AC-DC converter

What is claimed is: 1. An AC-DC converter that converts an AC power supply voltage to a DC output voltage of a prescribed magnitude with power factor regulation, comprising: a rectifying circuit that rectifies the AC power supply voltage to output a rectified voltage; a reactor that receives the rectified voltage; a semiconductor switching device connected in series to the reactor; a current detector that detects a rectified current flowing through the reactor; a proportional controller that multiplies the detected value of the rectified current by a prescribed gain; a voltage regulation unit that receives a detected value of the DC output voltage and a command value and that outputs an amplitude command that represents a difference between the command value and the detected value of the DC output voltage; an output voltage command calculator that calculates an output voltage command for the semiconductor switching device on the basis of an output of the proportional controller and the amplitude command outputted from the voltage regulation unit; and a drive signal generator that compares the output voltage command to a carrier signal so as to generate a drive signal for switching the semiconductor switching device ON and OFF, wherein the voltage regulation unit and the output voltage command calculator together function as a gain controlling unit that adjusts the prescribed gain on the basis of the difference between the command value and the detected value of the DC output voltage. 2. The AC-DC converter according to claim 1 , wherein the semiconductor switching device switches OFF when the output voltage command is greater than the carrier signal. 3. The AC-DC converter according to claim 1 , wherein the voltage regulation unit includes: a subtractor that receives the detected value of the DC output voltage and the command value as inputs and outputs a value obtained by subtracting the detected value of the DC output voltage from the command value; and a voltage regulator connected to an output of the subtractor. 4. The AC-DC converter according to claim 2 , wherein the voltage regulation unit includes: a subtractor that receives the detected value of the DC output voltage and the command value as inputs and outputs a value obtained by subtracting the detected value of the DC output voltage from the command value; and a voltage regulator connected to an output of the subtractor. 5. The AC-DC converter according to claim 3 , wherein the output voltage command calculator calculates the output voltage command such that the prescribed gain is effectively reduced as the output of the voltage regulator increases. 6. The AC-DC converter according to claim 4 , wherein the output voltage command calculator calculates the output voltage command such that the prescribed gain is effectively reduced as the output of the voltage regulator increases. 7. The AC-DC converter according to claim 1 , wherein the output voltage command calculator is a divider that divides the output of the proportional controller by the amplitude command outputted from the voltage regulation unit to generate the quotient as the output voltage command for the semiconductor switching device. 8. The AC-DC converter according to claim 1 , wherein the output voltage command calculator includes a subtractor that outputs a differential of a constant value relative to the amplitude command outputted from the voltage regulation unit and a multiplier that multiplies the differential outputted from the subtractor with the output of the proportional controller. 9. The AC-DC converter according to claim 2 , wherein the output voltage command calculator is a divider that divides the output of the proportional controller by the amplitude command outputted from the voltage regulation unit to generate the quotient as the output voltage command for the semiconductor switching device. 10. The AC-DC converter according to claim 2 , wherein the output voltage command calculator includes a subtractor that outputs a differential of a constant value relative to the amplitude command outputted from the voltage regulation unit and a multiplier that multiplies the differential outputted from the subtractor with the output of the proportional controller. 11. The AC-DC converter according to claim 3 , wherein the output voltage command calculator is a divider that divides the output of the proportional controller by the amplitude command outputted from the voltage regulation unit to generate the quotient as the output voltage command for the semiconductor switching device. 12. The AC-DC converter according to claim 3 , wherein the output voltage command calculator includes a subtractor that outputs a differential of a constant value relative to the amplitude command outputted from the voltage regulation unit and a multiplier that multiplies the differential outputted from the subtractor with the output of the proportional controller. 13. The AC-DC converter according to claim 4 , wherein the output voltage command calculator is a divider that divides the output of the proportional controller by the amplitude command outputted from the voltage regulation unit to generate the quotient as the output voltage command for the semiconductor switching device. 14. The AC-DC converter according to claim 4 , wherein the output voltage command calculator includes a subtractor that outputs a differential of a constant value relative to the amplitude command outputted from the voltage regulation unit and a multiplier that multiplies the differential outputted from the subtractor with the output of the proportional controller. 15. The AC-DC converter according to claim 5 , wherein the output voltage command calculator is a divider that divides the output of the proportional controller by the amplitude command outputted from the voltage regulation unit to generate the quotient as the output voltage command for the semiconductor switching device. 16. The AC-DC converter according to claim 5 , wherein the output voltage command calculator includes a subtractor that outputs a differential of a constant value relative to the amplitude command outputted from the voltage regulation unit and a multiplier that multiplies the differential outputted from the subtractor with the output of the proportional controller. 17. The AC-DC converter according to claim 6 , wherein the output voltage command calculator is a divider that divides the output of the proportional controller by the amplitude command outputted from the voltage regulation unit to generate the quotient as the output voltage command for the semiconductor switching device. 18. The AC-DC converter according to claim 6 , wherein the output voltage command calculator includes a subtractor that outputs a differential of a constant value relative to the amplitude command outputted from the voltage regulation unit and a multiplier that multiplies the differential outputted from the subtractor with the output of the proportional controller. 19. The AC-DC converter according to claim 1 , further comprising a low-pass filter between the current detector and the proportional controller so that the rectified current, as averaged over one switching cycle of the semiconductor switching device via the low-pass filter, is inputted to the proportional controller. 20. The AC-DC converter according to claim 3 , further comprising a low-pass filter between the current detector and the proportional controller so that the rectified current, as averaged over