Power conversion device

The invention claimed is: 1. A power conversion device disposed between an AC power source and a load, comprising: a rectifier circuit unit that rectifies a voltage of the AC power source; a smoothing unit that smooths a DC voltage on the load side of the rectifier circuit unit; a short-circuiting unit that is disposed on the AC power source side of the smoothing unit and that has a switching element to short-circuit the AC power source in response to a drive signal; a reactor that is disposed on the AC power source side of the short-circuiting unit; at least one of a reactor current detecting unit that detects the current of the reactor and a bus voltage detecting unit that detects an output voltage of the smoothing unit; a counterflow preventing element that prevents a counterflow of the current from the smoothing unit to the AC power source; a switching control unit that generates a carrier signal, computes timer values, generates a plurality of drive pulses different from the carrier signal by making the output signal of the reactor current detecting unit or the bus voltage detecting unit as an input, the plurality of drive pulses each having a frequency in accordance with a frequency of the carrier signal based on each of the timer values and having phases in which ON and OFF are inverted, and outputs the plurality of drive pulses; and a switching frequency changing unit that is disposed between the switching control unit and the short-circuiting unit and that receives input drive pulses each selectively having either one of the phases among the plurality of drive pulses, performs a logic operation on the input pulses to form an output signal, and outputs the output signal as the drive signal to the switching element, the output signal having a frequency that is different from the frequency of the carrier signal and in accordance with the input drive pulses and the timer values. 2. The power conversion device according to claim 1 , wherein the frequency of the output signal of the switching frequency changing unit is higher than the frequency of the carrier signal. 3. The power conversion device according to claim 1 , wherein two drive pulses having two phases are input to the switching frequency changing unit, and wherein the frequency of the output signal of the switching frequency changing unit is approximately two times the frequency of the carrier signal. 4. The power conversion device according to claim 1 , wherein three drive pulses having three phases are input to the switching frequency changing unit, and wherein the frequency of the output signal of the switching frequency changing unit is higher than the frequency of the carrier signal. 5. The power conversion device according to claim 1 , wherein three drive pulses having three phases are input to the switching frequency changing unit, and wherein the frequency of the output signal of the switching frequency changing unit is approximately three times the frequency of the carrier signal. 6. The power conversion device according to claim 1 , wherein a wide-gap semiconductor is used for at least any one of the short-circuiting unit and the counterflow preventing element. 7. The power conversion device according to claim 1 , wherein the reactor current detecting unit and the bus voltage detecting unit is controlled in response to the carrier signal. 8. The power conversion device according to claim 1 , wherein the switching control unit includes a drive pulse generating unit, and the drive pulse generating unit is configured to compute a timer value in accordance with an ON-duty based on a bus voltage value which is an output signal of the bus voltage detecting unit and a reactor current value which is an output signal of the reactor current detecting unit, compare the timer value with the carrier signal, and output a plurality of pairs of signals as the pulse signal. 9. The power conversion device according to claim 1 , wherein the switching frequency changing unit is electrically connected between the switching element of the short-circuiting unit and the switching control unit.