Home ITECH | DC Power Supply IT6000C Bidirectional Programmable DC Power Supply
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ITECH | DC Power Supply

IT6000C Bidirectional Programmable DC Power Supply

Now includes NABL Calibration Certificate.

High-performance bi-directional power supply with seamless current switching, energy regeneration, and up to 2250V voltage output. Supports master-slave parallel operation for up to 2 MW, ideal for testing batteries, photovoltaic inverters, and semiconductor devices..

  • Detail
  • Special Features
  • Specification

The IT6000C is a powerful bi-directional DC power supply that also functions as a regenerative electronic load. This makes it an ideal solution for applications requiring efficient energy recovery and high precision, such as battery cycling, solar energy testing, and automotive electronics development.

  • Seamless Source-Sink Transition:
    The IT6000C delivers high-speed switching between source and sink modes, avoiding voltage/current overshoots and providing a stable testing environment for energy storage devices.

  • High Power Output:
    The IT6000C provides output voltage up to 2250V and current up to 2040A in a single unit, with scalable power up to 2 MW when units are paralleled. This flexibility allows for a wide range of testing conditions, from small-scale to large-scale operations.

  • Energy Efficiency:
    Its regenerative capability ensures that up to 95% of energy is returned to the grid, reducing operational costs, improving sustainability, and avoiding additional cooling costs that come with traditional electronic loads.

  • Advanced Solar Array Simulation:
    The SAS1000 software (optional) allows for the simulation of solar panel performance, including I-V curve generation and MPPT testing. Users can simulate real-world conditions such as shadow effects, temperature, and irradiation changes, which is crucial for photovoltaic inverter testing.

  • Battery Testing:
    The IT6000C can also be used for battery testing and battery simulation with the BSS2000 software, supporting the simulation of up to 99 battery cells. This makes it ideal for testing battery packs, including those used in electric vehicles, drones, and portable devices.

  1. Bidirectional Power Supply and Regenerative Load
    Integrates both sourcing (power supply) and sinking (electronic load) functions, allowing seamless transition between the two without voltage or current overshoot.

  2. High Energy Regeneration Efficiency
    Achieves up to 95% energy regeneration efficiency, reducing both electricity costs and the need for additional cooling systems.

  3. Parallel Operation Support
    Allows parallel operation of up to 2 MW of power by connecting multiple units, ideal for large-scale testing environments.

  4. Flexible Solar Array Simulation
    With the optional SAS1000 software, the IT6000C can simulate real-world photovoltaic scenarios, including dynamic MPPT performance testing and I-V curve simulation.

  5. Battery Testing and Simulation
    The IT6000C supports comprehensive battery charging and discharging tests and offers a battery simulator (with optional BSS2000 software), simulating up to 99 cells in series.

  6. Multiple Protection Features
    Includes OVP, OCP, OTP, anti-islanding protection, and more, ensuring safe and reliable operation during testing.

  7. Built-in Waveform Generator
    Capable of generating arbitrary waveforms for dynamic testing scenarios, providing high flexibility for a wide range of applications.



Specification IT6000C
Voltage Output Up to 2250V
Current Output Up to 2040A (single), 0-8000A (parallel)
Power Output Up to 144kW (standalone), up to 2 MW (parallel)
Energy Regeneration Efficiency 95%
Resolution 0.001V (Voltage), 0.01A (Current)
Accuracy ±0.02% + 0.02%FS (Voltage), ±0.1% + 0.1%FS (Current)
Interfaces USB, CAN, LAN, GPIB, RS485, optional analog
Size (W x H x D) 19” x 3U x 350 mm
Weight Varies by model
Temperature Range 0°C to 40°C
Parallel Operation Yes, up to 2 MW
Safety Features OVP, OCP, OTP, anti-islanding protection, power down
Compliance Pre-compliant with automotive standards (LV123, ISO-16750-2, SAEJ1113-11)
Waveform Generation Yes, supports arbitrary waveform generation
Battery Simulation Yes, supports 99 cells simulation (with BSS2000)