Power converter

The invention claimed is: 1. A power converter comprising: first and second switching elements located at a high side and a low side relative to a base electric potential and connected in series, the first and second switching elements performing conversion of power from a power source; a normal driver that operates on the power to drive the first and second switching elements using a drive signal having a predetermined voltage and frequency; a capacitor connected in parallel with the first and second switching elements; a backup power source provided separately from the power source, the backup power source supplying power during at least one of a normal period and a discharge period; and a discharging driver configured to: operate on the power supplied from the backup power source; and repeatedly turn on or off one of the first and second switching elements based on a drive signal that has at least one of a voltage and a frequency while driving the other of the first and second switching elements such that the other of the first and second switching elements is always on, the at least one of the voltage and the frequency of the drive signal being within a predetermined range lower than at least one of the predetermined voltage and frequency of the drive signal outputted from the normal driver. 2. The power converter according to claim 1 , wherein the discharging driver comprises an overheat protection means that protects the one of the first and second switching elements from overheating, thus preventing a temperature of the one of the first and second switching elements from exceeding an allowable temperature. 3. The power converter according to claim 1 , wherein the discharging driver comprises an overcurrent protection means that prevents a current flowing through the other of the first and second switching elements from exceeding an allowable current value. 4. The power converter according to claim 1 , wherein the discharging driver turns on or off one switching element corresponding to the high side in the first and second switching elements according to the drive signal having at least one of the voltage and the frequency within the predetermined range lower than a corresponding at least one of the predetermined voltage and frequency of the drive signal outputted from the normal driver, and drives the other switching element corresponding to the low side in the first and second switching elements such that the other switching element is always on. 5. The power converter according to claim 1 , wherein the discharging driver is incorporated in the normal driver. 6. The power converter according to claim 1 , wherein the power from the power source is DC power, the first and second switching elements are configured to convert the DC power from the power source into AC power, and supply the AC power to an AC load, and the first and second switching elements are provided for at least one phase of the AC load. 7. The power converter according to claim 1 , wherein the first and second switching elements are configured to boost the power from the power source, and supply the boosted power to a load. 8. The power converter according to claim 2 , wherein the discharging driver comprises an overcurrent protection means that protects a current flowing through the other of the first and second switching elements from exceeding an allowable current value. 9. The power converter according to claim 2 , wherein the discharging driver turns on or off one switching element corresponding to the high side in the first and second switching elements according to the drive signal having at least one of the voltage and the frequency within the predetermined range lower than a corresponding at least one of the predetermined voltage and frequency of the drive signal outputted from the normal driver, and drives the other switching element corresponding to the low side in the first and second switching elements such that the other switching element is always on. 10. The power converter according to claim 3 , wherein the discharging driver turns on or off one switching element corresponding to the high side in the first and second switching elements according to the drive signal having at least one of the voltage and the frequency within the predetermined range lower than a corresponding at least one of the predetermined voltage and frequency of the drive signal outputted from the normal driver, and drives the other switching element corresponding to the low side in the first and second switching elements such that the other switching element is always on. 11. The power converter according to claim 1 , wherein: the capacitor is connected in parallel with the power source; and the capacitor is also connected in parallel with the backup power source. 12. The power converter according to claim 1 , wherein the backup power source supplies power if the power source cannot supply power due to a shutoff cause.