Reverse recovery current prevention device and motor driving apparatus

What is claimed is: 1. A reverse recovery current prevention device comprising: a full wave rectifier configured to rectify a power source voltage from an alternating current power source inputted into a first input terminal and a second input terminal, the full wave rectifier having a plurality of diodes; a first diode having an anode terminal connected to the first input terminal of the full wave rectifier; a second diode having an anode terminal connected to the second input terminal of the full wave rectifier; a switch part configured to open or short an electrical circuit between a negative-side output terminal of the full wave rectifier and each of a cathode terminal of the first diode and a cathode terminal of the second diode, the switch part being connected between the negative-side output terminal and each of the cathode terminals; and a switch control unit configured to prohibit the switch part from shorting the electrical circuit between the negative-side output terminal and each of the cathode terminals when a voltage between the negative-side output terminal and each of the cathode terminals is at or above a threshold. 2. The reverse recovery current prevention device according to claim 1 , further comprising: a voltage detector configured to detect the voltage between the negative-side output terminal and each of the cathode terminals, the switch control unit being further configured to compare a first detection result from the voltage detector with the threshold. 3. The reverse recovery current prevention device according to claim 2 , further comprising: a zero-crossing detector configured to detect a zero-crossing of the power source voltage, the switch control unit being further configured to prohibit the switch part from shorting the electrical circuit between the negative-side output terminal and each of the cathode terminals based on a second detection result from the zero-crossing detector. 4. The reverse recovery current prevention device according to claim 3 , wherein the switch part includes a switching element, and the switch control unit includes a signal output unit configured to output a second pulse signal relating to the threshold based on the second detection result from the zero-crossing detector, and a logical AND circuit configured to calculate, and output to the switching element, a logical AND between the second pulse signal and a first pulse signal indicating the first detection result from the voltage detector. 5. The reverse recovery current prevention device according to claim 1 , wherein the switch control unit is further configured to cause the electrical circuit between the negative-side output terminal and each of the cathode terminals to be shorted by the switch part when the current is flowing out from the alternating current power source toward the full wave rectifier, at a timing in a vicinity of the zero-crossing of the power source voltage, and the threshold is set to be higher than the power source voltage when the switch part shorts the electrical circuit between the negative-side output terminal and each of the cathode terminals. 6. The reverse recovery current prevention device according to claim 1 , further comprising: a smoothing unit configured to smooth the power source voltage that has having been rectified by the full wave rectifier generate a direct current voltage, the threshold being set to be lower than the power source voltage when current is flowing out from the alternating current power source toward the full wave rectifier, because the direct current voltage is lower than the power source voltage. 7. A motor driving apparatus including the reverse recovery current prevention device according to claim 1 , the motor driving apparatus being configured to drive a motor, the motor driving apparatus further comprising: an inverter unit configured to output, to the motor, a driving voltage to drive the motor, the inverter unit comprising a plurality of switching elements which are connected in series with each other, the reverse recovery current prevention device being provided to an upstream part of the inverter unit. 8. The reverse recovery current prevention device according to claim 4 , wherein the switch control unit is further configured to cause the electrical circuit between the negative-side output terminal and each of the cathode terminals to be shorted by the switch part when the current is flowing out from the alternating current power source toward the full wave rectifier, at a timing in a vicinity of the zero-crossing of the power source voltage, and the threshold is set to be higher than the power source voltage when the switch part shorts the electrical circuit between the negative-side output terminal and each of the cathode terminals. 9. The reverse recovery current prevention device according to claim 4 , further comprising: a smoothing unit configured to smooth the power source voltage that has been rectified by the full wave rectifier to generate a direct current voltage, the threshold being set to be lower than the power source voltage when current is flowing out from the alternating current power source toward the full wave rectifier, because the direct current voltage is lower than the power source voltage. 10. A motor driving apparatus including the reverse recovery current prevention device according to claim 4 , the motor driving apparatus being configured to drive a motor, the motor driving apparatus further comprising: an inverter unit configured to output, to the motor, a driving voltage to drive the motor, the inverter unit comprising a plurality of switching elements which are connected in series with each other, the reverse recovery current prevention device being provided to an upstream part of the inverter unit.