A power supply apparatus includes: an AC generator including an AC generating section, and a rectifier for rectifying an AC voltage generated in the AC generating section, and outputting a DC voltage; and a DC/DC converter for converting the output voltage of the rectifier into a DC voltage having a
A power supply apparatus includes: an AC generator including an AC generating section, and a rectifier for rectifying an AC voltage generated in the AC generating section, and outputting a DC voltage; and a DC/DC converter for converting the output voltage of the rectifier into a DC voltage having a different voltage value, wherein the output voltage of the rectifier is set to be larger than the output voltage of the DC/DC converter in accordance with the rotation speed of the AC generating section and the amount of power supply to an electrical load connected to the DC/DC converter, and is stepped down and outputted by using the DC/DC converter. The power supply apparatus is capable of increasing an output power efficiently.
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1. A power supply apparatus comprising: an AC generator including an AC generating section, anda rectifier for rectifying an AC voltage generated in the AC generating section into a DC voltage, and outputting the DC voltage; anda DC/DC converter for converting the DC voltage outputted by the rectifi
1. A power supply apparatus comprising: an AC generator including an AC generating section, anda rectifier for rectifying an AC voltage generated in the AC generating section into a DC voltage, and outputting the DC voltage; anda DC/DC converter for converting the DC voltage outputted by the rectifier into a DC voltage having a voltage value different from that of the DC voltage outputted by the rectifier, and outputting the DC voltage that has been converted,wherein the DC/DC converter performs a step-down operation for stepping down the output voltage of the AC generator and performs a shorting operation for shorting the output of the AC generator and the output of the DC/DC converter,wherein, the step-down operation and the shorting operation of the DC/DC converter are switched in accordance with the rotation speed of the AC generating section and the amount of power supply to an electrical load connected to the DC/DC converter. 2. The power supply apparatus according to claim 1, wherein the power supply apparatus detects the DC voltage outputted by the rectifier or the DC voltage outputted by DC/DC converter, adjusts an exciting current in a field winding of the AC generating section, and sets the DC voltage outputted by the rectifier at a predetermined value, thereby controlling the amount of power supply. 3. The power supply apparatus according to claim 2, wherein the AC generator includes a motor generator as the AC generating section which has a function of power running,the AC generator includes an inverter in place of the rectifier, andthe inverter rectifies an AC voltage generated in the motor generator into a DC voltage, and outputs the DC voltage. 4. The power supply apparatus according to claim 1, further comprising a shorting circuit for controlling the amount of power supply, wherein the power supply apparatus detects the DC voltage outputted by the rectifier or the DC voltage outputted by DC/DC converter, andthe shorting circuits shorts or opens output terminals of the AC generating section by switching operation to set the DC voltage outputted by the rectifier at a predetermined value on an average, thereby controlling the amount of power supply. 5. The power supply apparatus according to claim 1, wherein the DC/DC converter includes one or more switching devices for performing ON/OFF control for connection between: input voltage terminals of the DC/DC converter that are connected to the output side of the rectifier; and output voltage terminals of the DC/DC converter that are connected to the electrical load,when the amount of power supply is larger than a predetermined value, the DC/DC converter performs an operation of stepping down the DC voltage outputted by the rectifier by the ON/OFF control of the one or more switching devices, and outputs the DC voltage that has been stepped down, andwhen the amount of power supply is smaller than the predetermined value, the DC/DC converter stops the operation of stepping down performed by the ON/OFF control of the one or more switching devices, and outputs the DC voltage outputted by the rectifier. 6. The power supply apparatus according to claim 5, wherein the DC/DC converter includes an inductor, the storage amount or the discharge amount of the magnetic energy of the inductor being controlled in accordance with time intervals based on the ON/OFF control of the one or more switching devices. 7. The power supply apparatus according to claim 5, wherein the DC/DC converter includes one or more capacitors for energy transfer which transfer energy by charge and discharge based on the ON/OFF control of the one or more switching devices. 8. The power supply apparatus according to claim 7, wherein the DC/DC converter includes, between: the input voltage terminals; and the output voltage terminals, a plurality of circuits each of which includes: as the one or more switching devices, a series unit having a high-voltage-side switching device and a low-voltage-side switching device connected in series to each other; and a smoothing capacitor connected in parallel to the series unit,at least one of the plurality of circuits is used as a rectification circuit, the other of the plurality of circuits are used as driving inverter circuits, and the plurality of circuits are connected in series to each other, anda connection point between the high-voltage-side switching device and the low-voltage-side switching device in each of the plurality of circuits is set as an intermediate terminal, and the one or more capacitors for energy transfer are provided between the intermediate terminals of the plurality of circuits. 9. The power supply apparatus according to claim 8, wherein in the DC/DC converter, the smoothing capacitor included in the driving inverter circuit connected to a high-voltage-side one of the input voltage terminals is removed, and a smoothing capacitor is connected to the input voltage terminals. 10. The power supply apparatus according to claim 8, wherein each of the one or more capacitors for energy transfer is connected to the intermediate terminal of the rectification circuit, and the corresponding one of the intermediate terminals of the driving inverter circuits. 11. The power supply apparatus according to claim 8, wherein each of the one or more capacitors for energy transfer is connected to the intermediate terminals of the corresponding circuits of the plurality of circuits that are adjacent to each other. 12. The power supply apparatus according to claim 8, wherein the DC/DC converter includes the one rectification circuit, the one driving inverter circuit, and a switching circuit including a series unit having a high-voltage-side switching device and a low-voltage-side switching device connected in series to each other, anda low-voltage-side terminal of the smoothing capacitor included in the one driving inverter circuit is connected to a connection point between the high-voltage-side switching device and the low-voltage-side switching device in the switching circuit. 13. The power supply apparatus according to claim 12, wherein the DC/DC converter turns ON the high-voltage-side switching device of the switching circuit and turns OFF the low-voltage-side switching device of the switching circuit, when the DC/DC converter steps down the DC voltage outputted by the rectifier and outputs the DC voltage that has been stepped down, andthe DC/DC converter turns ON the low-voltage-side switching device of the switching circuit and turns OFF the high-voltage-side switching device of the switching circuit, when the DC/DC converter directly outputs the DC voltage outputted by the rectifier without stepping down the DC voltage. 14. The power supply apparatus according to claim 8, wherein the DC/DC converter includes one or more inductors on respective paths through which the one or more capacitors for energy transfer charge or discharge. 15. The power supply apparatus according to claim 14, wherein resonance periods determined by the capacitances of the respective capacitors for energy transfer and the inductances of the respective inductors are set to be equal to each other. 16. The power supply apparatus according to claim 8, wherein the DC/DC converter includes switching circuits for controlling connection or disconnection between each of high-voltage-side terminals of the plurality of circuits of the DC/DC converter, and the high-voltage-side one of the input voltage terminals. 17. The power supply apparatus according to claim 5, wherein the switching device is a power MOSFET having a parasitic diode formed between a source and a drain thereof, or is inverse-parallel diodes.
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이 특허에 인용된 특허 (9)
Yao, Yuan; Vlacic, Borka; Li, Mong-Hang; Ha, Manuel, Control system for regulating exciter power for a brushless synchronous generator.
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