional power plant for subsequent analysis and comparison: definition of ambient conditions at the turbine inlet (pressure\/temperature), compressor parameters (pressure ratio, efficiency), boiler parameters (pressure drops, combustion efficiency), and turbine characteristics (t3max, efficiency, exhaust gas pressure).\n- Exergy analysis and performance evaluation of the conventional generation plant.\n- electrical efficiency comparison during start-up and operation of a conventional plant using different gas types (natural gas, kerosene, propane, butane, or hydrogen).\n- Coordinated black start operation with the activation of critical and non-critical loads simulated through electronic loads.\n- System stability study via scheduled load ramping configured from the scada system.\n- Real-Time primary voltage regulation: visualization of the voltage regulator\u2019s dynamic adjustment in response to user-induced demand fluctuations under islanded operation mode.\n- Sequential adjustment of active power setpoint in grid-following mode with grid connection: analysis of the dynamic response of the machine\u2019s regulation system.\n- Graphical visualization of the conventional plant\u2019s emergency response following a sudden drop in renewable generation in an isolated microgrid.\n- Grid parameter monitoring and power flow analysis based on a user-defined demand curve.\n- Real-Time synchronization study: evaluation of breaker 52g closing conditions (voltage, frequency, phase sequence).\n- Synchronization operations between the conventional plant and the laboratory\u2019s internal grid or an external grid.\n- Study of blackout scenarios and the restoration of power supply in a microgrid environment.\n\nPractical possibilities recommended with the Wind Energy Power Plant, \"PWP-WE\":\n\n- Study of the wind energy generated by configuring the operating conditions (maximum wind turbine power, wind conditions: minimum and maximum values, and generation of the power vs. wind speed curve).\n- Real-Time validation of the theoretical power curve of the wind generator under dynamic wind conditions.\n- Analysis of the impact of active power production due to wind variations on the reactive power consumed by the machine.\n- Synchronization process and interaction of renewable resources with other plants in the microgrid while maintaining system stability in a microgrid environment.\n- Remote monitoring and energy management through the control of the wind power setpoint using the scada system.\n- Optimization of energy dispatch during nighttime periods: Coordination between wind generation, storage systems, and loads in microgrids with photovoltaic solar generation.\n- Coordinated dispatch strategies for gas plants, renewable energies, and hydropower in microgrids: real-time adjustment of setpoints based on user-generated renewable resource profiles (irradiance\/wind) and load demand.\n- Real-Time synchronization study: Evaluation of breaker closure conditions for switches 52G and 52NET.\n\nPractical possibilities recommended with the Photovoltaic Energy Power Plant, \"PWP-PE\":\n\n- Accurate simulation of photovoltaic (PV) generation through the configuration and integration of real irradiance profiles and definition of operating conditions (Voc, Imax, Pmax) of the PV panel.\n- Comparison between the power generated by the PV panel and the power delivered to the microgrid by the inverter.\n- Comprehensive analysis of the V-I curves of the photovoltaic system under different irradiance levels.\n- Optimization, coordination, and management of bidirectional power flow between photovoltaic generation, battery storage, and flywheel storage under conditions of high renewable resource and demand variability.\n- System failure due to lack of coordination between renewable plants and storage systems: Risk assessment of energy collapse during low-demand hours resulting from inefficient resource management.\n- Oversizing of solar capacity: Assessment of operational risks in frequency\/voltage stability and energy-related risks such as curtailment or battery storage system overload.\n- Strategic management of nighttime coverage: Synchronization between hydroelectric plants and storage systems to minimize conventional generation integration and ensure energy continuity after sunset.\n- Energy optimization of the microgrid: Evaluation of fuel consumption and operational efficiency of the conventional plant under different photovoltaic integration scenarios.\n\nPractical possibilities recommended with the Hydroelectric Energy Power Plant, \"PWP-HE\":\n\n- Study of the energy conversion principle in a hydroelectric power plant and its integration within microgrid environments.\n- Evaluation and configuration of the fundamental parameters of a hydroelectric plant: turbine type (Pelton, Francis, Kaplan), head height h, efficiency rates (hydraulic turbine, generator, mechanical), and reservoir capacity.\n- Analysis of the overall performance of a hydroelectric plant (turbined vs. pumped energy) in response to dynamic load profiles.\n- Optimal management of pumping and turbining operations based on user-defined variable demand scenarios.\n- Hydrological resource depletion scenario within the microgrid: operational transition supported by energy storage systems to ensure stability of fundamental grid parameters (v\/f).\n- Evaluation and analysis of hydraulic design parameters and resulting generation profiles based on the selected turbine type (pelton, francis, or kaplan).\n- Interaction between the hydroelectric plant (pwp-he) and the wind power plant (pwp-we) under wind variability events.\n- Dynamic management of operation modes between grid-forming (v-f) and grid-following (p-q) following simulated maintenance operations or failures in the conventional power plant (pwp-ce).\n- Influence of flow rate by configuring hydro plant parameters and its impact on voltage\/frequency stability in an islanded microgrid mode.\n\nPractical possibilities recommended with the Battery Energy Storage Power Plant, \"PWP-BE\":\n\n- Manual management and adjustment of the power setpoint during battery charge and discharge periods in response to variability of renewable resources (wind and irradiance).\n- Response and operation of the battery energy storage system under overgeneration conditions and reverse power flow scenarios.\n- Dynamic management of battery storage to support frequency regulation, peak shaving, and critical backup in smart microgrids.\n- Impact of the storage plant during simulated unexpected disconnections or generation plant outages for subsequent analysis of system stability maintenance in the microgrid.\n- Interaction between the flywheel and battery storage systems for rapid frequency stabilization.\n- Protocol to maximize battery lifetime and efficiency by defining battery charge\/discharge timing based on State of Charge (SOC %).\n- Real-time visualization of State of Charge (SOC) and graphical monitoring of power during battery charge\/discharge periods.\n- Management and interaction of batteries with renewable generation in microgrids: Analysis of daytime surplus energy and nighttime demand operation.\n- Evaluation of backup capacity and autonomy in case of prolonged main grid failure.\n\nPractical possibilities recommended with the Flywheel Storage Energy Power Plant, \"PWP-FE\":\n\n- Impact of the flywheel on frequency stabilization in hybrid microgrids: System response under overgeneration and energy deficit scenarios.\n- Impact of reverse power flow in microgrids with high penetration of distributed generation: diagnosis under conditions of generation surplus versus demand, storage plant management failures, or blackout situations.\n- Support for generator start-up and synchronization through the flywheel system.\n- Simulation of overload scenarios in islanded mode and microgrid collapse prevention via active braking of the flywheel.\n- Compensation of power fluctuations in microgrids with high renewable penetration and variability by adjusting the frequency setpoint.\n- Comprehensive analysis of dynamic performance in microgrids: Response time, frequency stability, and comparative support capacity of inertial storage versus battery-based storage.\n- Impact of improper frequency setpoint adjustment on flywheel behavior leading to microgrid instability and potential blackout.\n- Flywheel response during transitions between grid-connected and islanded modes.\n\nPractical Applications with the Complete System Comprising All Plants, Microgrid Power System, \"AEL-MGP\":\n\n- Evaluation and graphical visualization of frequency response to simulated disturbances (sudden demand spikes, abrupt load disconnections, or critical event simulations).\n- Simulation of real grid operator actions through programming variable load profiles and assessing flow control by adjusting the set points of power plants.\n- Graphing the generation contribution of each microgrid plant and its interaction with frequency variations and variable load demand.\n- Understanding the structure, operation, and architecture of a hybrid microgrid.\n- Real-time supervision, data acquisition, and analysis of electrical parameters at any point within the microgrid.\n- Design and operation of an islanded microgrid to meet the real demand profile of a community or isolated area, with control and monitoring via SCADA.\n- Implementation of protocols for safe shutdown procedures from the SCADA environment.\n- Simulation of maintenance operations on system plants, coordinated with other plants to maintain continuous and high-quality power supply.\n- Comprehensive analysis of the impact of renewable overgeneration on frequency stability: Study of blackout scenarios and power quality in microgrids.\n- Graphical real-time visualization of energy contribution in response to generation and demand fluctuations.\n- Study of microgrid response to sudden renewable generation drops due to meteorological changes.\n- Management of frequency and voltage fluctuations and generation surpluses in microgrids using batteries and flywheel storage.\n- Strategic adjustment and management of storage systems to accommodate renewable resource variability.\n- Intelligent energy resource management in microgrids based on predefined demand profiles.\n- Study of full energy replenishment following a simulated blackout event.\n- Evaluation of system resilience and robustness against multiple disconnection events.\n- Comprehensive generation analysis in microgrid: Visualization of the power curve and monitoring of key electrical parameters (P, Q, S, V, I) of each power plant for energy optimization.",
        "Url": "edquip.co\/en\/edibon\/microgrid-power-systems",
        "Page title": "Microgrid Power Systems: Edibon - EDQUIP",
