Power conversion device

The invention claimed is: 1. A power conversion device for converting a direct-current (DC) voltage from a DC power supply into an alternating-current (AC) voltage, the power conversion device, comprising: a first terminal and a second terminal which are respectively connected to a positive electrode and a negative electrode of the DC power supply; a third terminal and a fourth terminal which output the AC voltage; a full-bridge circuit which includes a first leg and a second leg connected in parallel between the first terminal and the second terminal; a reactor connected between the third terminal and a first connection point connecting an upper arm and a lower arm of the first leg; a switching-mode changer that generates a signal for switching a mode of operation of the full-bridge circuit to a first switching mode or a second switching mode; and a PWM controller which causes the full-bridge circuit to operate in the first switching mode or the second switching mode, in accordance with the signal, wherein the fourth terminal is connected to a second connection point connecting an upper arm and a lower arm of the second leg, in the first switching mode, the upper arm of the first leg and the lower arm of the second leg are switched synchronously, and the lower arm of the first leg and the upper arm of the second leg are non-conducting, in the second switching mode, the lower arm of the first leg and the upper arm of the second leg are switched synchronously, and the upper arm of the first leg and the lower arm of the second leg are non-conducting, and the switching-mode changer adjusts a phase of the signal so that reactive power output from the third terminal and the fourth terminal or a distortion rate of the AC voltage is reduced. 2. The power conversion device according to claim 1 , wherein periodically, the switching-mode changer obtains a parameter value that correlates with the reactive power and adjusts the phase of the signal, the parameter value is calculated, using an effective power value output from the third terminal and the fourth terminal, an effective value of the AC voltage, and an effective value of a current flow through the reactor, when the parameter value increases with an increase of the reactive power: if a newly obtained parameter value is less than a most recently obtained parameter value, the switching-mode changer adjusts the phase of the signal in a same direction as an immediately preceding direction of adjustment; and if the newly obtained parameter value is greater than the most recently obtained parameter value, the switching-mode changer adjusts the phase of the signal in a direction opposite the immediately preceding direction of adjustment, and when the parameter value decreases with an increase of the reactive power: if the newly obtained parameter value is greater than the most recently obtained parameter value, the switching-mode changer adjusts the phase of the signal in the same direction as the immediately preceding direction of adjustment; and if the newly obtained parameter value is less than the most recently obtained parameter value, the switching-mode changer adjusts the phase of the signal in the direction opposite the immediately preceding direction of adjustment. 3. The power conversion device according to claim 1 , wherein periodically, the switching-mode changer obtains the distortion rate of the AC voltage and adjusts the phase of the signal, if a newly obtained distortion rate is less than a most recently obtained distortion rate, the switching-mode changer adjusts the phase of the signal in the same direction as the immediately preceding direction of adjustment, and if the newly obtained distortion rate is greater than the most recently obtained distortion rate, the switching-mode changer adjusts the phase of the signal in a direction opposite an immediately preceding direction of adjustment. 4. The power conversion device according to claim 1 , wherein the PWM controller controls operation of the full-bridge circuit, based on an output current command, and the switching-mode changer starts adjusting the phase of the signal, using a phase of the output current command as an initial phase for the signal. 5. The power conversion device according to claim 1 , wherein the PWM controller controls operation of the full-bridge circuit, based on an output voltage command, the switching-mode changer starts adjusting the phase of the signal, using a phase of the output voltage command as an initial phase for the signal. 6. The power conversion device according to claim 1 , wherein the mode of operation of the full-bridge circuit includes a third switching mode, in addition to the first switching mode and the second switching mode, in the third switching mode, the upper arm of the first leg and the lower arm of the first leg are switched on alternately, and the upper arm of the second leg and the lower arm of the second leg are switched on alternately, the PWM controller modulates a pulse width in accordance with a result of comparison of a triangular wave with a command value, and the switching-mode changer determines an initial phase for the signal, based on the AC voltage or at least one of the command value or a current flow through the reactor when the full-bridge circuit is in operation in the third switching mode, and starts adjusting the phase of the signal. 7. The power conversion device according to claim 1 , wherein the PWM controller modulates a pulse width in accordance with a result of comparison of a triangular wave with a command value, and the switching-mode changer determines an initial phase for the signal, based on the AC voltage or at least one of the command value or a current flow through the reactor, and starts adjusting the phase of the signal.