A Stackable, 6-Cell, Li-Ion, Battery Management IC for Electric Vehicles With 13, 12-bit $\Sigma \Delta$ ADCs, Cell Balancing, and Direct-Connect Current-Mode Communication

Battery monitoring systems are a critical aspect of electric vehicles. To interface with the high voltages in these systems a stacked IC approach is used. In this work we present an IC suitable for monitoring 6 cells which can be stacked to monitor a total of 192 cells. The IC has 13 parallel ΣΔ ADCs (12 bit, 5 mV accuracy, better than 1.5 mV matching) to measure individual cell voltages, cell temperature and battery current. Gate drivers with programmable frequency (5 kHz-2.048 MHz), duty cycle and dither for active and passive cell balancing is provided. On-chip 3.3 V and 5.2 V LDOs power the various subsystems. To eliminate external components, the ICs uses current-mode signaling which allows the IC to be directly connected to one another to transmit information about cells from the top of the stack to the host. The IC consumes less than 15 μA of quiescent current.