        "Page description": "Microgrid power systems training equipment. Request quotation today! Free price estimations, hands-on learning, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "PWP-CE: Dimensions: 2000 x 320 x 920 mm approx. (78.73 x 12.59 x 36.22 inches approx.) PWP-WE: Dimensions: 1000 x 400 x 1600 mm approx. (39.37 x 15.74 x 62.99 inches approx.) PWP-PE: Dimensi",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "800",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Microgrid Power Systems\/1751373982_AEL-MGP.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/S8WT9Acoitk?si=jTAOgQPqwDFWOZsh",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-841285",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "PWP-CE",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Conventional Energy Power Plant",
        "Description": "The [Conventional Power Plant \"PWP-CE\"](https:\/\/www.edibon.com\/en\/conventional-energy-power-plant) by [EDIBON](https:\/\/www.edibon.com\/en\/) allows users to simulate the operation of a conventional power plant within a microgrid, providing base power to the grid and stabilizing frequency and voltage parameters. Users can experience realistic simulations related to the integration of renewable energy and microgrid operation, including generator synchronization and dynamic load management.\n\nFor these purposes, the PWP-CE includes a turbine-generator group, consisting of an electric motor (turbine) coupled to a three-phase synchronous generator. The generated power output is controlled by a digital multifunction controller that regulates the turbine speed, generator frequency, excitation current, and active and reactive power (P, Q, S). This controller ensures optimal operation of both electrical and mechanical parameters.\n\nThe system also includes a dynamic load control module, simulating power consumption profiles, allowing users to program energy demand and study various control maneuvers within the microgrid. Users can generate realistic demand curves by specifying maximum and minimum consumption, as well as peak and off-peak periods.\n\nAdditionally, a network analyzer is included to measure key electrical parameters in real time, such as the energy generated and the energy consumed by the dynamic load. The analyzer supports \"Smart Metering\" functionality, enabling two-way communication with other network elements for efficient management.\n\nThis system acts as the base of the microgrid, ensuring grid stability and enabling the integration of renewable energy sources without compromising the balance of the grid.",
        "Specs": "- [PWP-CE](https:\/\/www.edibon.com\/en\/conventional-energy-power-plant):\n\n- N-ALI01. Industrial Main Power Supply Module.\n- GMG4.5K3PH. 4.5 kW Generator-Motor Group.\n- N-EALD. Electrical Network Analyzer Module with Oscilloscope and Data Acquisition.\n- N-PSM. Power Switch Module.\n- GEC-KIT-1. Generator Excitation Circuit Kit 1\n- N-AVR\/P. Automatic Voltage Regulator Module.\n- N-TRANS04. Single-Phase Transformer Module 230 VAC\/2 x 35 VAC, 300 VA.\n- N-SPAD01. Single-Phase AC\/DC Converter Module 1.\n- N-ERP-PGC01. Generator Protection Relay Module.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nSome practical exercises with the included base unit \"PWP-CE\":\n\n- Basic concepts of isolated, stand-alone grids.\n- Automatic control of voltage and frequency of the generator in a stand-alone grid.\n- Study of energy requirements and energy generation in stand-alone grids.\n- Smart Metering of the generated energy.\n- Study of synchronous generator response to a change in the load.\n- Synchronization operations with the synchronous generator and the grid.",
        "Url": "edquip.co\/en\/edibon\/conventional-energy-power-plant",
        "Page title": "Conventional Energy Power Plant",
        "Page description": "Conventional Energy Power Plant for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "2000 x 320 x 920 mm approx.  (78.73 x 12.59 x 36.22 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "150",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Conventional Energy Power Plant\/Conventional Energy Power Plant_PWP-CE_2.png",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-994631",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "PWP-FE",
        "Content languages": "en, es, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Flywheel Energy Storage Power Plant",
        "Description": "The [\"PWP-HE\" Hydroelectric Power Plants](https:\/\/www.edibon.com\/en\/flywheel-energy-storage-power-plant) by [EDIBON](https:\/\/www.edibon.com\/en\/) is designed to allow users to study the integration of hydroelectric power plants within microgrids. Hydroelectric plants are highly responsive and can efficiently supply energy during peak demand periods, making them an important component of any microgrid. This application enables users to simulate intelligent energy distribution within the microgrid, with decisions based on operator inputs.\n\nThe system includes a turbine-generator group that generates power for the microgrid, providing flexible and responsive energy distribution. A network analyzer is integrated to monitor the energy produced by the hydroelectric power plant in real time, providing essential data for decision-making.\n\nFor precise control of the turbine-generator group, a digital multifunction controller (AVR and ASC) is used, allowing users to regulate the electrical and mechanical parameters of the system. Key features of the controller include the ability to set the \"set point\" for the generator\u2019s active power, enabling automatic adjustment of how much active power is injected into the microgrid.\n\nThe multifunction controller is crucial for managing power distribution between various generators within the microgrid, ensuring an efficient and balanced energy supply across the system.",
        "Specs": "- [PWP-FE](https:\/\/www.edibon.com\/en\/flywheel-energy-storage-power-plant):\n\n- N-EALD. Electrical Network Analyzer Module with Oscilloscope and Data Acquisition.\n- N-VVCA7K. 5.5 kW AC Motor Control Module.\n- FMG5K. 5 kW Flywheel-Motor Group.\n- N-ERC. Electrical Regeneration Control Module.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Installation of photovoltaic power plants.\n- Grid-connection of photovoltaic plants.\n- Setting the P-V curves for power generation.\n- Monitoring the power injection into the grid.\n- Maximum power point tracking (MPPT).\n- Limiting the inverter power (derating).\n- Determining the inverter efficiency.",
        "Url": "edquip.co\/en\/edibon\/flywheel-energy-storage-power-plant",
        "Page title": "Flywheel Energy Storage Power Plant: Edibon - EDQUIP",
        "Page description": "Flywheel Energy Storage Power Plant, for education & training. Request quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1380 x 840 x 2010 mm approx.  (54,33 x 33,07 x 79,13 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Flywheel Energy Storage Power Plant\/Flywheel Energy Storage Power Plant_PWP-FE.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-467521",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "PWP-BE",
        "Content languages": "en, es, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Battery Energy Storage Power Plant",
        "Description": "The [\"PWP-BE\" Batteries Energy Storage Power Plant](https:\/\/www.edibon.com\/en\/battery-energy-storage-power-plant) by [EDIBON](https:\/\/www.edibon.com\/en\/) is designed to illustrate the critical role of energy storage in isolated or off-grid environments. In scenarios where wind or solar power is unavailable, this application enables users to rely on stored chemical energy within batteries to maintain power supply.\n\nThe [PWP-BE](https:\/\/www.edibon.com\/en\/battery-energy-storage-power-plant) includes a bidirectional inverter and battery unit, enabling energy storage during times of surplus production and rapid energy release to meet demand as needed. The high response speed of the power electronics used in this application ensures that the stored energy can be accessed quickly, giving renewable sources, such as hydroelectric or wind plants, the necessary time to respond to sudden demand changes.\n\nDuring periods of excess energy generation, the battery system stores surplus power, optimizing resource utilization and enhancing stability within the microgrid.",
        "Specs": "- [PWP-BE](https:\/\/www.edibon.com\/en\/battery-energy-storage-power-plant):\n\n- N-INV\/HY. Hybrid Inverter Module.\n- BAT3. Lithium - Iron Phosphate Battery.\n- N-EALD. Electrical Network Analyzer Module with Oscilloscope and Data Acquisition.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nSome practical exercises with the included base unit \"PWP-BE\":\n\n- Installation process of energy accumulation systems based on the combination of batteries with the charge controller inverter.\n- Interaction among the photovoltaic system and the battery.\n- Energy storage in the generation surplus scenario of the microgrid.\n- Discharge of the battery in the lack of generation scenario of the microgrid",
        "Url": "edquip.co\/en\/edibon\/battery-energy-storage-power-plant",
        "Page title": "Battery Energy Storage Power Plant: Edibon - EDQUIP",
        "Page description": "Battery Energy Storage Power Plant, for training purposes. Request your quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1800 x 700 x 1000 mm approx.  (70,86 x 27,55 x 39,37 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "150",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Battery Energy Storage Power Plant\/edibon-battery-energy-storage-power-plant-edquip.jpg",
        "Video link": "",
        "Main category": "Smart Grid Lab"
    },
    {
        "Edquip ID": "PL-911158",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "PWP-PE",
        "Content languages": "en, es, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Photovoltaic Energy Power Plant",
        "Description": "The [\"PWP-PE\" Photovoltaic Power Plants](https:\/\/www.edibon.com\/en\/photovoltaic-energy-power-plant) by [EDIBON](https:\/\/www.edibon.com\/en\/) provides a platform for studying photovoltaic power plants within the context of microgrids. This application includes a three-phase inverter powered by a photovoltaic panel array simulator, enabling users to explore and configure generation parameters and functions under various scenarios and conditions.\n\nKey learning areas include the study of fundamental concepts in photovoltaic systems, such as Maximum Power Point Tracking (MPPT), inverter power limitations (derating), inverter efficiency, and reactive energy generation. These features allow users to gain insights into the operation and performance optimization of photovoltaic installations.\n\nTo enhance real-time analysis, the PWP-PE is equipped with a network analyzer that measures energy production from the photovoltaic power plant, providing critical data for effective microgrid integration and management.",
        "Specs": "- [PWP-PE](https:\/\/www.edibon.com\/en\/photovoltaic-energy-power-plant):\n\n- PSPS\/A. Advanced Panel Simulator Power Supply.\n- N-INV02. Three-Phase Grid Inverter Module 2.\n- N-EALD. Electrical Network Analyzer Module with Oscilloscope and Data Acquisition.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nSome practical exercises with the included base unit \"PWP-PE\":\n\n- Installation of photovoltaic power plants.\n- Grid-connection of photovoltaic plants.\n- Setting the P-V curves for power generation.\n- Monitoring the power injection into the grid.\n- Maximum power point tracking (MPPT).\n- Limiting the inverter power (derating).\n- Determining the inverter efficiency.",
