Chroma 8610 Battery Pack Power HIL Testbed
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- Integrated FIU hardware, to simulate fault injection and improve ISO 26262 functional safety testing
- Supports various Simulink real-time models import, to verify on-road battery dynamic charging and discharging through standard driving conditions like NEDC and WLTP
- Supports CAN, CAN FD, LIN communication interfaces
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More information
Description
Chroma 8610 Battery Pack Power HIL Testbed
Chroma ATE launches the 8610 Battery Pack Power HIL Testbed for testing battery systems and components of new energy vehicles, incl. the battery module, battery management system, and cooling/heating system. Various hardware options are available for integration, such as a DC power supply, battery charge/ discharge system, digital meter, Hi-Pot tester, and short-circuit and overvoltage protection devices.Chroma 8610 is designed for development of battery modules and packs and provides users with a flexible and powerful dynamic testbed through the real-time hardware and software with open architecture at the core. Besides basic test functions like vehicle driving cycles importing, CAN signal monitoring, fault injection, insulation measurement, and EVSE charging simulation, Chroma 8610 can execute the most important compound scenarios for real vehicle and composite operation conditions with the highest risk of failure (e.g. physical and communication signal errors during cyclic discharge). Greatly improve R&D efficiency by performing more in-depth tests on battery packs without the need to test a real car.
Chroma 8610 testbed integrates the highperformance Chroma 170X0 Battery Chargers and Dischargers. The series simulate fast and dynamic discharging/regenerating of the battery pack driven by the e-propulsion system under various driving conditions for increased reliability of testing on the whole vehicle level. During testing, Chroma 170X0 will also feed the power output from the battery pack back into the grid to increase energy efficiency and save costs.
Features
- Integrated FIU hardware, to simulate fault injection and improve ISO 26262 functional safety testing
- Supports various Simulink real-time models import, to verify on-road battery dynamic charging and discharging through standard driving conditions like NEDC and WLTP
- Supports CAN, CAN FD, LIN communication interfaces
- Integrated AC/DC EVSE charge interfaces, incl. CAN Bus and PLC signals, for various compatibility tests
- Real-time monitoring of timing sequences, incl. high power relay open/close, initialpower output, CAN signal
- Integrated Hi-Pot safety analyzer, to measure and compare battery insulation and grounding status
- Extensive modular hardware, to ensure test accuracy and repeatability; expandable according to users' needs.
- Supports upper-level automated test software through ASAM XIL and ASAM XIL-MA
- Independent PLC real-time monitoring, to ensure safety during testing
For more information: Chroma
Documents
Chroma 8610 Battery Pack Power HIL Testbed
Chroma 8610 DatasheetOptions
Chroma 8610 Battery Pack Power HIL Testbed
8610 : Battery Pack Power HIL Testbed 17040 : Regenerative Battery Pack Test System 5004ATM : IPC 80619 : EVSE Emulator 62000P Series : DC Power Supply 19032 Series : Electrical Safety Analyzer A870001 : Low Voltage Signal Control Box A870003 : High Voltage Signal Control BoxVideo
Chroma 8610 Battery Pack Power HIL Testbed
Chroma 8610 Battery Pack Power HIL Testbed
Chroma ATE launches the 8610 Battery Pack Power HIL Testbed for testing battery systems and components of new energy vehicles, incl. the battery module, battery management system, and cooling/heating system. Various hardware options are available for integration, such as a DC power supply, battery charge/ discharge system, digital meter, Hi-Pot tester, and short-circuit and overvoltage protection devices.Chroma 8610 is designed for development of battery modules and packs and provides users with a flexible and powerful dynamic testbed through the real-time hardware and software with open architecture at the core. Besides basic test functions like vehicle driving cycles importing, CAN signal monitoring, fault injection, insulation measurement, and EVSE charging simulation, Chroma 8610 can execute the most important compound scenarios for real vehicle and composite operation conditions with the highest risk of failure (e.g. physical and communication signal errors during cyclic discharge). Greatly improve R&D efficiency by performing more in-depth tests on battery packs without the need to test a real car.
Chroma 8610 testbed integrates the highperformance Chroma 170X0 Battery Chargers and Dischargers. The series simulate fast and dynamic discharging/regenerating of the battery pack driven by the e-propulsion system under various driving conditions for increased reliability of testing on the whole vehicle level. During testing, Chroma 170X0 will also feed the power output from the battery pack back into the grid to increase energy efficiency and save costs.
Features
- Integrated FIU hardware, to simulate fault injection and improve ISO 26262 functional safety testing
- Supports various Simulink real-time models import, to verify on-road battery dynamic charging and discharging through standard driving conditions like NEDC and WLTP
- Supports CAN, CAN FD, LIN communication interfaces
- Integrated AC/DC EVSE charge interfaces, incl. CAN Bus and PLC signals, for various compatibility tests
- Real-time monitoring of timing sequences, incl. high power relay open/close, initialpower output, CAN signal
- Integrated Hi-Pot safety analyzer, to measure and compare battery insulation and grounding status
- Extensive modular hardware, to ensure test accuracy and repeatability; expandable according to users' needs.
- Supports upper-level automated test software through ASAM XIL and ASAM XIL-MA
- Independent PLC real-time monitoring, to ensure safety during testing
For more information: Chroma