Patent ID: 9570991
Date: 2017-02-14
CPC Classifications: H02M,Y02B

Claim:
1. A bidirectional DC/DC converter configured to perform bidirectional voltage conversion in which an operation is switched between a first operation of outputting a DC voltage resulting from DC/DC conversion of a DC voltage received through first terminals, through second terminals, and a second operation of outputting a DC voltage resulting from DC/DC conversion of a DC voltage received through the second terminals, through the first terminals, the bidirectional DC/DC converter comprising: a first switching circuit that is a full-bridge circuit constituted by a series circuit of first and second switching elements connected between the first terminals and a series circuit of third and fourth switching elements connected between the first terminals; a series circuit of a resonance inductor, a resonance capacitor, and a first winding of a transformer, the series circuit being connected between a connection point of the first and second switching elements and a connection point of the third and fourth switching elements; a second switching circuit that is a full-bridge circuit constituted by a series circuit of fifth and sixth switching elements connected between the second terminals and a series circuit of seventh and eighth switching elements connected between the second terminals; a second winding of the transformer connected between a connection point of the fifth and sixth switching elements and a connection point of the seventh and eighth switching elements; rectifying elements that are respectively connected in parallel to the first to eighth switching elements in order that the rectifying elements are reversely biased when receiving an input DC voltage; and a controller configured during the dead time, a resonance current generated by a load current flowing in the resonance inductor and a resonance current generated by an excitation current of the transformer flowing in the resonance circuit constituted by the resonance inductor and capacitors coupling in parallel to the respective first to eighth switching elements, the controller being configured to perform a turning off operation on the first to eighth switching elements at a timing at which the resonance current generated by the load current and the resonance current generated by the excitation current are cancelled out by each other during the dead time.