Column Control DTX
Column Control DTX

How to Test High-Power EV Battery Packs

Get quote
Scienlab Battery Pack Tester
Scienlab Energy Storage Discover Software
+ Scienlab Battery Pack Tester
+ Scienlab Energy Storage Discover Software
Scienlab Battery Pack Tester
+ Scienlab Battery Pack Tester
Scienlab Energy Storage Discover Software
+ Scienlab Energy Storage Discover Software

Validating high-power EV battery packs with emulation

Verifying the performance of high-power electric vehicle (EV) battery packs requires emulating real-world operating environments with varying electrical, climatic, and temperature parameters. The combined data from climatic or temperature profiles, current and power curves, characterization steps, and cycling tests provide insights for improving range performance, battery safety, and durability.

Emulating this test environment includes various requirements like pre-charge to trigger the safe closing of the output relays, Restbus simulation to test the supported protocols, and emulation of auxiliary equipment and supplies in the EV's operating environment. It is also vital to automate and synchronize the measurement and test equipment in the lab to ensure the performance and safety of the batteries under test.

Column Control DTX
High-power EV battery pack test solution

High-power EV battery pack test solution

Comprehensively testing a high-power EV battery pack to improve its functions and safety requires realistic emulation of the EV's operating environment. The Keysight high-power EV battery pack test solution enables battery development and validation. The solution covers output power up to 270 kW and voltage up to 1500 V. High-voltage silicon carbide (SiC) technology provides high energy efficiency on a small footprint and helps minimize operating costs.
Get quote
Column Control DTX

See demo on how you can tackle battery pack test challenges

Column Control DTX

Explore products in our high-power EV battery pack test solution

Column Control DTX
Column Control DTX

Related use cases

How to Measure EV Battery Cell Self-Discharge

How to Measure EV Battery Cell Self-Discharge

Characterizing the self-discharge behavior of an electric vehicle (EV) battery requires the use of a potentiostatic analyzer to hold the cell’s voltage constant and stable. Learn how to use a potentiostatic measurement approach to identify cells with an unacceptably high self-discharge current.

Learn more keysight-arrow

How to Characterize Automotive Serial Buses

How to Characterize Automotive Serial Buses

Characterizing automotive serial buses requires debugging and correlating data transfers with other mixed-signal interactions. Learn how to use an oscilloscope and protocol decode software to debug CAN, CAN FD, LIN, SENT, and other automotive serial bus standards.

Learn more keysight-arrow

How to Test Automotive SerDes Receiver Conformance

How to Test Automotive SerDes Receiver Conformance

Automotive SerDes receiver testing requires various physical layer tests to meet the current MIPI A-PHY receiver specifications. Learn how to verify and characterize automotive SerDes receivers in the noisy environment of a car.

Learn more keysight-arrow

Column Control DTX
contact us logo

Get in touch with one of our experts

Need help finding the right solution for you?

Contact us