The Master-Slave Battery Management System (BMS) is an innovation that seamlessly combines performance, safety, and sustainability. Read on to learn more about the master-slave BMS architecture, and the basic installation components, and then get to know how to choose the right master-slave BMS board.
Our configurable battery management system is engineered to offer a complete solution for monitoring high voltage battery packs. It consist of a Master board based on an STM32 microcontroller connected through an ISOSPI interface to one or several slave boards.
In other words, keep the battery operating in the defined safety window. The slave board is capable of functions such as cell balancing, temperature and voltage monitoring. It receives task messages from the main BMS (master) and periodically sends back cell measurements.
This was about BMS or Battery management systems. We can conclude that the BMS is used for cell balancing, monitoring voltage, SoC, SoH, current, the temperature of the battery pack, and protecting it under abnormal conditions. I hope this article ” What Is BMS, Battery Management System ” may help you all a lot.
Master-slave board BMS is oriented toward high-power applications where the battery pack's long-term performance is critical. Master-slave board BMS is integrated with EVC500 main contactors directly bolted onto the main board and is equipped with a heavy-duty PCB soldered current sensor good up to 500A continuous.
Purpose of Master, Slave BMS. The main master BMS (or battery controller) controls elements such as battery chargers, contractors and external heating or cooling drivers. Battery state algorithms were programmed to calculate the State of charge, State of health, and power capability.