• Behavior of Solar Module on Different Effects
    • Illuminance
    • Temperature
    • Shading
  • Parameter Testing of Solar Module
    • Short Circuit Current
    • Open Circuit Voltage
    • Maximum Output Voltage
    • Maximum Output Current
  • Relationship of inclination Angle of Solar Module with Light Source and Output Voltage and Current.
  • Calculating efficiency of Solar Module.
  • Function of Charge Controller.
  • Function of inverter in Standalone Solar System.

The Solar Power experimental platform demonstrates the use of Solar Energy for power generation. This Trainer demonstrates the power transformation from Solar PV modules to Battery, and from Battery to Loads.


  • Moveable Solar Module Frame
  • Light Installed
  • Light Intensity Control Installed
  • Temperature Sensor Installed
  • PWM Solar Charge Controller
  • Power Inverter Installed
  • Power Meter Installed

Technical Data

  • Solar Module
    • Number of Panel: 1
    • Number of cells: 36 per panel
    • Module area: 0.64m2 per panel
    • Max. Output: 100 W per panel
    • Short-circuit current: approx. 6.20 A per panel
    • Open-circuit voltage: approx. 21 V per panel
  • Light Source: 1000W
  • Light Control: SSR 40A
  • Charge Controller: 12V, 30 A, PWM Charge Controller
  • Inverter: 12V, 500W AC 220 V
  • Power Meter: AC 220V, 5A
  • Battery: 12V

Scope of Delivery

  • 1 experimental unit
  • 1 instruction manual
  • 1 set of cables