Permanent magnet generator protection scheme
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0505739
(2006-08-17)
|
등록번호 |
US-7663849
(2010-04-04)
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발명자
/ 주소 |
- Shah, Mahesh J.
- Ng, Chai-Nam
- Seffernick, George
|
출원인 / 주소 |
- Hamilton Sundstrand Corporation
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
9 |
초록
▼
A fault protection system provides fault protection to a permanent magnet (PM) generator. The fault protection system includes one or more overload and short-circuit protection circuits, an unbalanced protection circuit and a thermal protection circuit. The overload and short-circuit protection circ
A fault protection system provides fault protection to a permanent magnet (PM) generator. The fault protection system includes one or more overload and short-circuit protection circuits, an unbalanced protection circuit and a thermal protection circuit. The overload and short-circuit protection circuit detects both overload and short-circuit conditions by monitoring current and voltage generated at a single phase by the PM generator. The unbalanced protection circuit monitors and compares current and voltage generated associated with at least two individual phases to determine unbalanced conditions between the phases. The thermal protection circuit detects a thermal overload condition by monitoring the temperature of the PM generator. If the overload and short circuit protection circuit, the unbalanced protection circuit, or the thermal protection circuit detects a fault signal, a control circuit causes a control device to reduce or prevent mechanical power from being supplied to the PM generator, preventing the PM generator from generating power and protecting it from damage.
대표청구항
▼
The invention claimed is: 1. A fault protection system for use with a permanent magnet (PM) generator, the fault protection system comprising: a monitoring device for monitoring a first signal corresponding to a first phase of power generated by the PM generator and a second signal corresponding to
The invention claimed is: 1. A fault protection system for use with a permanent magnet (PM) generator, the fault protection system comprising: a monitoring device for monitoring a first signal corresponding to a first phase of power generated by the PM generator and a second signal corresponding to a second phases of power generated by the PM generator, the first signal and the second signal each being a function of at least one of current and voltage; overload and short-circuit protection means for detecting an overload or short-circuit fault condition based on the first signal and for generating a first fault condition signal if an overload or short-circuit fault condition is detected; unbalanced protection means for detecting an unbalanced condition based on the first signal and the second signal and for generating a second fault condition signal if an unbalanced fault condition is detected; and control means for controlling mechanical power provided to the PM generator as a function of the first fault condition signal and second fault condition signal. 2. The fault protection system of claim 1, further including: a thermal sensor for monitoring a temperature of the PM generator; thermal overload protection means for detecting the presence of a thermal overload condition based on the monitored temperature and for providing a third fault condition signal based on the detected thermal condition; and wherein the control means further controls the mechanical power as a function of the third fault condition signal. 3. The fault protection system of claim 1, wherein the overload and short-circuit protection means includes: level detecting means for comparing the first signal to a set value to generate a fault level signal; and decisional logic means for generating the first fault condition signal based on the fault level signal and at a time based on magnitude and duration of the first fault level signal. 4. The fault protection system of claim 1, wherein the unbalanced fault detection means includes: first comparing means for comparing the first signal monitored with respect to the first phase of power with the second signal monitored with respect to the second phase of power to generate a first difference signal; and first level detecting means for generating a first fault level signal based on the first difference signal. 5. The fault protection system of claim 4, wherein the means for detecting an unbalanced condition further includes: second comparing means for comparing the second signal monitored with respect to the second phase of power with a third signal monitored with respect to a third phase of power to generate a second difference signal; second level detecting means for generating a second fault level signal based on the second difference signal; and combination means for generating the second fault condition signal based on the first fault level signal and the second fault level signal. 6. The fault protection system of claim 1, wherein the overload and short-circuit fault detection means and unbalanced fault detection means are implemented with a digital processor. 7. The fault protection system of claim 1, wherein the control means includes a flow valve that decreases mechanical power provided to the PM generator when closed. 8. The fault protection system of claim 1, wherein the control means includes a clutch that is controlled to reduce mechanical energy being provided to the PM generator. 