        "Url": "edquip.co\/en\/edibon\/photovoltaic-energy-power-plant",
        "Page title": "Photovoltaic Energy Power Plant: Edibon - EDQUIP",
        "Page description": "Photovoltaic Energy Power Plant, training equipment. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1380 x 840 x 2010 mm approx.  (54,33 x 33,07 x 79,13 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Photovoltaic Energy Power Plant\/edibon-photovoltaic-energy-power-plant-edquip.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-204766",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "PWP-WE",
        "Content languages": "en, es, fr",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Wind Energy Power Plant",
        "Description": "The [\"PWP-WE\" Wind Power Plants](https:\/\/www.edibon.com\/en\/wind-energy-power-plant) by [EDIBON](https:\/\/www.edibon.com\/en\/) is designed for studying wind power plants within microgrids. This application includes an induction turbine-generator group that supplies energy to the microgrid, allowing for smart energy distribution controlled by the operator.\n\nEquipped with a network analyzer, the PWP-WE measures real-time energy production from the wind power plant. Control over the turbine-generator group is provided by a digital multifunction controller (AVR and ASC), enabling precise regulation of electrical and mechanical parameters. Key controls include setting the active power set point, allowing users to adjust how much power is injected into the microgrid automatically.\n\nThe multifunction controller is essential in managing power distribution among different energy sources within the microgrid, offering users an in-depth understanding of wind power generation and integration.",
        "Specs": "- [PWP-WE](https:\/\/www.edibon.com\/en\/wind-energy-power-plant):\n\n- EMT7\/1K. 3PH Squirrel Cage Motor, 1 kW (2 units).\n- N-EALD. Electrical Network Analyzer Module with Oscilloscope and Data Acquisition.\n- N-VVCA2K. 2 kW Motor Speed Controller Module.\n- N-CAR19T3. Three-Phase Bench of Commutable Capacitors Module.\n- N-ERP-PGC02. Turbine Protection and Control Module.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nSome practical exercises with the included base unit \"PWP-WE\":\n\n- Automatic control of the turbine-generator group speed.\n- Startup of the three-phase induction generator.\n- Automatic synchronization of the three-phase induction generator with the grid.\n- Monitoring the electrical parameters of the three-phase induction generator in synchronism with the grid.\n- Adjustable automatic control of the active power delivered to the grid.\n- Influence of speed variation on the reactive power and analysis of the feasible solutions to automate the power factor regulation.\n- Compensation of the reactive power consumed by the threephase induction generator by means of capacitor banks.",
        "Url": "edquip.co\/en\/edibon\/wind-energy-power-plant",
        "Page title": "Wind Energy Power Plant: Edibon - EDQUIP",
        "Page description": "Wind Energy Power Plant, for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1000 x 400 x 1600 mm approx.  (39,37 x 15,74 x 62,99 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Wind Energy Power Plant\/edibon-wind-energy-power-plant-edquip.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-399365",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "PWP-HE",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Hydroelectric Energy Power Plant",
        "Description": "The [\"PWP-HE\" Hydroelectric Power Plants](https:\/\/www.edibon.com\/en\/hydroelectric-energy-power-plant) by [EDIBON](https:\/\/www.edibon.com\/en\/) is developed to study hydroelectric power plant operations within microgrids. Hydroelectric plants excel in providing rapid energy supply during peak demand due to their quick response capabilities. This application includes a turbine-generator group that supplies power to the microgrid, enabling energy distribution based on operator decisions.\n\nA network analyzer is integrated to monitor the hydroelectric plant's real-time energy output. The turbine-generator group is regulated by a digital multifunction controller (AVR and ASC), which optimally manages all electrical and mechanical parameters. Users can control the active power set point to adjust the active power injected into the microgrid automatically.\n\nThe multifunction controller is crucial for balancing power distribution across various generators within the microgrid, providing a comprehensive understanding of hydroelectric energy management.",
        "Specs": "- [PWP-HE](https:\/\/www.edibon.com\/en\/hydroelectric-energy-power-plant):\n\n- EMT7\/1K. 3PH Squirrel Cage Motor, 1 kW.\n- EMT6\/1K. Independent Excitation 3 PH Synchronous Motor-Generator, 1 kW.\n- N-VVCA2K. 2 kW Motor Speed Controller Module.\n- N-ERP-PGC01. Generator Protection Relay Module.\n- GEC-KIT-1. Generator Excitation Circuit Kit 1.\n- HYDP-K1. Hydroelectric Pumping Kit 1.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nSome practical exercises with the included base unit \"PWP-HE\":\n\n- Study of hydroelectric resources and power production with synchronous generators.\n- Study of active power production from synchronous generator in synchronism with other generators.\n- Determination of threshold power load for active power injection from the hydroelectric power plant.\n- Real time active power control.\n- Study of synchronous generator power factor regulation in hydroelectric power plants.",
        "Url": "edquip.co\/en\/edibon\/hydroelectric-energy-power-plant",
        "Page title": "Hydroelectric Energy Power Plant",
        "Page description": "Hydroelectric Energy Power Plant for education & training. Request your quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1000 x 400 x 1600 mm approx.  (39,37 x 15,74 x 62,99 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "100",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Hydroelectric Energy Power Plant\/edibon-hydroelectric-energy-power-plant-edquip.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-403410",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-NS",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Pneumatic and Electro-Pneumatic Application",
        "Description": "The [Pneumatic and Electro-Pneumatic Application, \"AE-NS\"](https:\/\/www.edibon.com\/en\/pneumatic-and-electro-pneumatic-application), by [EDIBON](https:\/\/www.edibon.com\/en\/) is a modular system equipped with a variety of optional kits and components, allowing users to configure pneumatic and electro-pneumatic circuits based on their specific learning or training needs.\n\nThe application offers several optional pneumatic kits designed for comprehensive studies on industrial pneumatic circuit management and operation. These kits include:\n\n- PK-K0 \u2013 Fundamentals Kit: Contains components for basic pneumatic circuit concepts.\n- PK-K1 \u2013 Advanced Pneumatics Kit: Covers both fundamental and advanced pneumatic concepts.\n- PK-K1UP \u2013 Electro-Pneumatics Upgrade Kit: Adds modules to the PK-K1, enabling users to study fundamental electro-pneumatic circuit concepts.\n- PK-K2 \u2013 Electro-Pneumatics Kit: Provides components for both basic and advanced electro-pneumatic concepts.\n- PK-K3 \u2013 Pneumatic Actuators Kit: Focuses on common pneumatic actuators, including rotary motors.\n- PK-K4 \u2013 Measurement and Proportional Control Kit: A computer-controlled kit that enables proportional control and analog signal use with pneumatic actuators, facilitating PID control via computer.\n- PK-K5 \u2013 Vacuum Technology Kit: Introduces the essential components of vacuum circuits and includes various cup types for comparative study.\n- PK-K6 \u2013 Troubleshooting Kit: Contains defective components to teach students to identify and troubleshoot common pneumatic issues.\n\nFor added functionality, the [EDIBON](https:\/\/www.edibon.com\/en\/) PLC unit is compatible with the PK-K2 kits, enabling PLC control of pneumatic and electro-pneumatic components for advanced, hands-on experience.\n\nAdditional units are available for airflow and pressure supply, as well as customizable workbenches that accommodate one or two work areas.",
        "Specs": "- [AE-NS APPLICATION](https:\/\/www.edibon.com\/en\/pneumatic-and-electro-pneumatic-application):\n\n- Work with a working air pressure of 4 bar.\n- The components include Quick-Fitting connectors with Built-in Stop Mechanism for 6 mm tubing.\n- Are attached to a screen printed metallic plate with the name and the standard symbol of the component.\n- These metallic plates are designed to be placed on the EDIBON workbenches\n\nOptional kits of Pneumatic components:\n\n- PK-K0. Kit to study the pneumatics fundamentals.\n- PK-K1. Pneumatics kit.\n- PK-K1UP. Upgrade Kit for the PK-K1 to undestand the principles of Electro-Pneumatic.\n- PK-K2. Electro-Pneumatics kit.\n- PK-K3. Pneumatics Actuators Kit.\n- PK-K4. Measurement and Proportional Control in Pneumatics Kit.\n- PK-K5. Vaccum Technology Kit.\n- PK-K6. Pneumatics and Electro-Pneumatic Troubleshooting kit.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nPK-K0. Kit to study the pneumatics fundamentals.\n\n- Identification of elements.\n- Air compression and treatment.\n- Operation of valves with manual activation.\n- Activation of a simple effect cylinder.\n- Activation of a simple effect cylinder from several points (\"OR\" valve).\n- Simultaneous activation of a simple effect cylinder (\"AND\" valve).\n- Indirect activation of a simple effect cylinder.\n\nPK-K1. Pneumatics kit.\n\n- Identification of elements.\n- Air compression and treatment.\n- Operation of valves with manual activation.\n- Activation of a simple effect cylinder.\n- Activation of a simple effect cylinder from several points (\"OR\" valve).\n- Simultaneous activation of a simple effect cylinder (\"AND\" valve).\n- Ejector function and study of the venture principle.\n- Using the ejector and suction cup to grip workpieces.\n- Indirect activation of a simple effect cylinder.\n- Activation of a double effect cylinder.\n- Indirect activation of a double effect cylinder.\n- Semi-automatic activation of a double effect cylinder.\n- Speed adjustment of a double effect cylinder.\n- Automatic activation of a double effect cylinder.\n- Timer controlled activation of a double effect cylinder.\n- Accelerated return of a double effect cylinder.\n- Pneumatic system with emergency pushbutton.\n- Activation of a simple effect cylinder by three pneumatic signals.\n- Configuration of an adjustable sequence valve.\n\nPK-K1UP. Upgrade Kit for the PK-K1 to undestand the principles of Electro-Pneumatic:\n\n- Identification of elements.\n- Air compression and treatment.\n- Activation of a simple effect cylinder.\n- Activation of a double effect cylinder.\n- Speed adjustment of a double effect cylinder.\n- Electro-pneumatic control by a monostable 3\/2 NC solenoid valve.