Key Applications – EV & Power Inverter Testing

✅  EV inverter testing and validation

✅  Power inverter functional testing

✅  Inductive load-based inverter testing

✅  Traction inverter validation for electric vehicles

✅  Automotive and industrial inverter testing

✅  Current waveform analysis and switching performance testing

✅  PWM signal validation and control logic verification

✅  Motor simulation using inductive load

✅  EV powertrain and power electronics testing

✅  Inverter R&D, development, and validation testing

Technical Configuration – EV Inverter Test Equipment

✅  HV DC Supply: 0 – 1000 V (customizable for EV applications)

✅  LV Supply: 12V / 24V / 48V

✅  Load Type: Inductive Load Bank (L-load)

✅  Measurement: High-accuracy current probes and voltage sensors

✅  Monitoring: Oscilloscope and DAQ system

✅  Communication: CAN protocol interface

✅ Control Mode: Manual / Semi-automatic / Automated

Safety Features – High Voltage Inverter Test Bench

The Inverter Functional Test Bench is equipped with advanced safety systems to ensure safe operation during high voltage and high current testing.

✅  Emergency stop (E-Stop) for immediate shutdown

✅  Overvoltage and overcurrent protection (HV & LV)

✅  Short circuit protection for inverter and load

✅  Interlock system for safe operation

✅  Proper grounding and earthing protection

✅  Electrical isolation between HV and LV systems

✅  Thermal protection for components and inductive load

✅  Fault detection with automatic shutdown

✅  Visual and audible alarm system

✅  Optional safety enclosure for operator protection

Control & Communication – CAN-Based Inverter Testing

The system supports advanced inverter communication and calibration using:

✅  CANape

✅  CANoe

Key capabilities include:

✅  Real-time inverter parameter access

✅  CAN communication and ECU diagnostics

✅  Data logging and analysis

✅  Functional validation and debugging