Abstract: In battery voltage monitoring ICs for measuring voltages of unit cells of an assembled battery, communication with a system control unit is realized in consideration of fail-safe. The system control unit and the battery voltage monitoring ICs are coupled to each other by a communication path using a daisy chain. Each battery voltage monitoring IC has a placement setting pin designating, by a binary code, a unit cell group to which the IC is coupled, in the unit cell groups. When it is detected that the Hamming distance between the code indicative of coupling to a group of the highest potential or a group of the lowest potential and a state actually set in the placement setting pin is 1, some failure such as line disconnection, short-circuit, or the like in the placement setting pins is detected, and the communication path is interrupted.

Abstract: A semiconductor device includes a voltage measurement unit that measures a voltage of a battery, a current measurement unit that measures charging and discharging currents of the battery, a data processing control unit, and a current detection unit. The voltage measurement unit and the current measurement unit are able to measure the voltage and the discharging current of the battery in case that the current detection unit detects that the discharging current exceeds a predetermined threshold. The data processing control unit estimates an internal resistance of the battery based on a voltage measurement value measured by the voltage measurement unit in accordance with the detection performed by the current detection unit and a current measurement value measured by the current measurement unit in accordance with the detection performed by the current detection unit, and calculates an amount of maximum power capable of being supplied from the battery.

Abstract: In battery voltage monitoring ICs for measuring voltages of unit cells of an assembled battery, communication with a system control unit is realized in consideration of fail-safe. The system control unit and the battery voltage monitoring ICs are coupled to each other by a communication path using a daisy chain. Each battery voltage monitoring IC has a placement setting pin designating, by a binary code, a unit cell group to which the IC is coupled, in the unit cell groups. When it is detected that the Hamming distance between the code indicative of coupling to a group of the highest potential or a group of the lowest potential and a state actually set in the placement setting pin is 1, some failure such as line disconnection, short-circuit, or the like in the placement setting pins is detected, and the communication path is interrupted.

Abstract: A semiconductor device includes a voltage measurement unit that measures a voltage of a battery, a current measurement unit that measures charging and discharging currents of the battery, a data processing control unit, and a current detection unit. The voltage measurement unit and the current measurement unit are able to measure the voltage and the discharging current of the battery in case that the current detection unit detects that the discharging current exceeds a predetermined threshold. The data processing control unit estimates an internal resistance of the battery based on a voltage measurement value measured by the voltage measurement unit in accordance with the detection performed by the current detection unit and a current measurement value measured by the current measurement unit in accordance with the detection performed by the current detection unit, and calculates an amount of maximum power capable of being supplied from the battery.