\n- Electro-pneumatic control by monostable 3\/2 solenoid valve.\n- Electro-pneumatic control by a bistable 5\/2 solenoid valve.\n- Control of a double effect cylinder using Reed sensors.\n- Automatic activation of cylinders (sequence A+B+A-B-).\n- Operation of a pressure switch and a manometer with electric contact.\n\nPK-K2. Electro-Pneumatics kit.\n\n- Identification of elements.\n- Air compression and treatment.\n- Activation of a simple effect cylinder.\n- Activation of a double effect cylinder.\n- Speed adjustment of a double effect cylinder.\n- Electro-pneumatic control by a monostable 3\/2 NC solenoid valve.\n- Electro-pneumatic control by monostable 3\/2 and 5\/2 solenoid valves.\n- Electro-pneumatic control by a bistable 5\/2 solenoid valve.\n- Control of a double effect cylinder using Reed sensors.\n- Automatic activation of cylinders (sequence A+B+A-B-).\n- Operation of a pressure switch and a manometer with electric contact.\n\nPK-K3. Pneumatics Actuators kit.\n\n- Identification of elements.\n- Activation of a pneumatic linear actuator.\n- Activation of a pneumatic rotary actuator.\n- Activation of a pneumatic artificial muscle.\n- Use the function generator to set the speed of the linear actuator.\n- Use the function generator to set the speed of the rotary actuator.\n- Use the function generator to set the speed of the pneumatic artificial muscle.\n- Uses of different loads with a linear actuator and observe the response.\n- Uses of different loads with a rotary actuator and observe the response.\n- Uses of different loads with a pneumatic artificial muscle and observe the response.\n- Comparison between the different actuators.\n\nPK-K4. Measurement and Proportional Control in Pneumatics kit.\n\n- Familiarization with data acquisition and processing of system signals from PC.\n- Operation of the Background suppression photoelectric sensor from PC.\n- Operation of the Polarized retroreflective photoelectric sensor from PC.\n- Operation of the Diffuse-reflective photoelectric sensor from PC.\n- Operation of the Fiber optic photoelectric sensor from PC.\n- Proportional manual control of a proportional valve from PC.\n- Analog measurement of pressure level from PC.\n- Analog measurement of flow level from PC.\n- PID control loop of the flow level from PC.\n- Analog position sensor of the pneumatic linear actuator from PC.\n- PID control loop of the position of a pneumatic linear actuator from PC.\n\nPK-K5. Vaccum Technology kit.\n\n- Familiarization with the vacuum components.\n- Ejector function and study of the venture principle.\n- Using the ejector and suction cup to grip workpieces.\n- Measure of the negative pressure level.\n- Regulation of the negative pressure of the vacuum circuit.\n- Differences between the suction cups of the unit, and comparison of its performance.\n\nPK-K6. Pneumatics and Electro-Pneumatic Troubleshooting kit.\n\n- Familiarization with most common failures of the pneumatic components.\n- Study a faulty air filter and pressure regulator with manometer.\n- Study a faulty manometer.\n- Study a faulty air pressure tank.\n- Study a faulty monostable 3\/2 NC valve activated by a push-button.\n- Study a faulty double acting cylinder with Reed sensors.\n- Study a faulty bistable 5\/2 valves with pneumatic activation.\n- Study a faulty 5\/3 closed center valve with pneumatic activation.\n- Study a faulty vacuum pad with ejector.\n- Study a faulty silencer for 6 mm tubing.\n\nAE-PLC-PAN-UB (also available with others PLCmanufacturers):\n\n- Activation of a simple effect cylinder with PLC.\n- Activation of a double effect cylinder with PLC.\n- Electro-pneumatic control by a monostable 3\/2 NC solenoid valve activated from PLC.\n- Electro-pneumatic control by monostable 3\/2 and 5\/2 solenoid valve activated from PLC.\n- Electro-pneumatic control by a bistable 5\/2 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Position control of a double effect cylinder using Reed sensors and a PLC.\n- Creation a pneumatic sequence with the PLC.\n\nThe practices available with the AE-PLC-PAN-UB working alone are:\n\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (PLC-PAN-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (PLC-PAN-K1 and PLC-PAN-K2).\n- Using analog signals II (PLC-PAN-K1 and PLC-PAN-K2).\n- Square wave generator.\n- HMI simple program (PLC-PAN-K3 or PLC-PAN-K4).\n- Using digital outputs with HMI device I (PLC-PAN-K3 or PLCPAN-K4).\n- Using digital outputs with HMI device II (PLC-PAN-K3 or PLCPAN-K4).\n- Reading data from a register with the HMI device (PLC-PAN-K3 or PLC-PAN-K4).\n- Writing data to a register with the HMI device (PLC-PAN-K3 or PLC-PAN-K4).\n- Switching screens of the HMI device (PLC-PAN-K3 or PLC-PAN-K4).\n- Internet connection of the PLC unit (PLC-PAN-K5).\n- Control digital inputs with a web server application (PLC-PAN-K5).\n- Control digital outputs with a web server application (PLC-PAN-K5).\n- Control analog inputs with a web server application (PLC-PAN-K5).\n- Control analog outputs with a web server application (PLC-PAN-K5).\n\nAE-PLC-SIE-UB (also available with others PLC manufacturers):\n\n- Activation of a simple effect cylinder with PLC.\n- Activation of a double effect cylinder with PLC.\n- Electro-pneumatic control by a monostable 3\/2 NC solenoid valve activated from PLC.\n- Electro-pneumatic control by monostable 3\/2 and 5\/2 solenoid valve activated from PLC.\n- Electro-pneumatic control by a bistable 5\/2 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Position control of a double effect cylinder using Reed sensors and a PLC.\n- Creation a pneumatic sequence with the PLC.\n\nThe practices available with the AE-PLC-SIE-UB working alone are:\n\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (PLC-SIE-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (PLC-SIE-K1 and PLC-SIE-K2).\n- Using analog signals II (PLC-SIE-K1 and PLC-SIE-K2).\n- Square wave generator.\n- HMI simple program (PLC-SIE-K3 or PLC-SIE-K4).\n- Using digital outputs with HMI device I (PLC-SIE-K3 or PLC-SIE-K4).\n- Using digital outputs with HMI device II (PLC-SIE-K3 or PLC-SIE-K4).\n- Reading data from a register with the HMI device (PLC-SIE-K3 or PLC-SIE-K4).\n- Writing data to a register with the HMI device (PLC-SIE-K3 or PLC-SIE-K4).\n- Switching screens of the HMI device (PLC-SIE-K3 or PLC-SIE-K4).\n- Internet connection of the PLC unit (PLC-SIE-K5).\n- Control digital inputs with a web server application (PLC-SIE-K5).\n- Control digital outputs with a web server application (PLC-SIE-K5).\n- Control analog inputs with a web server application (PLC-SIE-K5).\n- Control analog outputs with a web server application (PLC-SIE-K5).\n\nAE-PLC-AB-UB (also available with others PLC manufacturers):\n\n- Activation of a simple effect cylinder with PLC.\n- Activation of a double effect cylinder with PLC.\n- Electro-pneumatic control by a monostable 3\/2 NC solenoid valve activated from PLC.\n- Electro-pneumatic control by monostable 3\/2 and 5\/2 solenoid valve activated from PLC.\n- Electro-pneumatic control by a bistable 5\/2 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Position control of a double effect cylinder using Reed sensors and a PLC.\n- Creation a pneumatic sequence with the PLC.\n\nThe practices available with the AE-PLC-AB-UB working alone are:\n\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (PLC-AB-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (PLC-AB-K1 and PLC-AB-K2).\n- Using analog signals II (PLC-AB-K1 and PLC-AB-K2).\n- Square wave generator.\n- HMI simple program (PLC-AB-K3 or PLC-AB-K4).\n- Using digital outputs with HMI device I (PLC-AB-K3 or PLC-AB-K4).\n- Using digital outputs with HMI device II (PLC-AB-K3 or PLC-AB-K4).\n- Reading data from a register with the HMI device (PLC-AB-K3 or PLC-AB-K4).\n- Writing data to a register with the HMI device (PLC-AB-K3 or PLC-AB-K4).\n- Switching screens of the HMI device (PLC-AB-K3 or PLC-AB-K4).\n- Internet connection of the PLC unit (PLC-AB-K5).\n- Control digital inputs with a web server application (PLC-AB-K5).\n- Control digital outputs with a web server application (PLC-AB-K5).\n- Control analog inputs with a web server application (PLC-AB-K5).\n- Control analog outputs with a web server application (PLC-AB-K5).\n\nAE-PLC-OMR-UB (also available with others PLC manufacturers):\n\n- Activation of a simple effect cylinder with PLC.\n- Activation of a double effect cylinder with PLC.\n- Electro-pneumatic control by a monostable 3\/2 NC solenoid valve activated from PLC.\n- Electro-pneumatic control by monostable 3\/2 and 5\/2 solenoid valve activated from PLC.\n- Electro-pneumatic control by a bistable 5\/2 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Position control of a double effect cylinder using Reed sensors and a PLC.\n- Creation a pneumatic sequence with the PLC.\n\nThe practices available with the AE-PLC-OMR-UB working alone are:\n\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (PLC-OMR-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (PLC-OMR-K1 and PLC-OMR-K2).\n- Using analog signals II (PLC-OMR-K1 and PLC-OMR-K2).\n- Square wave generator.\n- HMI simple program (PLC-OMR-K3 or PLC-OMR-K4).\n- Using digital outputs with HMI device I (PLC-OMR-K3 or PLCOMR-K4).\n- Using digital outputs with HMI device II (PLC-OMR-K3 or PLCOMR-K4).\n- Reading data from a register with the HMI device (PLC-OMR-K3 or PLC-OMR-K4).\n- Writing data to a register with the HMI device (PLC-OMR-K3 or PLC-OMR-K4).\n- Switching screens of the HMI device (PLC-OMR-K3 or PLC-OMR-K4).\n- Internet connection of the PLC unit (PLC-OMR-K5).\n- Control digital inputs with a web server application (PLC-OMR-K5).\n- Control digital outputs with a web server application (PLC-OMR-K5).\n- Control analog inputs with a web server application (PLC-OMR-K5).\n- Control analog outputs with a web server application (PLC-OMR-K5).\n\nAE-PLC-MIT-UB (also available with others PLC manufacturers):\n\n- Activation of a simple effect cylinder with PLC.\n- Activation of a double effect cylinder with PLC.\n- Electro-pneumatic control by a monostable 3\/2 NC solenoid valve activated from PLC.\n- Electro-pneumatic control by monostable 3\/2 and 5\/2 solenoid valve activated from PLC.\n- Electro-pneumatic control by a bistable 5\/2 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Position control of a double effect cylinder using Reed sensors and a PLC.\n- Creation a pneumatic sequence with the PLC.\n\nThe practices available with the AE-PLC-MIT-UB working alone are:\n\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (PLC-MIT-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (PLC-MIT-K1 and PLC-MIT-K2).\n- Using analog signals II (PLC-MIT-K1 and PLC-MIT-K2).\n- Square wave generator.\n- HMI simple program (PLC-MIT-K3 or PLC-MIT-K4).\n- Using digital outputs with HMI device I (PLC-MIT-K3 or PLC-MIT-K4).\n- Using digital outputs with HMI device II (PLC-MIT-K3 or PLC-MIT-K4).\n- Reading data from a register with the HMI device (PLC-MIT-K3 or PLC-MIT-K4).\n- Writing data to a register with the HMI device (PLC-MIT-K3 or PLC-MIT-K4).\n- Switching screens of the HMI device (PLC-MIT-K3 or PLC-PAN-K4).\n- Internet connection of the PLC unit (PLC-MIT-K5).\n- Control digital inputs with a web server application (PLC-MIT-K5).\n- Control digital outputs with a web server application (PLC-MIT-K5).\n- Control analog inputs with a web server application (PLC-MIT-K5).\n- Control analog outputs with a web server application (PLC-MIT-K5).\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/pneumatic-and-electro-pneumatic-application",
