Control method for direct power converter

The invention claimed is: 1. A method for controlling a direct power converter, said direct power converter comprising: a first power supply line; a second power supply line which is applied with a potential lower than said first power supply line is applied; a converter including an input side connected with a single-phase AC power supply and an output side connected with said first power supply line and said second power supply line, and performing single-phase full-wave rectification; a charge and discharge circuit located between said first power supply line and said second power supply line; and an inverter that converts a DC voltage between said first power supply line and said second power supply line into an AC voltage, said charge and discharge circuit comprising a buffer circuit including a capacitor and a first switch connected in series with said capacitor at a side close to said first power supply line between said first power supply line and said second power supply line, and providing and receiving power between said first power supply line and said second power supply line, and a boost circuit that boosts a rectified voltage from said converter to charge said capacitor, said buffer circuit providing power to said first power supply line and said second power supply line in a first period in which a cosine value to a value of twice a phase angle of an AC waveform output from said single-phase AC power supply is positive when the AC waveform is regarded as a sine value of the phase angle; receiving power from said first power supply line and said second power supply line in a second period in which said cosine value is negative, said converter being conductive at a rectifying duty, said rectifying duty taking a value of √{square root over (2)}-times an absolute value of said sine value in said first period, said method comprising a step of: determining power input to said inverter as a product of an absolute value of an input current input to said converter at a boundary between said first period and said second period, an effective value of an AC voltage of said single-phase AC power supply, and a value obtained by subtracting, from one, a value obtained by multiplying said cosine value by a positive constant less than one. 2. The method for controlling a direct power converter according to claim 1 , wherein said rectifying duty takes an inverse number of the value of √{square root over (2)}-times the absolute value of said sine value in said second period, said method further comprising a step of: rendering said first switch conductive to discharge said capacitor in said first period at a discharge duty taking a value obtained by dividing, by √{square root over (2)}, product of said cosine value and a value obtained by dividing a crest value of the AC voltage of said single-phase AC power supply by a both-end voltage of said capacitor. 3. The method for controlling a direct power converter according to claim 1 , wherein said rectifying duty takes a value 1 in said second period, said method further comprising a step of: rendering said first switch conductive to discharge said capacitor in said first period at a discharge duty taking a product of said cosine value and a value obtained by dividing a crest value of the AC voltage of said single-phase AC power supply by a both-end voltage of said capacitor. 4. The method for controlling a direct power converter according to claim 1 , wherein said boost circuit comprises: a diode including an anode and a cathode that is connected between said first switch and said capacitor; a reactor connected between said first power supply line and said anode, through which a current input to said boost circuit flows; and a second switch connected between said second power supply line and said anode, said method further comprising a step of: controlling said second switch of said boost circuit to control a current flowing through said reactor in said second period. 5. The method for controlling a direct power converter according to claim 2 , wherein said boost circuit comprises: a diode including an anode and a cathode that is connected between said first switch and said capacitor; a reactor connected between said first power supply line and said anode, through which a current input to said boost circuit flows; and a second switch connected between said second power supply line and said anode, said method further comprising a step of: controlling said second switch of said boost circuit to control a current flowing through said reactor in said second period. 6. The method for controlling a direct power converter according to claim 3 , wherein said boost circuit comprises: a diode including an anode and a cathode that is connected between said first switch and said capacitor; a reactor connected between said first power supply line and said anode, through which a current input to said boost circuit flows; and a second switch connected between said second power supply line and said anode, said method further comprising a step of: controlling said second switch of said boost circuit to control a current flowing through said reactor in said second period.