FRDM33772CSPEVB New
6-channel Li-ion battery cell controller using MC33772C BCC
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Battery Management Systems (BMS) Hardware Solutions
Battery management systems (BMS) solutions for automotive and industrial applications including 12 V, 48 V, high-voltage and battery pack monitoring applications. They are optimized in hardware and software for functional safety implementation for up to ASIL D safety levels. They enable a platform approach for all xEV applications and help to ensure safety, accurately monitor energy levels and increase battery life in your designs.
HVBMS - Cell Supervision Circuit (CSC)
KIT33772CTPLEVB New
6-channel Li-ion battery cell controller using MC33772C BCC
RD33771CNTREVM
High voltage mixed centralized or distributed architecture BMS
RD33771CDSTEVB
14-channel Li-Ion BCC with isolated daisy chain interface with MC33771C BCC
FRDM33771CSPEVB
14-channel high performance Li-Ion BMS with SPI interface using MC33771C BCC
FRDMDUAL33664EVB
Dual TPL interface between MCU and isolated network with loopback using MC33664 device
FRDM33771BTPLEVB
14-channel Li-ion battery cell controller with isolated daisy chain interface using MC33771B BCC
FRDM33664BEVB
TPL interface between MCU and isolated network using MC33664 device
FRDM33772BTPLEVB
6-channel Li-Ion BCC with isolated daisy chain interface using MC33772B BCC
HVBMS – Battery Junction Box (BJB)
KIT33772CTPLEVB New
6-channel Li-ion battery cell controller using MC33772C BCC
RD33772BJBEVM
High Voltage Battery Junction Box RD with functional safety, voltage, current, temperature and insulation measurement functions
FRDM33772BTPLEVB
6-channel Li-Ion BCC with isolated daisy chain interface using MC33772B BCC
FRDM33664BEVB
Transceiver physical layer (TPL) interface between MCU and isolated network using MC33664 device
HVBMS – Battery Management Unit (BMU)
MPC5775B-EVB
Low-cost development boards engineered for battery applications
RDVCU5775EVM
Reference design for high-voltage BMS and vehicle control unit integration for ASIL D applications
48 V BMS Solutions
RD33771-48VEVM
48 V mild hybrid auxiliary battery management system reference design
FRDM33771CSPEVB
14-channel high performance Li-Ion BMS with SPI interface using MC33771C BCC
FRDM33771BSPIEVB
14-channel Li-ion battery cell controller with SPI interface using MC33771B BCC
FRDM33771BTPLEVB
14-channel Li-ion battery cell controller with isolated daisy chain interface using MC33771B BCC
FRDM33664BEVB
Transceiver physical layer (TPL) interface between MCU and isolated network using MC33664 device
12 V BMS Solutions
FRDM33772CSPEVB New
6-channel Li-ion battery cell controller using MC33772C BCC
NEWTEC-NTBMS
12 V battery management system for Li-Ion batteries supporting ASIL C safety levels
RDDRONE-BMS772
Standalone BMS reference design suitable for mobile robotics such as drones and rovers, supporting 3 to 6 cell batteries
RD9Z1-638-4LI
4-Cell Li-Ion BMS with high EMC performance and CAN interface using MM9Z1_638 sensor
RD9Z1-638-12V-C
12 V lead-acid BMS with high EMC performance with CAN interface using MM9Z1_638 sensor
RD9Z1-638-12V
12 V lead-acid BMS with high EMC performance with LIN interface using MM9Z1_638 sensor
FRDM33772BSPIEVB
6-channel BCC for Li-Ion battery applications with SPI interface using MC33772B BCC
KIT9Z1J638EVM
Battery sensor for current, voltage and temperature with CAN/LIN interface using MM9Z1_638 sensor
Tools
BATT-14EXTENDER New
Allows for the connection up to four evaluation boards using only one single battery emulator
BATT-6EMULATOR
6-cell battery pack emulator made to be connected to MC33772B BCC EVB’s
BATT-14CEMULATOR
14-cell battery pack emulator made to supply MC33771C BCC EVBs
BATT-14EMULATOR
14-cell battery pack emulator made to supply MC33771B BCC EVBs
BATT-14AAAPACK
A configurable battery pack that can be used to supply the MC33771 or MC33772 evaluation boards.
The 4 Main Functions of a BMS
Cell protection and passenger safety, state of charge, state of health and cell balancing: the 4 main functions of a battery management system. Want to learn more about them?
Keeping Component Costs Down in a High Voltage Battery Management Architecture
Discover how designers can keep cost down for an EV within a HVBMS architecture in term of components, production and design.