        "Page title": "Pneumatic and Electro-Pneumatic Application: Edibon - EDQUIP",
        "Page description": "Pneumatic & Electropenumatic training equipment. Request your quotation today! Free price estimations, suitable for technical schools, colleges & universities.",
        "Lowest number of students": null,
        "Highest number of students": null,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "PK-K0: Dimensions: 1200 x 700 x 300 mm approx. (47.24 x 27.55 x 11.81 inches approx.) PK-K1: Dimensions: 1200 x 700 x 300 mm approx. (47.24 x 27.55 x 11.81 inches approx.) PK-K1UP: Dimension",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "138",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Pneumatic and Electro-Pneumatic Application\/Pneumatic and Electro-Pneumatic Application_AE-NS.jpg",
        "Video link": "",
        "Main category": "Pneumatics Training Systems"
    },
    {
        "Edquip ID": "PL-450313",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AE-HD",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": null,
        "Name": "Hydraulic and Electro-Hydraulic Application",
        "Description": "The [Pneumatic and Electro-Pneumatic Application, \"AE-NS\"](https:\/\/www.edibon.com\/en\/hydraulic-and-electro-hydraulic-application), by [EDIBON](https:\/\/www.edibon.com\/en\/) is a modular system equipped with a variety of optional kits and components, allowing users to configure pneumatic and electro-pneumatic circuits based on their specific learning or training needs.\n\nThe application offers several optional pneumatic kits designed for comprehensive studies on industrial pneumatic circuit management and operation. These kits include:\n\n- PK-K0 \u2013 Fundamentals Kit: Contains components for basic pneumatic circuit concepts.\n- PK-K1 \u2013 Advanced Pneumatics Kit: Covers both fundamental and advanced pneumatic concepts.\n- PK-K1UP \u2013 Electro-Pneumatics Upgrade Kit: Adds modules to the PK-K1, enabling users to study fundamental electro-pneumatic circuit concepts.\n- PK-K2 \u2013 Electro-Pneumatics Kit: Provides components for both basic and advanced electro-pneumatic concepts.\n- PK-K3 \u2013 Pneumatic Actuators Kit: Focuses on common pneumatic actuators, including rotary motors.\n- PK-K4 \u2013 Measurement and Proportional Control Kit: A computer-controlled kit that enables proportional control and analog signal use with pneumatic actuators, facilitating PID control via computer.\n- PK-K5 \u2013 Vacuum Technology Kit: Introduces the essential components of vacuum circuits and includes various cup types for comparative study.\n- PK-K6 \u2013 Troubleshooting Kit: Contains defective components to teach students to identify and troubleshoot common pneumatic issues.\n\nFor added functionality, the [EDIBON](https:\/\/www.edibon.com\/en\/) PLC unit is compatible with the PK-K2 kits, enabling PLC control of pneumatic and electro-pneumatic components for advanced, hands-on experience.\n\nAdditional units are available for airflow and pressure supply, as well as customizable workbenches that accommodate one or two work areas.",
        "Specs": "- [AE-HD APPLICATION](https:\/\/www.edibon.com\/en\/hydraulic-and-electro-hydraulic-application):\n\n- Work with a working hydraulic pressure of 50 bar.\n- The components include quick and self-sealing connectors with built-in Stop Mechanism.\n- Are attached to a screen printed metallic plate with the name and the standard symbol of the component. These metallic plates are designed to be placed on the EDIBON workbenches\n\nOptional kits of Pneumatic components:\n\n- HK-K0. Kit to Study the Hydraulics Fundamentals.\n- HK-K1. Hydraulic Components Kit.\n- HK-K1UP. Upgrade Kit for the HK-K1 to Understand the Principles of ElectroHydraulic.\n- HK-K2. Electro-Hydraulics Components Kit.\n- HK-K3. Hydraulic Actuators Kit.\n- HK-K4. Measurement and Proportional Control in Hydraulics Kit.\n- HK-K5. Hydrostatic Steering System Kit:.\n- HK-K6. Hydraulic and Electro-Hydraulic Troubleshooting Kit.\n\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\nHK-K0, Kit to study the hydraulics fundamentals:\n\n- Identification of components.\n- Hydraulic group.\n- Direct discharge from the pump to the tank.\n- Hydraulic cylinder activation by a 4\/3 directional valve.\n- Speed control of the double effect hydraulic cylinder.\n- Flow control with tank bypass.\n\nHK-K1, Hydraulics kit:\n\n- Identification of elements.\n- Hydraulic power unit.\n- Direct discharge of the pump to the tank.\n- Discharge of the pump through of a vacuum discharge valve.\n- Operation of valves with manual activation.\n- Manual activation of a double effect cylinder.\n- Speed adjustment of a double effect cylinder.\n- Activation of a double effect cylinder with different loads.\n- Activation of a hydraulic motor.\n- Flow calculation of hydraulic fluid.\n- Study of load losses with different size pipes.\n- Study of load losses with different length pipes.\n\nHK-K1UP, Upgrade kit for the HK-K1 to understand the principles of Electro-Hydraulic:\n\n- Identification of elements.\n- Hydraulic power unit.\n- Direct discharge of the pump to the tank.\n- Operation of valves with electric activation.\n- Activation of a double effect cylinder with a solenoid valve.\n- Activation of a double effect cylinder with different loads.\n- Speed adjustment of a double effect cylinder.\n- Activation of a hydraulic motor.\n- Electro-hydraulic control with solenoid valves.\n- Pressure control through a pressure switch with electric contact.\n\nHK-K2, Electro-Hydraulics kit:\n\n- Identification of elements.\n- Hydraulic power unit.\n- Direct discharge of the pump to the tank.\n- Operation of valves with electric activation.\n- Activation of a double effect cylinder with a solenoid valve.\n- Activation of a double effect cylinder with different loads.\n- Speed adjustment of a double effect cylinder.\n- Activation of a hydraulic motor.\n- Flow calculation of hydraulic fluid.\n- Study of load losses with different size pipes.\n- Study of load losses with different length pipes.\n- Electro-hydraulic control with solenoid valves.\n- Pressure control through a pressure switch with electric contact.\n\nHK-K3, Hydraulic Actuators kit:\n\n- Identification of elements.\n- Activation of a double effect cylinder.\n- Activation of a hydraulic motor.\n- Activation of a double-rod cylinder.\n- Activation of a double effect linear actuator.\n- Study of the characteristics and operation of a 6\/3 manual operated directional valve.\n- Hydraulic \"OR\" valve operation.\n- Study of the characteristics and operation of a directional valve activated by joystick.\n- Study of hydraulic actuators with locking in middle positions.\n\nHK-K4, Measurement and Proportional Control in Hydraulics kit:\n\n- Identification of elements.\n- Familiarization with data acquisition and processing of system signals from PC.\n- Operation of the Digital Flow Sensor.\n- Operation of the Capacitive proximity sensor from PC.\n- Operation of the Inductive proximity sensor from PC.\n- Operation of the Optical proximity sensor form PC.\n- Operation of the Fiber optic photoelectric sensor from PC.\n- Operation of the Diffuse-reflective photoelectric sensor from PC.\n- Operation of the Polarized retroreflective photoelectric sensor from PC.\n- Operation of the Background suppression photoelectric sensor from PC.\n- Proportional control of a proportional valve from PC.\n- Analog measurement of pressure level from PC.\n- Analog measurement of flow level from PC.\n- PID control loop of the flow level from PC.\n- Analog position sensor of the pneumatic linear actuator from PC.\n- PID control loop of the position of a pneumatic linear actuator from PC.\n\nHK-K5, Hydraulic Steering System kit:\n\n- Identification of elements.\n- Study of a Steering hydrostatic system.\n- Determination of parameters of a steering system.\n- Study of the orbitol operation.\n- Configuration of a steering systems.\n- Study of a pressure spike suppression system.\n- Pressure spike suppression valve.\n\nHK-K6, Hydraulics and Electro-Hydraulics Troubleshooting kit:\n\n- Familiarization with most common failures of hydraulic components.\n- Study a faulty pressure limiting valve.\n- Study a faulty pilot operated pressure limiting valve.\n- Study a faulty adjustable flow control valve.\n- Study a faulty check valve.\n- Study a faulty shut-off valve.\n- Study a faulty 4\/3 manual operated directional valve with H-center.\n- Study a faulty 4\/3 solenoid valve.\n- Study a clogged pipe.\n- Study a faulty double effect cylinder.\n\nAE-PLC-PAN (also available with others PLC manufacturers): The practices available with the HK-K2 are:\n\n- Activation of a double effect cylinder with PLC.\n- Activation of a hydraulic motor with PLC.\n- Electro-hydraulic control by a 4\/2 solenoid valve activated from PLC.\n- Electro- hydraulic control by 4\/3 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Creation a hydraulic sequence with the PLC.\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (PLC-PAN-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (PLC-PAN-K1 and PLC-PAN-K2).\n- Using analog signals II (PLC-PAN-K1 and PLC-PAN-K2).\n- Square wave generator.\n- HMI simple program (PLC-PAN-K3 or PLC-PAN-K4).\n- Using digital outputs with HMI device I (PLC-PAN-K3 or PLCPAN-K4).\n- Using digital outputs with HMI device II (PLC-PAN-K3 or PLCPAN-K4).\n- Reading data from a register with the HMI device (PLC- PAN-K3 or PLC-PAN-K4).\n- Writing data to a register with the HMI device (PLC-PAN-K3 or PLC-PAN-K4).\n- Switching screens of the HMI device (PLC-PAN-K3 or PLC- PAN-K4).\n- Internet connection of the PLC unit (PLC-PAN-K5).\n- Control digital inputs with a web server application (PLC- PAN-K5).\n- Control digital outputs with a web server application (PLC- PAN-K5).\n- Control analog inputs with a web server application (PLC- PAN-K5).\n- Control analog outputs with a web server application (PLC- PAN-K5).\n\nAE-PLC-SIE-UB (also available with others PLC manufacturers):\n\n- Activation of a double effect cylinder with PLC.\n- Activation of a hydraulic motor with PLC.\n- Electro-hydraulic control by a 4\/2 solenoid valve activated from PLC.\n- Electro- hydraulic control by 4\/3 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Creation a hydraulic sequence with the PLC.\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (SIE-PLC-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (SIE-PLC-K1 and SIE-PLC-K2).\n- Using analog signals II (SIE-PLC-K1 and SIE-PLC-K2).\n- Square wave generator.\n- HMI simple program (SIE-PLC-K3 or SIE-PLC-K4).\n- Using digital outputs with HMI device I (SIE-PLC-K3 or SIE-PLC-K4).\n- Using digital outputs with HMI device II (SIE-PLC-K3 or SIE-PLC-K4).\n- Reading data from a register with the HMI device (SIE-PLC-K3 or SIE-PLC-K4).