Advanced operation system to ensure module, pack performance and safety.
 
One of our models
 
 
Achievement of a redundancy-less circuit for high-performance and highly reliable lithium-ion battery control for passenger cars.
 
1) The input / output power of the cell is calculated by using a high-precision state estimation algorithm that matches the pack current and cell temperature with the cell voltage monitoring circuit that is compatible with high-speed insulated communication, and improves vehicle performance, cell life, and reliability.
2) Monitoring the insulation status of the entire high-voltage circuit by adopting the AC leak method.
 
By applying sophisticated diagnoses to detect various circuit failure and adopt dual core microcontrollers, the battery management technology for preventing battery overcharge, over discharge, and excessive heat generation meets the requirements for functional safety (ISO26262) ASIL-D.
 
Mild Hybrid Vehicle
 
Our Products Information List 》Battery Management System
 
Advanced operation system to ensure module, pack performance and safety
One of our models
Achievement of a redundancy-less circuit for high-performance and highly reliable lithium-ion battery control for passenger cars.
1)The input / output power of the cell is calculated by using a high-precision state estimation algorithm that matches the pack current and cell temperature with the cell voltage monitoring circuit that is compatible with high-speed insulated communication, and improves vehicle performance, cell life, and reliability.
2)Monitoring the insulation status of the entire high-voltage circuit by adopting the AC leak method.
By applying sophisticated diagnoses to detect various circuit failure and adopt dual core microcontrollers, the battery management technology for preventing battery overcharge, over discharge, and excessive heat generation meets the requirements for functional safety (ISO26262) ASIL-D.
Mild Hybrid Vehicle
Our Products Information List 》Battery Management System