Robust, reliable analog solutions MC33771 and MC33664 Battery Cell Controller and Transformer Physical Layer The MC33664 transformer physical layer and MC33771 battery cell controller solution enable reliable, safe low-cost Li-ion cell control applications with affordable, robust and high-speed isolated communication. AUTOMOTIVE APPLICATIONS FEATURES }} High-voltage battery management systems (> 800 V) }} 9.6 V VPWR 61.6 V operation, 75 V transient }} 48 V battery management systems }} Isolated 2 Mbps differential communication or 4 Mbps SPI INDUSTRIAL APPLICATIONS }} Energy storage systems (ESS) }} Uninterrupted power supply (UPS) }} E-bikes, E-scooters These fully integrated battery monitoring devices are for automotive and industrial mission-critical applications. Battery topology flexibility is supported with compatibility including 48 V batteries with one analog front end (AFE). High-speed and robust daisy chain provides a smart alternative to CAN solutions. Fast data acquisition and communication to the pack controller can be achieved in only 3.0 ms for the pack controller to acquire conversions from 96 cells. Also, determination of individual cell impedances in one shot is synchronized for cell voltages and current measurements within 114 s. With functional verification and diagnostics, the MC33664 transformer physical layer and and MC33771 battery cell controller support ISO 26262 SafeAssure(R) functional safety. Functional verification of cell measure, current measure, cell terminal openings or leakage and ADC precision checks are all performed. }} 14 x differential cells voltage and stack voltage measurements }} High-precision current measurement (+/- 1500 A) with low resolution }} Coulomb counter }} Synchronized cell voltage/current measurement 100 s skew }} 7 x ADC/GPIO/temperature sensor inputs }} Addressable on initialization }} Onboard 300 mA passive cell balancing low ohmic MOSFETS with diagnostics }} Low-power modes }} 64-pin LQFP package }} Designed to support ISO 26262, up to ASIL D safety capability Features Benefits Integrated current channel and coulomb counting Reduces bill of materials (BOM) for 48 V battery applications (only one AFE required) Integrated current channel synchronized with cell voltage measurements Determination of individual cell impedances in one shot for improved SoC/SoH prediction Optional high-speed isolated or SPI communication Addresses all existing battery management system topologies (centralized, distributed daisy chain, distributed CAN) High-speed (2.0 Mbit/s) isolated high-speed differential communication Allows BOM cost reduction by transition from CAN to daisy chain without compromise on communication speed Fast data acquisition and communication to pack controller Determination of individual cell impedances in one shot, synchronized cell voltages and current measurements within 114 s Robust against hot plug and random cell connection No pre-damaging of cell and no damaging of devices during customer battery/electronics assembly ESD/EMC robustness Strong electrostatic discharge (ESD) protection and electromagnetic compatibility (EMC) avoid the need for external components Supports ISO 26262 SafeAssure(R) functional safety with single package solution Has functional verification and diagnostics Low-level drivers Simplifies software development and reduces switching cost MC33771 AND MC33664 HIGH-VOLTAGE BATTERY MANAGEMENT SYSTEM MC33664 AND MC33771 PRODUCTS HV BMS 14 cells 33771 14 cells DEVELOPMENT TOOLS: 33664 FRDM33771BSPIEVB current 33771 www.nxp.com/battery NXP, the NXP logo and SafeAssure are trademarks of NXP B.V. All other product or service names are the property of their respective owners. (c) 2014-2018 NXP B.V. Document Number: MC33664FSA4 REV 4 FRDM33771BTPLEVB FRDM33664BEVB