\n- Writing data to a register with the HMI device (SIE-PLC-K3 or SIE-PLC-K4).\n- Switching screens of the HMI device (SIE-PLC-K3 or SIE-PLC-K4).\n- Internet connection of the PLC unit (SIE-PLC-K5).\n- Control digital inputs with a web server application (SIE-PLC-K5).\n- Control digital outputs with a web server application (SIE-PLC-K5).\n- Control analog inputs with a web server application (SIE-PLC-K5).\n- Control analog outputs with a web server application (SIE-PLC-K5).\n\nAE-PLC-AB-UB (also available with others PLC manufacturers):\n\n- Activation of a double effect cylinder with PLC.\n- Activation of a hydraulic motor with PLC.\n- Electro-hydraulic control by a 4\/2 solenoid valve activated from PLC.\n- Electro- hydraulic control by 4\/3 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Creation a hydraulic sequence with the PLC.\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (AB-PLC-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (AB-PLC-K1 and AB-PLC-K2).\n- Using analog signals II (AB-PLC-K1 and AB-PLC-K2).\n- Square wave generator.\n- HMI simple program (AB-PLC-K3 or AB-PLC-K4).\n- Using digital outputs with HMI device I (AB-PLC-K3 or AB-PLC-K4).\n- Using digital outputs with HMI device II (AB-PLC-K3 or AB-PLC-K4).\n- Reading data from a register with the HMI device (AB-PLC-K3 or AB-PLC-K4).\n- Writing data to a register with the HMI device (AB-PLC-K3 or AB-PLC-K4).\n- Switching screens of the HMI device (AB-PLC-K3 or AB-PLC-K4).\n- Internet connection of the PLC unit (AB-PLC-K5).\n- Control digital inputs with a web server application (AB-PLC-K5).\n- Control digital outputs with a web server application (AB-PLC-K5).\n- Control analog inputs with a web server application (AB-PLC-K5).\n- Control analog outputs with a web server application (AB-PLC-K5).\n\nAE-PLC-OMR (also available with others PLC manufacturers):\n\n- Activation of a double effect cylinder with PLC.\n- Activation of a hydraulic motor with PLC.\n- Electro-hydraulic control by a 4\/2 solenoid valve activated from PLC.\n- Electro- hydraulic control by 4\/3 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Creation a hydraulic sequence with the PLC.\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (OMR-PLC-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (OMR-PLC-K1 and OMR-PLC-K2).\n- Using analog signals II (OMR-PLC-K1 and OMR-PLC-K2).\n- Square wave generator.\n- HMI simple program (OMR-PLC-K3 or OMR-PLC-K4).\n- Using digital outputs with HMI device I (OMR-PLC-K3 or PLCOMR-K4).\n- Using digital outputs with HMI device II (OMR-PLC-K3 or PLCOMR-K4).\n- Reading data from a register with the HMI device (OMR-PLC-K3 or OMR-PLC-K4).\n- Writing data to a register with the HMI device (OMR-PLC-K3 or OMR-PLC-K4).\n- Switching screens of the HMI device (OMR-PLC-K3 or OMR-PLC-K4).\n- Internet connection of the PLC unit (OMR-PLC-K5).\n- Control digital inputs with a web server application (OMR-PLC-K5).\n- Control digital outputs with a web server application (OMR-PLC-K5).\n- Control analog inputs with a web server application (OMR-PLC-K5).\n- Control analog outputs with a web server application (OMR-PLC-K5).\n\nAE-PLC-MIT-UB (also available with others PLC manufacturers):\n\n- Activation of a double effect cylinder with PLC.\n- Activation of a hydraulic motor with PLC.\n- Electro-hydraulic control by a 4\/2 solenoid valve activated from PLC.\n- Electro- hydraulic control by 4\/3 solenoid valve activated from PLC.\n- Pressure control with PLC.\n- Creation a hydraulic sequence with the PLC.\n- Using variables.\n- Using digital inputs I.\n- Using digital inputs II.\n- Testing digital inputs (MIT-PLC-K1).\n- Using digital outputs.\n- Testing digital outputs.\n- Using analog signals I (MIT-PLC-K1 and MIT-PLC-K2).\n- Using analog signals II (MIT-PLC-K1 and MIT-PLC-K2).\n- Square wave generator.\n- HMI simple program (MIT-PLC-K3 or MIT-PLC-K4).\n- Using digital outputs with HMI device I (MIT-PLC-K3 or MIT-PLC-K4).\n- Using digital outputs with HMI device II (MIT-PLC-K3 or MIT-PLC-K4).\n- Reading data from a register with the HMI device (MIT-PLC-K3 or MIT-PLC-K4).\n- Writing data to a register with the HMI device (MIT-PLC-K3 or MIT-PLC-K4).\n- Switching screens of the HMI device (MIT-PLC-K3 or PLC-PAN-K4).\n- Several other exercises can be done and designed by the user.",
        "Url": "edquip.co\/en\/edibon\/hydraulic-and-electro-hydraulic-application",
        "Page title": "Hydraulic and Electro-Hydraulic Application: Edibon - EDQUIP",
        "Page description": "Hydraulic & Electrohydraulic equipment for education & training. Request quotation today! Free price estimations, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "CE",
            "UL"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "HK-K0: Dimensions: 900 x 700 x 300 mm approx. (35.43 x 27.55 x 11.81 inches approx.) HK-K1: Dimensions: 1200 x 700 x 300 mm approx. (47.24 x 27.55 x 11.81 inches approx.) HK-K1UP: Dimensions",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "260",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Hydraulic and Electro-Hydraulic Application\/Hydraulic and Electro-Hydraulic Application_AE-HD.jpg",
        "Video link": "",
        "Main category": "Mechatronics Lab Equipment"
    },
    {
        "Edquip ID": "PL-344197",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EC6C",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled PEM Fuel Cell Advanced Unit",
        "Description": "The [\u201cEC6C\u201d Computer Controlled PEM Fuel Cell Advanced Unit](https:\/\/www.edibon.com\/en\/computer-controlled-pem-fuel-cell-advanced-unit), developed by [EDIBON](https:\/\/www.edibon.com\/en\/), is designed to provide students with a comprehensive understanding of proton exchange membrane (PEM) fuel cell technology. The unit enables the calculation of critical parameters such as power density, polarization curves, and efficiency, and it allows for the study of how these parameters change depending on reagent consumption and power output.\n\nThe unit comes with a stack of 72 PEM cells, rated at 1000 W. These cells are designed with a channeled plate shape that facilitates the flow of air and hydrogen through the membrane, which generates the release of electrons. The cells are self-humidifying and do not require external humidification. The integrated fan ensures that the stack operates at the proper temperature by supplying the necessary airflow.\n\nHydrogen storage is a critical component of this system. The unit includes two pressure regulators: one for regulating the outlet pressure of the hydrogen bottle (5 \u2013 50 bar) and another to control the inlet pressure to the stack (0 \u2013 1 bar) from the metal hydride bottle. To manage hydrogen flow, the unit features two solenoid valves: one for controlling the hydrogen inlet before the stack and the other at the outlet to purge excess water and hydrogen to ensure proper operation.\n\nFor studying electrical energy generation, the unit includes a load regulation system, allowing for the generation of characteristic operational curves, which can be compared with theoretical data. The entire electrical circuit is safeguarded by a short-circuit unit to protect against overcurrent (30 A) and low voltage shutdown (36 V). Additionally, a hydrogen leak detector is included, with a detection range from 0 \u2013 2% Vol and 0 \u2013 100% L.E.L. (Lower Explosive Limit).\n\nThe unit is fully integrated with [EDIBON](https:\/\/www.edibon.com\/en\/)'s [SCADA](https:\/\/www.edibon.com\/es\/blog\/productos\/scada)-based Computer Control System. It features a Control Interface Box, a Data Acquisition Board, and specialized software for process control, data acquisition, and real-time parameter management, providing complete control and analysis of fuel cell operation.",
        "Specs": "- [EC6C. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-pem-fuel-cell-advanced-unit):\n\n- Bench-top unit.\n- Anodized aluminum frame and panels made of painted steel.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Pressure regulator for the hydrogen inlet at the PEM fuel cell.\n- Pressure regulator for the H2 bottle.\n- Solenoid valve to supply H2.\n- Purge solenoid valve.\n- Suitable tubes and hoses for use with H2 with a high safety factor.\n- Load module.\n- Battery and charger\n- Fuel cell stack\n- Instrumentation\n- Safety measures and protections\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EC6C\/CIB. Control Interface Box.\n- EC6C\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study of the main principles of a proton exchange fuel cell (PEM) operation.\n- Study of the structure and main principles of a metal hydride cylinder.\n- Calculation of the efficiency of a PEM fuel cell.\n- Study of the influence of air consumption and hydrogen consumption in the efficiency of a PEM fuel cell.\n- Study of the power density of a PEM fuel cell.\n- Representation of the polarization curve of a PEM fuel cell.\n- Determination of the voltage and current density characteristics of a PEM fuel cell.\n- Influence of hydrogen consumption in the electric power generation.\n- Study of the influence of the generated power in the efficiency of a PEM fuel cell.\n- Study of the influence of the reagents\u2019 flows in the generation of electrical power.\n- Study of the use of reagents and transport phenomena.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-pem-fuel-cell-advanced-unit",
        "Page title": "Computer Controlled PEM Fuel Cell Advanced Unit",
        "Page description": "Hydrogen Fuel Cell trainer for technical education & training. Request your quotation today! Free price estimations, suitable for colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "220-240V"
        ],
        "Other requirements": [
            "Computer"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "700 x 400 x 550 mm approx.  (27.55 x 15.75 x 21.65 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "25",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled PEM Fuel Cell Advanced Unit\/Computer Controlled PEM Fuel Cell Advanced Unit_EC6C.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-640396",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-WPPIC",
        "Content languages": "en, es, fr",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer controlled wind power plants application with induction generator",
