Photovoltaics Training System
(RE - 001)
  • Setting up PV systems and testing the optimum alignment of solar modules.
  • Recording and displaying the characteristics of solar modules
  • Investigating the module′s response to shadow formation
  • Design and testing of a standalone PV system for the generation of AC voltage compatible with the standard electrical supply
  • Design and testing of PV systems with mains feed
  • Investigate response of a PV system to mains failure
  • Drawing The I-V Curve of PV Panel
  • Measuring the Power of a Solar PV Panel 
  • Effect of Light Intensity on PV Panel
  • Investigating with different daily irradiation periods
  • Effect of Temperature on PV panel
  • Photovoltaics training system (RE-001)
    • Main frame (RE-001.1)
    • DC kit (RE-001.2)
      • 1x Load Module (RE-001.2.1)
      • PWM Solar Charge Controller (RE-001.2.2)
      • MPPT Solar / Wind Charge Controller
      • (RE-001.2.3)
      • 1x Solar Accumulator (Battery)
      • (RE-001.2.4)
      • 1x DC Load (RE-001.2.5)
      • 2x DC Network Meter (RE-001.2.6)
      •  Blocking & By-pass Diode Module(RE-001.2.7)
    • Software(RE-001.3)
  • Laboratory PC

The photovoltaics training system is a modular unit that consists of a main frame and interchangeable experimental modules. Using this training system, trainees will get familiarized with electricity generation from solar energy and the application associated to this process. By mixing and matching the provided modules, trainees will be able to execute a wide range of experiments for solar systems. Whether, there’s an available sunlight source or not, trainees would still be able to carry out the same experiments using a provided solar emulator and display the results through a provided software system.

                                     
  • Main Frame Code: (RE-001.1)
    • The training system comprises a main frame panel where all of the provided modules can be mounted to it.
    • The frame is designed in the form of modular system which allows trainees to alter the experiment conditions upon changing the used modules. The frame consists of three horizontal rows for mounting modules.
    • The main frame is a single-phase power supply unit with neutral and line paths needed for the power supplying and connection with the experimental modules
    • Up to 9 modules can be mounted at the same time which gives students the opportunity to execute more complex and sophisticated experiments.
    • The frame is supplied with a wooden bench where students can put any needed tool or measuring device for an easy access.
    • The frame is equipped with external cable holders to hang the training system cables.
    • The frame is equipped with fixed holder the computer CPU and another moveable holder for the computer screen.
    • The frame is electrostatically painted and assembled using special accessories to provide more durability and prevent corrosion.
    • The main frame is supplied with ON/OFF switch, emergency button, circuit breaker and two extra power sockets required for the connection of any external devices.
  • DC Kits Code: (RE-001.2)
    • Load Modules (RE-001.2.1)
    • PWM Solar Charge Controller (RE-001.2.2)
    • MPPT Solar / Wind Charge Controller (RE-001.2.3)
    • Solar Accumulator (Battery) (RE-001.2.4)
    • DC Load (RE-001.2.5)
    • DC Network Meter (RE-001.2.6)
    • Blocking & By-pass Diode Module (RE-001.2.7)
  • Software Code:(RE-001.3)
    • The system is supplied with software where all of the measured values can be displayed and monitored. All of the modules can also be controlled through the software system.
    • Through the supplied software, trainees will be also able to plot all of the related curves such as V&I curves.
    • all of these software features can be accessed through connecting with the supplied remote module
  • This module is designed to allow students to add loads to any experiment.
  • This load can be connected to another load modules in series or in parallel which provides students with variety of load values for experiments.
  • Technical Data
    •  Resistor Value Range: 0…800-ohm, 0….150-ohm, 0…100-ohm
    • Power: 500 W
  • This module ensures a steady voltage is supplied from a system, resulting in optimal battery maintenance.
  • The unit also features a large LCD display that informs the user about the state of charge and operating modes. Additionally, the unit also features a user-controlled energy meter.
  • Technical Data
    • Voltage:12V/24V Auto
    • Current:30A
    • Max.PV input voltage:100V
    • Max PV input power : 400W/12V, 8000 W/24V
  • This Module controller is advanced maximum power point tracking (MPPT) charging technology for off-grid photovoltaic systems.it is mainly used in the field of security monitoring, RV, and household system, etc.
  • Technical Data
    • Voltage:12V/24V Auto
    • Current:30A
    • Max.PV input voltage:100V Max. PV input input
    • power:400W/12V,8000W/24V
    • Communication:RS23
  • This Module is designed to enable students to charge and discharge batteries according to the experiment needs.
  • The module also obtains the ability to connect Remotely, so that students can connect and disconnect this module remotely through our software.
  • Technical Data
    • Battery Voltage: 24V
    • Battery Capacity: 9 A/H
  • This Module is designed to simulate a real DC Load, using two different types of lamps.
  • The module consists of two Halogen lamp and two LED lamps.
  • This module enables students to access different load wattage on experiment.
  • Technical Data Halogen Lamp
    • Voltage Required: 12V
    • Watt: 50 W
    • LED Lamp
    • Voltage Required: 12V
    • Watt: 4 W
  • The DC network meter is supplied to monitor dc network power flow in a digital way
  •  The module has a digital process indicator used as DC current meter and digital DC voltage meter. It support Modbus communication through RS-485 serial interface
  • Technical Data
    • Digital Voltammeter: 600 vdc peak measurement
    • Digital ammeter: 25 Adc peak measurement
    • Modbus through RS-485
  • Bypass diodes are wired in parallel with individual solar cells or panels to provide a current path around them in the event that a cell or a panel becomes faulty or open circuit.
    Blocking diodes allows the flow of current from a solar panel to the battery but prevents or blocks the flow of current from battery to solar panel, thereby, preventing battery from discharge
  • Technical Data
    • 5 blocking diodes
    • 5 By-pass diodes
    • Rated forward voltage: 0.6 to 0.7 V DC
    • Rated forward Current: 10A AC/DC