Abstract: A bidirectional DC-DC converter includes: a voltage conversion circuit; a first switch circuit connected between the voltage conversion circuit and a high-voltage DC power supply; a second switch circuit connected between the voltage conversion circuit and a low-voltage DC power supply; a smoothing capacitor provided between the first switch circuit and the voltage conversion circuit; and a control unit. The control unit controls the second switch circuit such that turn-on time of the second switch circuit gradually increases, and thereafter, controls the voltage conversion circuit such that a voltage-boosting switching element of the voltage conversion circuit is turned on and off. After a predetermined time elapses from when the voltage-boosting switching element starts to be turned on and off, the control unit turns off the voltage-boosting switching element and turns on the first switch circuit.

Abstract: A bidirectional DC-DC converter includes: a voltage conversion circuit; a first switch circuit connected between the voltage conversion circuit and a high-voltage DC power supply; a second switch circuit connected between the voltage conversion circuit and a low-voltage DC power supply; a smoothing capacitor provided between the first switch circuit and the voltage conversion circuit; and a control unit. The control unit controls the second switch circuit such that turn-on time of the second switch circuit gradually increases, and thereafter, controls the voltage conversion circuit such that a voltage-boosting switching element of the voltage conversion circuit is turned on and off. After a predetermined time elapses from when the voltage-boosting switching element starts to be turned on and off, the control unit turns off the voltage-boosting switching element and turns on the first switch circuit.

Abstract: An assembled-battery voltage detection device for detecting a voltage at an assembled-battery including a plurality of single batteries connected in series includes: single-battery voltage detection circuits detecting voltages at the respective single batteries; single-battery voltage detection terminals connected to ends of the single batteries; connectors connecting the single-battery voltage detection terminals and the single batteries; voltage detection terminals detecting a voltage at one of the single batteries located at one end in the assembled battery; an assembled-battery voltage detection circuit detecting a potential difference between the voltage detection terminals; a single-battery voltage sum calculator calculating a sum of the voltages detected by the single-battery voltage detection circuits; an end-battery voltage abnormality determination unit determining whether the voltage at the single battery located at the end is 0 V; and an abnormality output unit outputting an abnormality depending

Abstract: An assembled-battery voltage detection device for detecting a voltage at an assembled-battery including a plurality of single batteries connected in series includes: single-battery voltage detection circuits detecting voltages at the respective single batteries; single-battery voltage detection terminals connected to ends of the single batteries; connectors connecting the single-battery voltage detection terminals and the single batteries; voltage detection terminals detecting a voltage at one of the single batteries located at one end in the assembled battery; an assembled-battery voltage detection circuit detecting a potential difference between the voltage detection terminals; a single-battery voltage sum calculator calculating a sum of the voltages detected by the single-battery voltage detection circuits; an end-battery voltage abnormality determination unit determining whether the voltage at the single battery located at the end is 0 V; and an abnormality output unit outputting an abnormality depending