• Wide output range up to 1000V, 240A, and 6kW per unit

• Parallel operation (Master-Slave) up to 30kW with current sharing

• CV, CC, and CP operating modes with priority selection

• Fast dynamic response (<3 ms) with adjustable slew rates

• Built-in automotive voltage curves (DIN 40839, ISO-16750-2, LV124, SAEJ1113-11)

• Solar panel I-V curve simulation (optional software)

• LIST mode programming for automated test sequences

• Multiple protection functions (OVP, OCP, OPP, reverse protection)

• EV battery charging and discharging testing

• Automotive electronics validation and transient simulation

• Power semiconductor and high-power IC testing

• Solar inverter and photovoltaic system simulation

• R&D laboratories and validation benches

• High-power DC system testing and characterization

• Output Power: 800W to 6kW (expandable to 30kW)

• Output Voltage: Up to 1000V

• Output Current: Up to 240A

• Operating Modes: CV / CC / CP

• Dynamic Response Time: < 3 ms

• Rise Time: < 3 ms (0–90% load within 30V range)

• Falling Time: < 30 ms (standard), < 5 ms (with dissipater)

• Interfaces: USB, RS232, CAN, LAN

• Functions: Remote sense, LIST programming, analog control

• Protections: OVP, OCP, OPP, reverse voltage, undervoltage

The IT6500 series DC power supply provides a flexible and scalable solution for high-power testing applications where precision, speed, and stability are critical. Covering a wide operating range—from 800W to 6kW per unit and expandable up to 30kW in parallel—the system supports output up to 1000V and 240A, enabling use across a broad spectrum of industrial test scenarios.

Designed to address dynamic load conditions, the IT6500 integrates a CV/CC priority selection function, allowing users to optimize either voltage response speed or current overshoot protection. This is particularly relevant in automotive electronics validation, battery testing, and power semiconductor characterization, where transient behavior must be tightly controlled.

The IT6500C series adds advanced capabilities such as solar array simulation, programmable LIST mode, and variable output impedance, making it suitable for renewable energy testing and simulation environments. Both C and D series models ensure consistent rise and fall times, even in parallel configurations, reducing system variability during synchronized testing.

With integrated communication interfaces (USB, RS232, CAN, LAN) and built-in automotive voltage profiles compliant with industry standards, the IT6500 can be seamlessly integrated into automated test systems.