The Fault Insertion Unit (FIU) emulates the electrical faults to perform hardware-in-the-loop (HIL) testing of your battery management system (BMS) under typical and fault conditions. The FIU emulates these faults on the emulated battery cells, and between the battery cells and the BMS. This allows the FIU to emulate cell-level faults, such as short circuits, cable failures, reverse polarity scenarios, and faults between cells and broken wire connections to the cell monitoring unit in the BMS. Providing the necessary channel-to-system isolation levels of 1kV for your tests, the FIU protects your entire testing environment, avoiding unwanted interactions between different testing components, and allows you to test your controllers safely.

The 2U rack-mountable FIU provides up to 36 independent and isolated channels.

The FIU is an ideal extension to the Speedgoat Battery Cell Emulator (BCE) for comprehensive testing and validation of the BMS performance. The FIU can be easily integrated into a rack system, making it ideal for large-scale HIL testing with thousands of I/O signals.

Key Features

• Failure insertion at cell level
• Emulation of various fault scenarios: short circuit, reverse polarity, broken wire at the cell level and in connection to the BMS
• Plug-and-play compatibility with the Battery Cell Emulator unit to easily extend battery cell emulation with fault insertion capabilities
• Modular unit with up to 36 battery cell fault insertion channels
• Channel-to-channel isolation up to 100 V
• Channel-to-system isolation up to 1 kV
• Connect multiple units in series (daisy chain) to emulate fault insertion of hundreds of cells and accommodate larger battery systems
• Easy to configure with the Speedgoat I/O Blockset
• Seamless integration with Simulink^® and Simscape™
   
   

Fault Emulation

Test the BMS accurately by introducing faults into the battery cell emulation setup to detect, identify, and isolate faults and design robust and fail-safe battery systems.
Each Fault Insertion Unit can insert faults on the battery pack or BMS sense lines.

Broken Wire

Simulate open-circuit faults where a wire or a connection becomes disconnected, resulting in a disconnection on the battery pack.

Short Circuit

Simulate an unintended connection or a low-resistance path between a battery cell's negative and positive pole resulting from a degraded or damaged cell or an abnormal behavior.

Reverse Polarity

Simulate incorrect polarity connections resulting from faulty wirings, incorrect battery installations, or malfunctioning cells due to high internal resistance.

Broken wires toward BMS sense lines

The FIU can open connections to the sense lines of the cell monitoring unit in BMS. This allows the simulation of fault connections or broken sense wires.

Pricing information
We do not publish pricing information on our website. Upon request by e-mail or phone, we can provide a complete price list covering our entire product portfolio in various currencies. We recommend that you contact us to discuss your specific needs. We can then quickly provide you with a tailored quotation including technical and pricing information.