
FRDM33772CSPEVB New
6-channel Li-ion battery cell controller using MC33772C BCC
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.
6-channel Li-ion battery cell controller using MC33772C BCC
6-channel Li-ion battery cell controller using MC33772C BCC
High voltage mixed centralized or distributed architecture BMS
14-channel Li-Ion BCC with isolated daisy chain interface with MC33771C BCC
14-channel high performance Li-Ion BMS with SPI interface using MC33771C BCC
Dual TPL interface between MCU and isolated network with loopback using MC33664 device
14-channel Li-ion battery cell controller with isolated daisy chain interface using MC33771B BCC
TPL interface between MCU and isolated network using MC33664 device
6-channel Li-Ion BCC with isolated daisy chain interface using MC33772B BCC
6-channel Li-ion battery cell controller using MC33772C BCC
High Voltage Battery Junction Box RD with functional safety, voltage, current, temperature and insulation measurement functions
6-channel Li-Ion BCC with isolated daisy chain interface using MC33772B BCC
Transceiver physical layer (TPL) interface between MCU and isolated network using MC33664 device
Low-cost development boards engineered for battery applications
Reference design for high-voltage BMS and vehicle control unit integration for ASIL D applications
48 V mild hybrid auxiliary battery management system reference design
14-channel high performance Li-Ion BMS with SPI interface using MC33771C BCC
14-channel Li-ion battery cell controller with SPI interface using MC33771B BCC
14-channel Li-ion battery cell controller with isolated daisy chain interface using MC33771B BCC
Transceiver physical layer (TPL) interface between MCU and isolated network using MC33664 device
6-channel Li-ion battery cell controller using MC33772C BCC
12 V battery management system for Li-Ion batteries supporting ASIL C safety levels
Standalone BMS reference design suitable for mobile robotics such as drones and rovers, supporting 3 to 6 cell batteries
4-Cell Li-Ion BMS with high EMC performance and CAN interface using MM9Z1_638 sensor
12 V lead-acid BMS with high EMC performance with CAN interface using MM9Z1_638 sensor
12 V lead-acid BMS with high EMC performance with LIN interface using MM9Z1_638 sensor
6-channel BCC for Li-Ion battery applications with SPI interface using MC33772B BCC
Battery sensor for current, voltage and temperature with CAN/LIN interface using MM9Z1_638 sensor
Allows for the connection up to four evaluation boards using only one single battery emulator
6-cell battery pack emulator made to be connected to MC33772B BCC EVB’s
14-cell battery pack emulator made to supply MC33771C BCC EVBs
14-cell battery pack emulator made to supply MC33771B BCC EVBs
A configurable battery pack that can be used to supply the MC33771 or MC33772 evaluation boards.
Integration is one of the key aspect in battery technology innovation, which procure some benefits as: ease of design, safety and performance.
With this video you will learn what is a BMS, why we need it, its role and its main functional modules.