Electric power generating system with boost converter/synchronous active filter
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02P-011/04
H02P-009/00
출원번호
US-0834371
(2010-07-12)
등록번호
US-8378641
(2013-02-19)
발명자
/ 주소
Rozman, Gregory I.
Moss, Steven J.
출원인 / 주소
Hamilton Sundstrand Corporation
인용정보
피인용 횟수 :
7인용 특허 :
7
초록▼
A method of startup of an electric start electrical power generating system (EPGS) is provided. The EPGS includes a generator configured to power a direct current (DC) load via a DC bus. The method includes: disconnecting the DC load from the DC bus; connecting a battery to a boost converter, the bo
A method of startup of an electric start electrical power generating system (EPGS) is provided. The EPGS includes a generator configured to power a direct current (DC) load via a DC bus. The method includes: disconnecting the DC load from the DC bus; connecting a battery to a boost converter, the boost converter being connected to the generator; powering the generator using the battery via the boost converter; when the generator reaches a minimum speed: disconnecting the battery from the boost converter; deactivating the boost converter; and activating a synchronous active filter, the synchronous active filter being connected to the DC bus; bringing up a voltage on the DC bus by the generator; and when the voltage on the DC bus reaches a predetermined level, connecting the DC load to the DC bus.
대표청구항▼
1. A method of startup of an electric start electrical power generating system (EPGS), the EPGS comprising a generator configured to power a direct current (DC) load via a DC bus, the method comprising: disconnecting the DC load from the DC bus;connecting a battery to a boost converter, the boost co
1. A method of startup of an electric start electrical power generating system (EPGS), the EPGS comprising a generator configured to power a direct current (DC) load via a DC bus, the method comprising: disconnecting the DC load from the DC bus;connecting a battery to a boost converter, the boost converter being connected to the generator;powering the generator using the battery via the boost converter, wherein powering the generator using the battery via the boost converter further comprises a start inverter connected between the boost converter and the generator;when the generator reaches a minimum speed: disconnecting the battery from the boost converter;deactivating the boost converter;activating a synchronous active filter, the synchronous active filter being connected to the DC bus; andconverting the start inverter into a rectifier when the generator reaches the minimum speed, wherein the rectifier is connected between the generator and the DC bus;bringing up a voltage on the DC bus by the generator; andwhen the voltage on the DC bus reaches a predetermined level, connecting the DC load to the DC bus. 2. The method of claim 1, wherein the boost converter and the synchronous active filter comprise a reconfigurable power converter. 3. The method of claim 2, wherein activating the synchronous active filter comprises turning off at least one switch of the reconfigurable power converter. 4. The method of claim 1, wherein converting the start inverter into the rectifier comprises turning off at least one switch of the start inverter. 5. The method of claim 1, wherein the generator comprises a wound field generator, and powering the generator using the battery via the boost converter further comprises an exciter inverter connected between the boost converter and an exciter field winding of the generator. 6. The method of claim 5, further comprising when the generator reaches the minimum speed, converting the exciter inverter to a DC exciter by turning off at least one switch of the exciter inverter and disabling a phase leg of the exciter field winding. 7. The method of claim 6, wherein bringing up a voltage on the DC bus by the generator comprises bringing up the voltage by the exciter field winding and the DC exciter. 8. The method of claim 5, wherein the boost converter comprises a buck/boost converter, the buck/boost converter being connected between the exciter inverter and the DC bus, and wherein deactivating the boost converter comprises operating the buck/boost converter in buck mode. 9. An electrical power generating system (EPGS), comprising: a generator connected to a direct current (DC) bus;a boost converter connected to the generator;a battery, the battery configured to power the generator during startup via the boost converter, wherein when the generator reaches a minimum speed, the battery is configured to be disconnected from the boost converter;a start inverter connected between the boost converter and the generator wherein the start inverter is configured to be converted into a rectifier when the generator reaches the minimum speed, and wherein the rectifier is connected between the generator and the DC bus; anda synchronous active filter (SAF), the SAF being connected to the DC bus;wherein when a voltage on the DC bus is brought up to a predetermined level by the generator, the generator is configured to power a DC load, the boost converter is configured to be deactivated, and the SAF is configured to be activated. 10. The EPGS of claim 9, wherein the boost converter and the synchronous active filter comprise a reconfigurable power converter. 11. The EPGS of claim 10, wherein the synchronous active filter is activated by turning off at least one switch of the reconfigurable power converter. 12. The EPGS of claim 9, wherein the start inverter is configured to be converted into the rectifier by turning off at least one switch of the start inverter. 13. The EPGS of claim 9, wherein the generator comprises a wound field generator, and further comprising an exciter inverter connected between the boost converter and an exciter field winding of the generator. 14. The EPGS of claim 13, wherein the exciter inverter is configured to be converted to a DC exciter by turning off one phase leg of the exciter inverter and disabling a phase leg of the exciter field winding when the generator reaches the minimum speed. 15. The EPGS of claim 14, wherein the voltage on the DC bus is brought up to the predetermined level by the exciter field winding and the DC exciter. 16. The EPGS of claim 13, wherein the boost converter comprises a buck/boost converter, the buck/boost converter being connected to the exciter inverter and the DC bus, and wherein the boost converter is configured to be deactivated by operating the buck/boost converter in buck mode. 17. A method of startup of an electric start electrical power generating system (EPGS), the EPGS comprising a generator configured to power a direct current (DC) load via a DC bus, the method comprising: disconnecting the DC load from the DC bus;connecting a battery to a boost converter, the boost converter being connected to the generator;powering the generator using the battery via the boost converter, wherein the generator comprises a wound field generator, and powering the generator using the battery via the boost converter further comprises an exciter inverter connected between the boost converter and an exciter field winding of the generator;when the generator reaches a minimum speed: disconnecting the battery from the boost converter;deactivating the boost converter;activating a synchronous active filter, the synchronous active filter being connected to the DC bus; andconverting the exciter inverter to a DC exciter by turning off at least one switch of the exciter inverter and disabling a phase leg of the exciter field winding;bringing up a voltage on the DC bus by the generator; andwhen the voltage on the DC bus reaches a predetermined level, connecting the DC load to the DC bus.
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