DC/DC converter

The invention claimed is: 1. A DC/DC converter for performing bidirectional power transmission between a first DC power supply and a second DC power supply, the DC/DC converter comprising: a transformer; a first converter section for converting power between DC and AC, the first converter section having a plurality of semiconductor switching devices and connected between the first DC power supply and a first winding of the transformer; a second converter section for converting power between DC and AC, the second converter section having a plurality of semiconductor switching devices and connected between the second DC power supply and a second winding of the transformer; and a control circuit for performing drive control of each semiconductor switching device in the first and second converter sections, thereby controlling the first and second converter sections, wherein the first and second converter sections have capacitors respectively connected in parallel to the semiconductor switching devices, and first and second reactors connected on AC input/output lines, and the control circuit, upon power transmission from the first DC power supply to the second DC power supply, controls each semiconductor switching device in the first converter section so as to perform zero voltage switching by using the first reactor, and when voltage of the second DC power supply is higher than voltage generated on the second winding of the transformer, controls the second converter section so as to perform a step-up operation by using the second reactor, and upon power transmission from the second DC power supply to the first DC power supply, controls each semiconductor switching device in the second converter section so as to perform zero voltage switching by using the second reactor, and when voltage of the first DC power supply is higher than voltage generated on the first winding of the transformer, controls the first converter section so as to perform a step-up operation by using the first reactor. 2. The DC/DC converter according to claim 1 , wherein upon power transmission from the first DC power supply to the second DC power supply, when voltage of the second DC power supply is higher than voltage generated on the second winding of the transformer and the control circuit controls the second converter section so as to perform a step-up operation, the control circuit controls the first converter section so that a time in which voltage is applied to the first winding of the transformer becomes a predetermined maximum time, and upon power transmission from the second DC power supply to the first DC power supply, when voltage of the first DC power supply is higher than voltage generated on the first winding of the transformer and the control circuit controls the first converter section so as to perform a step-up operation, the control circuit controls the second converter section so that a time in which voltage is applied to the second winding of the transformer becomes a predetermined maximum time. 3. The DC/DC converter according to claim 1 , wherein the first and second converter sections are each composed of a full-bridge circuit having two bridge circuits. 4. The DC/DC converter according to claim 3 , wherein the control circuit controls the positive-side semiconductor switching device and the negative-side semiconductor switching device of each bridge circuit of the full-bridge circuit composing each of the first and second converter sections, at an ON time ratio of 50%, in the case where a short-circuit prevention time is ignored, and controls, by drive signals having the same phase, a first reference device which is either the positive-side semiconductor switching device or the negative-side semiconductor switching device of one of the bridge circuits in the first converter section, and a second reference device which is either the positive-side semiconductor switching device or the negative-side semiconductor switching device of one of the bridge circuits in the second converter section. 5. The DC/DC converter according to claim 2 , wherein the first and second converter sections are each composed of a full-bridge circuit having two bridge circuits, and wherein the control circuit controls the positive-side semiconductor switching device and the negative-side semiconductor switching device of each bridge circuit of the full-bridge circuit composing each of the first and second converter sections, at an ON time ratio of 50%, in the case where a short-circuit prevention time is ignored, and controls, by drive signals having the same phase, a first reference device which is either the positive-side semiconductor switching device or the negative-side semiconductor switching device of one of the bridge circuits in the first converter section, and a second reference device which is either the positive-side semiconductor switching device or the negative-side semiconductor switching device of one of the bridge circuits in the second converter section. 6. The DC/DC converter according to claim 4 , wherein the control circuit controls the first and second converters sections so that a first diagonal ON time in which the semiconductor switching device diagonally positioned with respect to the first reference device in the first converter section is ON simultaneously with the first reference device, and a second diagonal ON time in which the semiconductor switching device diagonally positioned with respect to the second reference device in the second converter section is ON simultaneously with the second reference device, in the case where a point at which both the first diagonal ON time and the second diagonal ON time become a set maximum ON time is defined as a reference point, when a control amount of power transmission from the first DC power supply to the second DC power supply is to be increased with respect to the reference point the first diagonal ON time is retained at the maximum ON time and the second diagonal ON time is decreased, and when a control amount of power transmission from the first DC power supply to the second DC power supply is to be decreased with respect to the reference point, the second diagonal ON time is retained at the maximum ON time and the first diagonal ON time is decreased, thereby performing bidirectional power transmission between the first DC power supply and the second DC power supply. 7. The DC/DC converter according to claim 5 , wherein the control circuit controls the first and second converter sections so that a first diagonal ON time in which the semiconductor switching device diagonally positioned with respect to the first reference device in the first converter section is ON simultaneously with the first reference device, and a second diagonal ON time in which the semiconductor switching device diagonally positioned with respect to the second reference device in the second converter section is ON simultaneously with the second reference device, in the case where a point at which both the first diagonal ON time and the second diagonal ON time become a set maximum ON time is defined as a reference point, when a control amount of power transmission from the first DC power supply to the second DC power supply is to be increased with respect to the reference point, the first diagonal ON time is retained at the maximum ON time and the second diagonal ON time is decreased, and when a control amount of power transmission from the first DC power supply to the second DC power supply is to be decreased with respect to the reference point, the second diagonal ON time is retained at the maximum ON time and the first diagonal ON time is decreased, thereby performing bidirectional power transmission between the first DC power supply and the second DC power supply.