Direct AC power conversion device

The invention claimed is: 1. A direct AC power converter comprising: a DC link having a first power supply line and a second power supply line, an electric potential lower than an electric potential of said first power supply line being applied to said second power supply line; a first rectifying circuit having a plurality of input terminals that input an AC voltage and a pair of output terminals, each of which is connected to said DC link; an inverter that converts a voltage applied to said DC link into another AC voltage; a boost chopper having a capacitor at an output stage; and a switch that switches discharge and non-discharge from said capacitor to said DC link, wherein in said boost chopper, charge into said capacitor is performed at least at a first period being a part of a period during which a discharge duty as a time ratio of continuity of said switch is larger than 0. 2. The direct AC power converter according to claim 1 , wherein said capacitor is charged in said boost chopper at said first period and a part or an entire of the period during which said discharge duty is 0. 3. The direct AC power converter according to claim 2 , wherein said capacitor is charged by a charge power and discharged by a discharge power at said first period, and said first period has a period during which said charge power is larger than said discharge power, and a period during which said discharge power is larger than said charge power. 4. The direct AC power converter according to claim 1 , wherein a virtual DC link voltage represented by a sum of a product of said discharge duty and a voltage between both ends of said capacitor and a product of a rectifying duty and a rectified voltage of said AC voltage is larger than 1/√2 times said rectified voltage, said rectifying duty takes a value obtained by subtracting a sum of said discharge duty and a zero voltage duty from 1, said zero voltage duty is a time ratio for said inverter to take on a zero voltage vector regardless a magnitude of a voltage output from said inverter. 5. The direct AC power converter according to claim 2 , wherein a virtual DC link voltage represented by a sum of a product of said discharge duty and a voltage between both ends of said capacitor and a product of a rectifying duty and a rectified voltage of said AC voltage is larger than 1/√2 times said rectified voltage, said rectifying duty takes a value obtained by subtracting a sum of said discharge duty and a zero voltage duty from 1, said zero voltage duty is a time ratio for said inverter to take a zero voltage vector regardless a magnitude of a voltage output from said inverter. 6. The direct AC power converter according to claim 4 , wherein said discharge duty that makes said zero voltage duty minimum is set based on a command value of a rectified current being a sum of an electric current flowing in said boost chopper and an electric current flowing from said first rectifying circuit to said inverter, a command value of said virtual DC link voltage, the voltage between both ends of said capacitor, said rectified voltage, and an electric current to be input into said inverter. 7. The direct AC power converter according to claim 5 , wherein said discharge duty that makes said zero voltage duty minimum is set based on a command value of a rectified current being a sum of an electric current flowing in said boost chopper and an electric current flowing from said first rectifying circuit to said inverter, a command value of said virtual DC link voltage, the voltage between both ends of said capacitor, said rectified voltage, and an electric current to be input into said inverter. 8. The direct AC power converter according to claim 6 , wherein when said virtual DC link voltage is larger than said rectified voltage and said command value of said rectified current is a predetermined value or more, said rectifying duty takes said-a second predetermined value, and said discharge duty takes a value obtained by subtracting said second predetermined value from 1, said second predetermined value is a value obtained by dividing a value obtained by subtracting said voltage between both ends of said capacitor from said command value of a virtual DC link voltage by a value obtained by subtracting said voltage between both ends from said rectified voltage. 9. The direct AC power converter according to claim 7 , wherein when said virtual DC link voltage is larger than said rectified voltage and said command value of said rectified current is a predetermined value or more, said rectifying duty takes said a second predetermined value, and said discharge duty takes a value obtained by subtracting said second predetermined value from 1, and said second predetermined value is a value obtained by dividing a value obtained by subtracting said voltage between both ends of said capacitor from said command value of a virtual DC link voltage by a value obtained by subtracting said voltage between both ends from said rectified voltage. 10. The direct AC power converter according to claim 1 , further comprising a second rectifying circuit for inputting a rectified voltage of said AC voltage into said boost chopper. 11. The direct AC power converter according to claim 2 , further comprising a second rectifying circuit for inputting a rectified voltage of said AC voltage into said boost chopper. 12. The direct AC power converter according to claim 1 , wherein said pair of output terminals of said first rectifying circuit is connected to an input side of said boost chopper. 13. The direct AC power converter according to claim 2 , wherein said pair of output terminals of said first rectifying circuit is connected to an input side of said boost chopper. 14. The direct AC power converter according to claim 1 , wherein said discharge duty is always positive. 15. The direct AC power converter according to claim 1 , further comprising: a diode connected in parallel with said switch, said diode making a direction of charging said capacitor from said DC link being a forward direction. 16. The direct AC power converter according to claim 2 , further comprising: a diode connected in parallel with said switch, said diode making a direction of charging said capacitor from said DC link being a forward direction. 17. The direct AC power converter according to claim 3 , wherein a virtual DC link voltage represented by a sum of a product of said discharge duty and a voltage between both ends of said capacitor and a product of a rectifying duty and a rectified voltage of said AC voltage is larger than 1/√2 times said rectified voltage, said rectifying duty takes a value obtained by subtracting a sum of said discharge duty and a zero voltage duty from 1, said zero voltage duty is a time ratio for said inverter to take on a zero voltage vector regardless a magnitude of a voltage output from said inverter. 18. The direct AC power converter according to claim 17 , wherein said discharge duty that makes said zero voltage duty minimum is set based on a command value of a rectified current being a sum of an electric current flowing in said boost chopper and an electric current flowing from said first rectifying circuit to said inverter, a command value of said virtual DC link voltage, the voltage between both ends of said capacitor, said rectified voltage, and an electric current to be input into said inverter. 19. The direct AC power converter according to claim 18 , wherein when said virtual DC link voltage is larger than said rectifie