Load driver with power storage unit
First Claim
1. A load driver, comprising:
- an AC motor;
a first power supply outputting a first voltage which is a DC voltage;
a second power supply outputting a second voltage which is a DC voltage;
an inverter receiving said first voltage, converting said first voltage into an AC voltage, outputting said AC voltage to said AC motor, and driving said AC motor;
a converter stepping down said first voltage, outputting the step-down voltage to said second power supply and charging said second power supply; and
a control circuit, wherein when said first voltage is lower than a predetermined voltage, said second voltage is supplied to a coil of said AC motor, and said control circuit controls said inverter to step up said second voltage by said coil of said AC motor and said inverter, outputs the step-up voltage to said first power supply and charges said first power supply, and stops said converter,and said AC motor includes a plurality of coils each having one end and the other end, respective one-ends of all of said plurality of coils being connected together to a neutral point of said coils, and said second voltage is supplied to the other end of one of said plurality of coils.
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Accused Products
Abstract
In a load driving arrangement, electric power is supplied from an auxiliary battery to a main power supply when the power stored by charging in the main power supply is scarce at the startup of the system. The power is supplied to the main power supply by closing relays to connect the auxiliary battery to the neutral point of an auxiliary motor, operating a switching transistor of a bottom arm of an auxiliary-related inverter based on a command from a control circuit, stepping up the voltage from the auxiliary battery by using a coil of the auxiliary motor as a reactor, and supplying the step-up voltage to the main power supply thereby charging the main power supply. At this time, a drive-related inverter and a DC/DC converter are stopped. When the main power supply is charged to a sufficient degree, the relays are opened to drive each load. Accordingly, the load driving arrangement achieves the function of charging the main power supply at low cost when the power stored therein is scarce at the system startup.
71 Citations
8 Claims
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1. A load driver, comprising:
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an AC motor;
a first power supply outputting a first voltage which is a DC voltage;
a second power supply outputting a second voltage which is a DC voltage;
an inverter receiving said first voltage, converting said first voltage into an AC voltage, outputting said AC voltage to said AC motor, and driving said AC motor;
a converter stepping down said first voltage, outputting the step-down voltage to said second power supply and charging said second power supply; and
a control circuit, wherein when said first voltage is lower than a predetermined voltage, said second voltage is supplied to a coil of said AC motor, and said control circuit controls said inverter to step up said second voltage by said coil of said AC motor and said inverter, outputs the step-up voltage to said first power supply and charges said first power supply, and stops said converter,and said AC motor includes a plurality of coils each having one end and the other end, respective one-ends of all of said plurality of coils being connected together to a neutral point of said coils, and said second voltage is supplied to the other end of one of said plurality of coils. - View Dependent Claims (2, 3, 4)
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5. A load driver, comprising:
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a first AC motor;
a second AC motor;
a first power supply outputting a first voltage which is a DC voltage;
a second power supply outputting a second voltage which is a DC voltage;
a first inverter receiving said first voltage, converting said first voltage into a first AC voltage, outputting said first AC voltage to said first AC motor, and driving said first AC motor;
a second inverter receiving said first voltage, converting said first voltage into a second AC voltage, outputting said second AC voltage to said second AC motor, and driving said second AC motor;
a converter stepping down said first voltage, outputting the step-down voltage to said second power supply and charging said second power supply; and
a control circuit, wherein when said first voltage is lower than a predetermined voltage, the positive electrode of said second power supply is connected to a coil of said first AC motor, and the negative electrode of said second power supply is connected to a coil of said second AC motor, and said control circuit controls said first inverter to step up said second voltage by said coils of said first and second AC motors and said first and second inverters, outputs the step-up voltage to said first power supply, and charges said first power supply. - View Dependent Claims (6, 7, 8)
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Specification