Propulsion control apparatus of engine hybrid railroad vehicle
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B61D-043/00
B60L-011/08
B60L-011/12
B60L-003/00
F02D-029/06
출원번호
US-0420674
(2012-08-13)
등록번호
US-9346363
(2016-05-24)
국제출원번호
PCT/JP2012/070632
(2012-08-13)
§371/§102 date
20150210
(20150210)
국제공개번호
WO2014/027396
(2014-02-20)
발명자
/ 주소
Hatanaka, Keita
출원인 / 주소
MITSUBISHI ELECTRIC CORPORATION
대리인 / 주소
Buchanan Ingersoll & Rooney PC
인용정보
피인용 횟수 :
0인용 특허 :
22
초록▼
A first power converter connected to a plurality of motors is configured to operate as a DC/AC converter or an AC/DC converter. A second power converter connected to a generator is configured to operate as a DC/AC converter or the AC/DC converter. A control device is configured to cause the first po
A first power converter connected to a plurality of motors is configured to operate as a DC/AC converter or an AC/DC converter. A second power converter connected to a generator is configured to operate as a DC/AC converter or the AC/DC converter. A control device is configured to cause the first power converter to supply alternating-current power from the first power converter to at least one motor among the motors and cause the second power converter to supply alternating-current power from the second power converter to a motor other than the motor to which the alternating-current power from the first power converter is supplied.
대표청구항▼
1. A propulsion control apparatus of an engine hybrid railroad vehicle comprising: a generator driven by an engine;a power storage device functioning as a direct-current-power supply source configured to be connectable to a direct-current common section;first and second power converters each of whic
1. A propulsion control apparatus of an engine hybrid railroad vehicle comprising: a generator driven by an engine;a power storage device functioning as a direct-current-power supply source configured to be connectable to a direct-current common section;first and second power converters each of which is configured to be connectable to the direct-current common section, when direct-current power from the direct-current common section is input from a first input/output end side, operates as a DC/AC converter to output desired alternating-current power from a second input/output end side different from the first input/output end, and, when alternating-current power is input from the second input/output end side, operates as an AC/DC converter to output desired direct-current power from the first input/output end side;a plurality of motors divided into a first motor configured to be drivable by both of the first and second power converters and a second motor configured to be drivable only by the first power converter;a group of switches that switches an electric connection destination of the generator from the second input/output end side of the second power converter to the second input/output end side of the first power converter or switches an electric connection destination of the first motor from the second input/output end side of the first power converter to the second input/output end side of the second power converter; anda control unit that controls operations of the first power converter, the second power converter, and the group of switches according to operation forms of the first and second power converters. 2. The propulsion control apparatus of the engine hybrid railroad vehicle according to claim 1, wherein, when the first power converter is broken down, if a state of charge of the power storage device is lower than a predetermined value, the control unit causes the second power converter to operate as a DC/AC converter and supply alternating-current power from the second power converter to the generator and, after the engine starts, causes the second power converter to operate as an AC/DC converter and supply direct-current from the second power converter to the power storage device and, if the state of charge of the power storage device is higher than the predetermined value, the control unit causes the second power converter to operate as a DC/AC converter and supply alternating-current power from the second power converter to the first motor. 3. The propulsion control apparatus of the engine hybrid railroad vehicle according to claim 2, wherein the generator is divided into a first generator and a second generator respectively driven by a first engine and a second engine,the propulsion control apparatus includes a third power converter that is configured to be connectable to the direct-current common section and, when direct-current power from the direct-current common section is input from a first input/output end side, operates as a DC/AC converter, outputs desired alternating-current power from a second input/output end side different from the first input/output end, and supplies the desired alternating-current power to the second generator, and, when alternating-current power from the second generator is input from the second input/output end side, operates as an AC/DC converter and outputs desired direct-current power from the first input/output end side, andwhen the first power converter is broken down, the control unit causes the third power converter to operate as a DC/AC converter and supply alternating-current power from the third power converter to the second generator and, after the generator starts, causes the third power converter to operate as an AC/DC converter and supply direct-current power from the third power converter to the direct-current common section. 4. The propulsion control apparatus of the engine hybrid railroad vehicle according to claim 1, wherein, when the second power converter is broken down, if a state of charge of the power storage device is lower than a predetermined value, the control unit causes the first power converter to operate as a DC/AC converter and supply alternating-current power from the first power converter to the generator and, after the engine starts, causes the first power converter to operate as an AC/DC converter and supply direct-current from the first power converter to the power storage device and, if the state of charge of the power storage device is higher than the predetermined value, the control unit causes the first power converter to operate as a DC/AC converter and supply alternating-current power from the first power converter to the first motor. 5. The propulsion control apparatus of the engine hybrid railroad vehicle according to claim 4, wherein the generator is divided into a first generator and a second generator respectively driven by a first engine and a second engine,the propulsion control apparatus includes a third power converter that is configured to be connectable to the direct-current common section and, when direct-current power from the direct-current common section is input from a first input/output end side, operates as a DC/AC converter, outputs desired alternating-current power from a second input/output end side different from the first input/output end, and supplies the desired alternating-current power to the second generator, and, when alternating-current power from the second generator is input from the second input/output end side, operates as an AC/DC converter and outputs desired direct-current power from the first input/output end side, andwhen the second power converter is broken down, if the state of charge of the power storage device is lower than the predetermined value, the control unit causes the third power converter to operate as a DC/AC converter and supply alternating-current power from the third power converter to the second generator and, after the engine starts, causes the third power converter to operate as an AC/DC converter and supply direct-current from the third power converter to the direct-current common section. 6. A propulsion control apparatus of an engine hybrid railroad vehicle comprising: a generator driven by an engine;a power storage device functioning as a direct-current-power supply source configured to be connectable to a direct-current common section;first and second power converters each of which is configured to be connectable to the direct-current common section, when direct-current power from the direct-current common section is input from a first input/output end side, operates as a DC/AC converter to output desired alternating-current power from a second input/output end side different from the first input/output end, and, when alternating-current power is input from the second input/output end side, operates as an AC/DC converter to output desired direct-current power from the first input/output end side;a motor configured to be drivable by both of the first and second power converters;a group of switches that switches an electric connection destination of the generator from the second input/output end side of the second power converter to the second input/output end side of the first power converter or switches an electric connection destination of the motor from the second input/output end side of the first power converter to the second input/output end side of the second power converter; anda control unit that controls operations of the first power converter, the second power converter, and the group of switches according to operation forms of the first and second power converters.
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이 특허에 인용된 특허 (22)
Porche Michael N. (Houston TX) Beauregard Louis G. (Stafford TX), Closed loop power factor control for power supply systems.
Grayer William (15720 Ventura Blvd. ; #411 Encino CA 91436) Olson William R. (1196 Mellow La. Simi Valley CA 93065) Rosen Harold A. (14629 Hilltree Rd. Santa Monica CA 90402), Electric power train control.
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