        "Description": "The [Computer Controlled Wind Power Plants Application with Induction Generator, \u201cAEL-WPPIC\u201d](https:\/\/www.edibon.com\/en\/computer-controlled-wind-power-plants-application-with-induction-generator), developed by [EDIBON](https:\/\/www.edibon.com\/en\/), is designed for the study of the characteristics and behavior of induction generators used in wind turbines that inject power into the grid. The application provides users with the opportunity to explore the electrical schemes and operational features of wind turbines that utilize three-phase squirrel cage rotor generators in wind power plants.\n\nThe [AEL-WPPIC](https:\/\/www.edibon.com\/en\/computer-controlled-wind-power-plants-application-with-induction-generator) application includes a squirrel cage induction generator coupled to a three-phase motor (turbine), with the motor\u2019s speed regulated via a variable frequency drive. The system simulates various wind conditions and the drive train of a wind turbine. The unit also incorporates a turbine controller that automatically controls the electrical parameters and speed of the turbine-generator group, in addition to performing the automatic synchronization of the three-phase induction generator with the grid.\n\nThis control module also serves as an advanced protection system for both the generator and the turbine, meeting ANSI protection standards (ANSI 81O, ANSI 81U, ANSI 59, ANSI 27, ANSI 50\/51, ANSI 32R\/F, ANSI IOP 32, ANSI MOP 32, ANSI 46, voltage asymmetry, generator ground fault, phase rotation, and generator lagging power factor, among others). Additionally, a three-phase capacitors bank is included to generate the necessary reactive energy to prevent the induction generator from consuming it from the grid. A network analyzer monitors the generation\u2019s electrical parameters.\n\nThe core of this application is the wind power plant simulation software, \u201cPSV-WPPP-SOF\u201d. This software allows users to remotely control and automatically synchronize the turbine-generator group, while monitoring various generator electrical parameters, energy losses, and voltage drops. It also enables users to save and compare data for later analysis. The software provides accurate insights into the effects of reactive power compensation, energy demand, load unbalances, and the power factor variation.\n\nMoreover, the PSV-WPPP-SOF software offers the capability to simulate pre-configured wind curves for real-time or later analysis of the induction generator's response. Users can examine the speed and power curves of the simulated wind turbine based on pre-configured values, facilitating a comprehensive study of wind power plants.\n\nFor additional learning, it is recommended to acquire modules for the study of island operation of the three-phase induction generator, along with manual compensation of reactive power. The analog instrumentation module for measuring key electrical parameters (P, Q, V, f) of the generator is also recommended to enhance the study.",
        "Specs": "AEL-WPPIC\n\n- [AEL-WPPIC. Application](https:\/\/www.edibon.com\/en\/computer-controlled-wind-power-plants-application-with-induction-generator):\n\n- N-ALI01. Industrial Main Power Supply Module.\n- N-ERP-PGC02. Turbine Protection and Control Module.\n- N-EALD. Electrical Network Analyzer Module with Oscilloscope and Data Acquisition.\n- PSV-WPPP-SOF. Wind Powered Power Plant Simulator.\n- N-CAR19T\/3C. 3 x 300 Var Three-Phase Configurable Capacitors Module.\n- GMG1.25K3PH. 1.25 kW Generator-Motor Group.\n\nRequired elements (Not included):\n\n- AEL-PC. Touch Screen and Computer.\n\nAdditional recommended elements (Not included):\n\n- N-REVT\/1K. 1kW Three-Phase Resistors Module.\n- N-INDT\/3C. 3 x 300 Var Three-Phase Configurable Inductances Module.\n- N-PPIM1. Instrumentation Module 1.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- AEL-WPPIC\/CCSOF. Computer Control + Data Acquisition + Data ManagementSoftware.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Startup of the induction generator.\n- Automatic speed control of the turbine-generator group speed.\n- Automatic synchronization of the three-phase induction generator with the grid.\n- Monitoring the three-phase induction generator electrical parameters with the grid (P, Q, S, PF).\n- Control of the active power injected into the grid.\n- Compensation of the reactive power by means of capacitor banks.\n- Remote automatic control of the turbine-generator group.\n- Real time monitoring of current and voltage values and waveforms.\n- Real time monitoring of the active, reactive and apparent powers.\n- Visualization of the curves for the measured values as a function of time.\n- Visualization of the phasor diagrams of the generator electrical parameters.\n- Customized setting of the wind speed curves.\n- Visualization of the power curve for the pre-configured wind speed values.\n- Real time monitoring of the obtained results.\n- Storage and comparison of the obtained results.\n- Stand-alone of the three-phase induction generator.\n- Study of the generation and demand in isolated systems.\n- Measurement of the electrical parameters of the generator (P, Q, V, f) by analog instrumentation.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-wind-power-plants-application-with-induction-generator",
        "Page title": "Computer controlled wind power plants application",
        "Page description": "Wind turbine training equipment. Request quotation today! Free price estimations, hands-on learning, suitable for technical schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1600 x 550 x 2000 mm approx.  (62.99 x 21.65 x 78.74 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "180",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer controlled wind power plants application with induction generator\/Computer controlled wind power plants application with induction generator_AEL-WPPIC.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-469329",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "AEL-CPSS-01S",
        "Content languages": "en, fr, es",
        "Targeted audience": "Technicians",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Smart Grid Power System with power generation, transmission, distribution and loads, with Scada",
        "Description": "The [Smart Grid Power System with Power Generation, Transmission, Distribution, and Loads, with SCADA, \u201cAEL-CPSS-01S\u201d](https:\/\/www.edibon.com\/en\/smart-grid-power-system-with-power-generation-transmission-distribution-and-loads-with-scada?video_modal=on), developed by [EDIBON](https:\/\/www.edibon.com\/en\/), is a comprehensive training system designed for both theoretical and practical education in power generation, transmission, distribution, consumption, protection relays, and micro-grids. This application provides a deep understanding of the key principles involved in the operation and control of power systems, including the interconnected areas of generation, transmission, distribution, and load consumption.\n\nThe [AEL-CPSS-01S](https:\/\/www.edibon.com\/en\/smart-grid-power-system-with-power-generation-transmission-distribution-and-loads-with-scada?video_modal=on) application offers various levels of training to ensure users gain both theoretical knowledge and practical experience. The included manual covers a wide range of topics, from the basic functioning and control of electric generators to energy transmission and consumption in high-voltage power systems. Alongside the manual, a series of modules are available for hands-on application, allowing users to practice and apply the theoretical knowledge they have acquired.\n\nOne of the key advantages of this system is its modularity and flexibility, which enables users to configure different real-world power system setups. For example, users can design and simulate a traditional power system comprising Generation + Transmission\/Distribution + Consumption, or a micro-grid system with Generation + Consumption, even operating in a stand-alone mode. At any point, the user can synchronize the electric generator with the laboratory mains and develop a real energy distribution network.\n\nIn terms of functionality, the entire system can be controlled both locally\u2014using switches, breakers, and signals\u2014and remotely through Data Acquisition and Control Software. The system also includes AEL-CPSS-01S\/CCSOF (Data Control and Data Acquisition Software), which provides remote control capabilities for the power system..",
        "Specs": "AEL-WPPIC\n\n- [AEL-CPSS-01S. Application](https:\/\/www.edibon.com\/en\/smart-grid-power-system-with-power-generation-transmission-distribution-and-loads-with-scada?video_modal=on):\n\n- N-ALI01. Industrial Main Power Supply Module.\n- N-PPIM2. Instrumentation Module 2.\n- N-PSUB3. Power Generation Substation Module 3.\n- N-EALD. Network Analyzer Module with Oscilloscope and Data Acquisition.\n- N-BUS08. Distribution Busbar Module.\n- N-BUS09. Coupling Busbar Module.\n- N-AE1CD. Transmission Lines Simulation Digital Module.\n- N-REG16. Voltage Regulation Module 1.\n- TRANS3\/5KRM. Three-phase Autotransformer with Motor Voltage Regulator.\n- TRANS3\/5KGR. Three-phase Grid Transforme.\n- TRANS3\/5KSU. Three-phase Step-up Transformer.\n- N-ERP-MF01. Digital Fault Simulator Module.\n- N-CAR19T3D. Three-phase Digital Bank of Commutable Capacitors Module.\n- N-CAR35T3D. Three-phase Digital Bank of Commutable Resistors Module.\n- N-CAR36T3D. Three-phase Digital Bank of Commutable Inductances Module.\n- GMG4.5K3PH. 4.5 KW Generator-Motor group.\n- AEL-WBMP. Electrical Workbench (Mobile Small).\n- AEL-WBMG. Electrical Workbench (Mobile Big).\n- All necessary cables to realize the practical exercises are included.\n\nRequired elements (Not included):\n\n- AEL-PC. Touch Screen and Computer.\n\nAdditional recommended elements (Not included):\n\n- PSV-BPP-SOF. Biomass Power Plants Simulator.\n- PSV-GPP-SOF. Geothermal Power Plants Simulator.\n- PSV-GSPP-SOF. Gas Power Plants Simulator.\n- PSV-HPPS-SOF. Hydroelectric Power Plants Simulator.\n- PSV-HSPP-SOF. Heliothermic Solar Power Plants Simulator.\n- PSV-WPPP-SOF. Wind Powered Power Plants Simulator.\n- TPEL\/1800W. Three-Phase DC\/AC Electronic Load of 1800 W.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- AEL-CPSS-01S. Computer Control + Data Acquisition + Data ManagementSoftware.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 7 manuals. Required services, Assembly and Installation and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study of generation, transmission and distribution power systems.\n- Analysis of the measurements of the power flows of the synchronous generator, transmission lines and loads.\n- Analysis of the active and reactive power of the synchronous generator againts load variations.\n- Automatic synchronization maneuvers of synchronous generator with the mains.\n- Study of the synchronous generator in island operation mode.\n- Study of the Micro-Grids.\n- Study of the synchronous generator in grid parallel operation mode.\n- Study of excitation\/voltage regulation of synchronous generator in island mode.\n- Study of turbine regulation (frequency control) in island mode.\n- Study of excitation\/voltage regulation of synchronous generator in parallel grid operation mode.\n- Study of turbine regulation (frequency control) in parallel grid operation mode.\n- Study of the power factor regulation of synchronous generator in parallel grid operation mode.\n- Analysis and calculus of energy loses in transmission line according to the line electrical parameters.\n- Capacitive effect influence in transmission lines.\n- Analysis of the reactive energy excess in transmission lines.\n- Analysis of the influence of one or more line losses in the electric system.\n- Power factor compensation and the effects in the power system.\n- Single-Pole, Two-Pole and three-Pole faults with and without impedance.\n- Double busbar coupling maneuver.\n- Operation logic with circuit breakers and disconnectors in a double busbar substation.\n- Load sharing with different feeders.\n- Busbar changeover without interruption\n\nSome practical exercises possibilities with the SCADA:\n\n- Remotely control of generation power systems.\n- Analysis with the SCADA software of synchronous generator power flows.\n- Analysis with SCADA software of active and reactive power of synchronous generator.\n- Remotely control of manual synchronization of synchronous generator with the mains.\n- Remotely control of automatic synchronization of synchronous generator with the mains.\n- Remotely control of synchronous generator in island grid operation mode.\n- Study of Micro-Grids.\n- Remotely control of synchronous generator in parallel grid operation mode.\n- Remotely control of excitation\/voltage regulation of synchronous generator in island mode.",
