SAN DIEGO--(BUSINESS WIRE)--EA Elektro-Automatik, a leading manufacturer of DC programmable power supplies, bidirectional power supplies and regenerative electronic loads, announced a compact, automated battery cycler and test system that will enable manufacturers to better test EV batteries as the industry evolves to higher power battery technologies.
The 10300 Series ATE system offers industry-leading power density: 300 kW in a single 42U-high rack that consumes only 6.5 square feet of production-floor space, one-third the space of the leading brand. Users may parallel racks for up to 3.84 MW of testing capability. This advance is a significant advantage for the industry, where production floor space is at a premium or just unavailable.
The new series offers an unbeaten 2000 VDC capacity for testing high-voltage battery packs, a level of test performance that is out of range for most competitive systems. In addition, each rack can supply and sink up to 2,400 A per rack, and the system offers up to 30,720 A total capacity. This facilitates battery pulse testing, which may require exponentially higher current than the battery AH rating.
Until now, the only way to get this performance was to build and maintain an expensive custom system. In contrast, the off-the-shelf 10300 Series is a complete COTS turnkey solution. In addition to battery cycling, tests include drive cycle simulations and insulation resistance. The test system can control an environmental chamber and communicate with a battery management system through the CAN bus interface.
Included drag-and-drop system software enables quick and easy test setup and execution. Many other suppliers charge extra for software, which may require coding to update tests.
Significantly, the new battery test system is priced about the same as competing systems that offer lower capacities and far less than the cost of integrating a custom test solution.
“As consumers demand EV batteries with higher storage capacities, producers need test systems with higher power capability. In addition, the new hydrogen fuel cells coming onto the market will require even more,” said Eric Turner, Americas Director of EA Elektro-Automatik. “Voltage levels as a result are increasing; in some cases, power grid batteries need to be tested now at 1500 volts,” he added. “The introduction of the 10300 Series now means there is a production battery test system that is finally capable of meeting emerging voltage and power demands.”
Cool, Efficient, Fast Operation
The 10300 Series ATE test system is based on EA Elektro-Automatik’s bidirectional power supply featuring SiC-based switching that provides cool, efficient, and fast operation.
- The system returns absorbed power to the grid with up to 96.5% efficiency, which can save thousands of dollars per year in air conditioning costs compared to other systems.
- System slew rates are at least twice as fast as other systems, enabling more precise testing.
- Fast data acquisition rates up to 1.5 kHz capture events that other test systems miss.
True Autoranging Smooths Testing
In addition, the system’s bidirectional power supplies have true autoranging output for both sourcing and sinking. True autoranging allows a wider range of voltage and current, plus the ability to deliver and absorb full-rated power down to 1/3 of the maximum rated voltage. Unlike a system that does not have true autoranging, the 10300 Series system can perform a cycling test without requiring interruption to allow the system to change range as battery pack voltage ramps up or down.
About EA Elektro-Automatik
EA Elektro-Automatik has been producing state-of-the-art programmable DC power supplies and electronic loads since 1974. The company is dedicated to providing power solutions that lead in technology advancement for research and development and manufacturing in the automotive, energy storage, telecommunications, alternative energies and aerospace industries. With a presence in the Americas, Europe and Asia, EA Elektro-Automatik’s autoranging power supplies lead the industry in output power flexibility, density and operating efficiency. For more information, visit www.eapowered.com