A power supply apparatus for a vehicle supplies/charges electric power to/from a power supply unit. The vehicle includes a first power-inverter circuit, a capacitor, high-resistance and low-resistance electric-paths between the capacitor and a battery, a first switching unit opening/closing the elec
A power supply apparatus for a vehicle supplies/charges electric power to/from a power supply unit. The vehicle includes a first power-inverter circuit, a capacitor, high-resistance and low-resistance electric-paths between the capacitor and a battery, a first switching unit opening/closing the electric-paths, and a unit operating the first switching unit, when connecting between the battery and the first power-inverter circuit, in such a manner that after the high-resistance electric path is closed and the low-resistance electric path is opened, the high-resistance electric-path is opened and the low-resistance electric-path is closed. The apparatus includes an electric power transferring electric-path, an operating unit operating the first power-inverter circuit to supply/receive electric power to/from the power supply unit, and a prohibiting unit prohibiting the electric-path between the power supply unit and the first power-inverter circuit from closing when the amount of charge of the capacitor is equal to or less than a predetermined value.
대표청구항▼
1. A power supply apparatus for a vehicle which supplies electric power to a power supply unit and charges electric power from the power supply unit to a battery of the vehicle via a power port, wherein the vehicle includes a first power inverter circuit which supplies electric power to a load and r
1. A power supply apparatus for a vehicle which supplies electric power to a power supply unit and charges electric power from the power supply unit to a battery of the vehicle via a power port, wherein the vehicle includes a first power inverter circuit which supplies electric power to a load and receives electric power from the load, a capacitor which is connected to the first power inverter circuit, a high-resistance electric path and a low-resistance electric path which electrically connect between the capacitor and the battery and whose resistance values are different from each other, a first switching unit which opens/closes the high-resistance electric path and the low-resistance electric path, and a unit which operates the first switching, unit, when connecting between the battery and the first power inverter circuit, in such a manner that after a first state is maintained in which the high-resistance electric path is closed and the low-resistance electric path is opened, a second state is maintained in which the high-resistance electric path is opened and the low-resistance electric path is closed, comprising:an electric power transferring electric path arranged to connect the power port to the first power inverter circuit;an operating unit configured to operate the first power inverter circuit to supply electric power to the power supply unit and receive electric power from the power supply unit;a prohibiting unit configured to prohibit the electric path between the power supply unit and the first power inverter circuit from closing in response to the amount of charge of the capacitor being equal to or less than a predetermined value; anda unit configured to measure voltage across the capacitor,the prohibiting unit being configured to determine that the amount of charge is equal to or less than the predetermined value in response to the measured voltage being equal to or less than a threshold value. 2. The power supply apparatus according to claim 1, further comprising a preprocessing unit which supplies electrical energy of the battery to the capacitor via the high-resistance electric path before the electric path between the power supply unit and the first power inverter circuit is closed. 3. The power supply apparatus according to claim 2, further comprising a second switching unit which opens and closes the electric power transferring electric path, whereinthe prohibiting unit closes the second switching unit after the electrical energy of the battery is supplied to the capacitor by the preprocessing unit. 4. The power supply apparatus according to claim 1, wherein the vehicle further includes a rotating machine which is mechanically coupled to drive wheels, and a second power inverter circuit which is operated to control power applied to the drive wheels by the rotating machine, andthe first power inverter circuit is interposed between the battery and an auxiliary unit which is an in-vehicle electric load other than the rotating machine. 5. The power supply apparatus according to claim 4, wherein the battery is connected to input terminals of the second power inverter circuit. 6. The power supply apparatus according to claim 1, wherein the prohibiting unit is configured to determine that the amount of charge is less than the predetermined value in response to the measured voltage being less than the threshold value, andthe prohibiting unit is configured to prohibit the electric path from connecting the power port to the first power inverter circuit in response to the amount of charge of the capacitor being less than the predetermined value.
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