        "Url": "edquip.co\/en\/edibon\/smart-grid-power-system-with-power-generation-transmission-distribution-and-loads-with-scada",
        "Page title": "Smart Grid Power System with power generation, transmission, distribution and loads, with Scada",
        "Page description": "Smart Grid Power System for higher education & training. Request your quotation today! Free price estimations, suitable for schools, colleges and universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Applied Vocational \/ Technician",
            "Engineering Undergraduate"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "190\u2013240V",
            "380\u2013400V"
        ],
        "Other requirements": null,
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "Dimensions: 2000 x 400 x 3000 mm approx.  (78.74 x 15.75 x 118.10 inches approx.)   Weight: 200 Kg approx.  (440 pounds approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "200",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Smart Grid Power System with power generation, transmission, distribution and loads, with Scada\/Smart Grid Power System with power generation, transmission, distribution and loads, with Scada_AEL-CPSS-01S.jpg",
        "Video link": "https:\/\/www.youtube.com\/embed\/BvcVSIGZs10?si=pGTMhEDIoRFQaVp7",
        "Main category": "Renewable Energy Lab Equipment"
    },
    {
        "Edquip ID": "PL-503847",
        "Product Type": "hardware",
        "Producer": "EDIBON",
        "Producer product number": "EBGC",
        "Content languages": "en, fr, es",
        "Targeted audience": "Engineers",
        "Training types": [
            "In person",
            "Live online",
            "Webinars",
            "Documentation",
            "Video"
        ],
        "Name": "Computer Controlled Biogas Process Unit",
        "Description": "The [Computer Controlled Biogas Process Unit, \u201cEBGC,\u201d](https:\/\/www.edibon.com\/en\/computer-controlled-biogas-process-unit) by [EDIBON](https:\/\/www.edibon.com\/en\/) is equipped with two packed anaerobic digesters, enabling the user to work in either a single-stage or two-stage configuration, where the different phases of the digestion process are separated. In a two-stage process, the hydrolysis, acidogenesis, and acetogenesis occur in the first digester, while methanogenesis takes place in the second. Each digester is fitted with a heating blanket that allows precise temperature regulation through PID control, providing flexibility for different ranges of operation depending on the microorganisms used. The system can operate within the psychrophilic range (room temperature), mesophilic range (approximately 35\u00b0C), or thermophilic range (around 55\u00b0C).\n\nThe unit includes four computer-controlled peristaltic pumps to control the introduction of the feedstock, acid, and base into the digesters. These pumps also manage the pH control at each stage of the process. When operating in two-stage digestion, one pump transfers the product from one digester to the other, passing through a buffer tank to collect any excess flow from the first reactor. The system\u2019s control of these pumps ensures the accurate monitoring of flow rates throughout the process.\n\nFor measuring the biogas produced, two volumetric tanks are included. The biogas flows from the digesters to these tanks, where its volume is measured through water displacement. The tanks are designed with two sections: the upper section collects the biogas, while the smaller lower section collects the displaced water. Each digester is equipped with temperature and pH sensors to monitor the process, helping to assess the impact of different control parameters on anaerobic digestion.\n\nAdditionally, the biogas collected in the tanks passes through a methane sensor (CH4), which measures the methane concentration. This allows the quality of the biogas to be assessed based on the physical-chemical conditions during anaerobic digestion, and it helps to determine its potential as a renewable energy source.\n\nThe unit is fully integrated with the [EDIBON](https:\/\/www.edibon.com\/en\/) Computer Control System [(SCADA)](https:\/\/www.edibon.com\/es\/blog\/productos\/scada), which includes a control interface box, a data acquisition board, and computer control, data acquisition, and data management software for comprehensive monitoring and control of the entire process.",
        "Specs": "- [EBGC. Unit](https:\/\/www.edibon.com\/en\/computer-controlled-biogas-process-unit):\n\n- Bench-top unit.\n- Anodized aluminum frame and panels made of painted steel.\n- Main metallic elements made of stainless steel.\n- Diagram in the front panel with distribution of the elements similar to the real one.\n- Two packed anaerobic digesters of 5 l. Reactors packing: 25 mm diameter bactoballs.\n- Two computer controlled heating blankets of 120 W, with PID control and with a thermostat. Temperature range: 0 \u2013 90 \u00b0C.\n- Four computer controlled peristaltic pumps.\n- Feeding flows measurement by the pumps calibration.\n- Two volumetric tanks for the storage and volume measurement of the generated biogas.\n- Buffer vessel, of 1 l of capacity.\n- Two glass vessels, of 1 l of capacity, for the acid and the base.\n- Methane sensor to measure its concentration in the generated biogas, 0 \u2013 100 %.\n- Two pH sensors.\n- Two \u201cJ\u201d type temperature sensors.\n\nThe complete unit includes as well:\n\n- Advanced Real-Time SCADA.\n- Open Control + Multicontrol + Real-Time Control.\n- Specialized [EDIBON](https:\/\/www.edibon.com\/en\/) Control Software based on LabVIEW.\n- National Instruments Data Acquisition board.\n- Calibration exercises, which are included, teach the user how to calibrate a sensor and the importance of checking the accuracy of the sensors before taking measurements.\n- Projector and\/or electronic whiteboard compatibility allows the unit to be explained and demonstrated to an entire class at one time.\n- Capable of doing applied research, real industrial simulation, training courses, etc.\n- Remote operation and control by the user and remote control for EDIBON technical support, are always included.\n- Totally safe, utilizing 4 safety systems (Mechanical, Electrical, Electronic and Software).\n- Designed and manufactured under several quality standards.\n- Optional ICAI software to create, edit and carry out practical exercises, tests, exams, calculations, etc. Apart from monitoring user\u2019s knowledge and progress reached.\n- This unit has been designed for future expansion and integration. A common expansion is the [EDIBON](https:\/\/www.edibon.com\/en\/) Scada-Net (ESN) System which enables multiple students to simultaneously operate many units in a network.\n\n- EBGC\/CIB. Control Interface Box.\n- EBGC\/CCSOF. Computer Control + Data Acquisition + Data Management Software.\n- Cables and Accessories, for normal operation.\n- Manuals: This unit is supplied with 8 manuals. Required services, Assembly and Installation, Interface and Control software, Starting-up, Safety, Maintenance, Calibration and Practices manuals.\n\nEXERCISES AND PRACTICAL POSSIBILITIES TO BE DONE WITH THE MAIN ITEMS\n\n- Study of the stabilization process.\n- Study of the effect of temperature in the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the pH effect of the feeding waste water in the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the influence of the feeding rate in the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the influence of the type of the feeding waste water in the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the concentration of nutrients influence of the feeding waste water in the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the hydraulic load effect in the anaerobic digestion, purification and quality of the obtained biogas.\n- Study of the inhibitors influence in the anaerobic digestion, purification and quality of the obtained biogas.\n- Comparison between the mesophilic and thermophilic anaerobic digestion and their influence in the biogas obtention.\n- Determination of the optimum operation temperature.\n- Determination of the optimum feeding rate.\n- Determination of the optimum solids\/water relation.\n- Determination of the optimum degradable\/non degradable solids relation.\n- Determination of the multistage nature in the anaerobic digestion.\n- Determination of the kinetics.\n- Carbon balance.\n- Solids balance.\n- Biogas balance.\n- Sensors calibration.",
        "Url": "edquip.co\/en\/edibon\/computer-controlled-biogas-process-unit",
        "Page title": "Computer Controlled Biogas Process Unit",
        "Page description": "Biogas generation training equipment. Request quotation today! Free price estimations, hands-on learning, suitable for schools, colleges & universities.",
        "Lowest number of students": 1,
        "Highest number of students": 40,
        "System type": "Applied Systems Trainer",
        "Education level": [
            "Engineering Undergraduate",
            "Applied Vocational \/ Technician"
        ],
        "Attributes": [],
        "Labels": [
            "UL",
            "CE"
        ],
        "Warranty": "60 months",
        "Voltage availability": [
            "100-127V",
            "220-240V"
        ],
        "Other requirements": [
            "Computer",
            "Water supply",
            "External ventilation"
        ],
        "Teacher materials": true,
        "Student materials": true,
        "E-Learning modules": true,
        "HS Code": null,
        "Equipment dimensions": "1000 x 800 x1000 mm approx.  (39.37 x 31.49 x 39.37 inches approx.)",
        "Equipment dimensions unit": "cm",
        "Equipment weight": "70",
        "Equipment weight unit": "Kg",
        "Packed dimensions": null,
        "Packed dimensions unit": null,
        "Packed weight": null,
        "Packed weight unit": null,
        "Support types": null,
        "Software requirements": null,
        "Main image": "http:\/\/edquip.co\/EDQUIP product images\/Edibon\/Computer Controlled Biogas Process Unit\/Computer Controlled Biogas Process Unit_EBGC.jpg",
        "Video link": "",
        "Main category": "Renewable Energy Lab Equipment"
    }
]