Chroma 63700 Series Regenerative DC Electronic Loads are suitable for product reliability testing in various applications, including electric vehicle (EV) battery discharge, fuel cell discharge, high-power power supply aging, DC EV supply equipment (EVSE), unidirectional on-board chargers (OBC), fuel cell systems, energy storage systems (ESS), AC/DC and DC/DC power supply burn-in tests, and various power electronics applications.

These regenerative DC loads can simulate a wide range of load characteristics while also feeding energy back to the grid, providing an efficient and sustainable solution that reduces test environment temperatures, HVAC power consumption, and power conversion electricity costs.

The 63700 Series offers high power density within a compact 3U form factor, with power ratings reaching up to 18kW per unit and currents of up to 120A. Users can parallel up to 10 units* for a maximum power of 180kW and a maximum current of 1,200A. Voltage options include 600V, 1,200V, and 1,800V.

All models in the series come equipped with external signal control functionality*, allowing for the simulation of real current waveforms. Master/slave control enables parallel operation of identical 63700 units for synchronized dynamic loading. The system can store up to 256 programmable sequences*, which can be loaded at any time, reducing test duration and increasing throughput during automated testing.

Regarding measurement capabilities, the 63700 Series can perform real-time and precise voltage and current measurements. With the TFT touch display and rotary knob on the front panel, the 63700 Series offers convenient operation and setup. These units can also be controlled via LAN, USB, GPIB, or CAN.

Additionally, the 63700 Series features overcurrent, over-power, and over-temperature protection functions, as well as an overvoltage alarm mechanism, ensuring product reliability during testing. These attributes make it an ideal test solution for design verification and integration into automated test systems.

Chroma 63700 series of regenerative electronic loads achieve a maximum energy recovery efficiency of up to 93%. Furthermore, they feature high power density, effectively reducing their size and saving space. These loads are well-suited for long-term reliability testing applications across various power sources, including vehicle DC charging stations, unidirectional on-board chargers, automotive battery discharging, fuel cell discharging, and more. By connecting them in parallel, the 63700 series can reach a maximum power of 180kW, making it suitable for power requirements ranging from 5kW to 180kW.

* Requires external protection fixtures

The main differences between regenerative loads, conventional loads, and resistive loads lie in the way they dissipate energy, the magnitude of current ripple, the slope of the current waveform, and power density. The key advantage of regenerative loads is their ability to feed consumed energy back to the power grid, reducing energy waste, and helping to decrease carbon emissions. Traditional loads have the advantage of low current ripple and fast current slew rate. Resistors, on the other hand, have the fastest response time but are larger in size, consume more energy, and have the lowest power density. Users can choose the appropriate load based on their specific testing needs. In general, regenerative loads are suitable for endurance testing, reliability testing, stress testing, and battery discharge testing of power supplies, where they can significantly reduce workplace temperatures and electricity expenses.

The 63700 series features energy recovery DC electronic loads that efficiently convert the consumed electrical energy into AC current and feed it back into the power grid, achieving an impressive efficiency of up to 93%. The reclaimed electrical energy can be utilized by other equipment within the facility, leading to savings in overall energy consumption and reduced carbon emissions, thereby lowering the environmental impact. This approach also effectively reduces the heat generated by the electronic loads during operation, subsequently decreasing air conditioning energy consumption and cutting electricity costs.

Chroma 63700 Series regenerative DC loads are equipped with a digital signal microprocessor for optimized speed and control performance. The high measurement accuracy of voltage (0.05%+0.05%F.S.) and current (0.1%+0.1%F.S.) ensures reliable and precise measurements. All models in the series can be operated manually or remotely. For higher-power test applications, users can parallel multiple units in a master-slave setup with synchronous loading to accurately simulate real-world load conditions.

The 63700 series offers constant voltage (CV), constant current (CC), constant resistance (CR), and constant power (CP) modes of operation to meet various test requirements. For example, in the CC and CR modes, when testing the voltage source DUT (Device Under Test), the load can be used to verify whether the DUT's output voltage remains stable under different load conditions. For On Board Charger (OBC), battery chargers or charging stations, when the charger operates in constant current mode, the 63700 uses constant voltage mode to simulate voltage fluctuations in the charging battery, ensuring the accuracy of the charging current at the set output voltage of the charger. When the test object is a battery, the electronic load can be set to constant current or constant power mode for discharging the battery. Many battery testing applications, power consumption, and other conditions can be tested using these two modes of the electronic load.

The 63700 regenerative load provides a sleep mode for optimal efficiency. When the load remains idle for longer than the user-set idle time, the 63700 will shut off the main power source (e.g., module power), retain the system power, and enter sleep mode. In sleep mode, the operating interface will be in a semi-off state, as shown in the image below.

Users can easily wake up the 63700 by touching the screen, pressing the ON button on the front panel, or using remote commands.

The 63700 features an energy recovery function and has external protection mechanisms. When the 63700 detects AC input over voltage (OV) or under voltage (UV), abnormal frequency (Freq. Error), three-phase imbalance (Unbalance), or over current (OC), it will shut off the module power to ensure safe grid integration. Additionally, the 63700 has internal protection mechanisms such as over voltage alarm (OVA), over current protection (OCP), over power protection (OPP), over temperature protection (OTP), and under voltage protection (UVP). Once any of these internal protection mechanisms are triggered, the 63700 will stop loading.

The design of the 63700 regenerative load allows for AC power input from anywhere in the world, with an input range of three-phase 200~220Vac and 380~480Vac. Users can purchase the device without having to worry about compatibility with different power configurations in other regions.

The 63700 regenerative load supports various communication interfaces for user control. It comes standard with USB and LAN, and optional GPIB for PC connectivity. Additionally, it features a CAN interface, commonly used in the automotive industry and compliant with CAN2.0 A&B specifications for 11-bit/29-bit frames. This interface allows for high-speed reading of voltage, current, and power parameters with a 10ms response time.

In addition to the front panel, the 63700 Series can also be controlled through Chroma's SoftPanel graphical software interface. This user-friendly interface includes an array of functions which help users get started quickly and operate the load conveniently. The 63700 Series features multiple interfaces such as GPIB, USB, and LAN, allowing users to choose the interface that best suits their needs when using a PC to operate the unit.