9. A method of providing fault protection for a permanent magnet (PM) generator, the method comprising: monitoring at least one signal generated at each phase of the PM generator, the signal being a function of at least one of current and voltage; detecting presence of overload or short-circuit conditions based on a first signal monitored with respect to a first phase of power; detecting presence of unbalanced conditions based on a comparison of the first signal monitored with respect to the first phase of power with a second signal monitored with respect to a second phase of power; and controlling mechanical power to the PM generator based on detected presence of an overload or short-circuit condition or an unbalanced condition. 10. The method of claim 9, further including: monitoring temperature of the PM generator using a thermal sensor; and detecting the presence of a thermal overload condition based on the monitored temperature; and controlling mechanical power to the PM generator based in further part on the detected presence of a thermal overload condition. 11. The method of claim 9, wherein detecting the presence of overload or short-circuit conditions includes: generating a fault level signal based on a comparison between the first signal monitored with respect to a first phase of power and a set value representing normal conditions; and generating a fault condition signal based on the fault level signal, wherein the fault condition signal is generated at a time that is dependent on the magnitude of the fault level signal. 12. The method of claim 9, wherein detecting the presence of unbalanced conditions includes: comparing the first signal monitored with respect to the first phase of power with the second signal monitored with respect to the second phase of power; and generating a first fault level signal based on the comparison between the first signal and the second signal. 13. The method of claim 12, wherein detecting the presence of unbalanced conditions further includes: comparing the second signal monitored with respect to the second phase of power with a third signal monitored with respect to a third phase of power; generating a second fault level signal based on the comparison between the second signal and the third signal; and generating a fault condition signal based on the first fault level signal and the second fault level signal. 14. A fault protection system for use with a permanent magnet (PM) generator, the fault protection system comprising: a monitoring device for monitoring at least one signal generated at each phase of the PM generator, the signal being a function of at least one of current and voltage; an overload and short-circuit protection circuit for detecting the presence of overload or short-circuit conditions based on a first signal provided with respect to the first phase of power and generating a first fault condition signal based on the detected overload or short-circuit conditions; an unbalanced protection circuit for detecting the presence of unbalanced conditions based on a comparison of the first signal provided with respect to the first phase of power with a second signal provided with respect to a second phase of power and generating a second fault condition signal based on a detected unbalanced condition; a thermal sensor for monitoring a temperature of the PM generator; a thermal protection circuit for detecting the presence of a thermal overload condition based on the monitored temperature associated with the PM generator and providing a third fault condition signal based on the detected thermal condition; a control device for controlling delivery of mechanical power to the PM generator based on a control signal; and a control circuit for providing the control signal to the control device based on the first fault condition signal, the second fault condition signal, and the third fault condition signal. 15. The fault protection system of claim 14, wherein the overload and short-circuit protection circuit includes: a level detector circuit that generates a fault level signal based on a comparison between the first signal and a set value; and a decisional logic and timer circuit that generates the first fault condition signal based on the fault level signal, wherein the decisional logic and timer circuit generates the first fault condition signal at a time that is dependent on the magnitude of the fault level signal. 16. The fault protection system of claim 14, wherein the unbalanced protection circuit includes: a first comparator circuit that compares the first signal with the second signal to generate a first difference signal; and a first level detector circuit that generates a first fault level signal based on the first difference signal provided by the first comparator circuit. 17. The fault protection system of claim 16, wherein the unbalanced protection circuit further includes: a second comparator circuit that compares the first signal with a third signal provided with respect to a third phase of power to generate a second difference signal; and a second level detector circuit that generates a second fault level signal based on the second difference signal provided by the second comparator circuit; and a combination circuit that generates the second fault condition signal based on the first fault level signal and the second fault level signal. 18. The fault protection system of claim 14, wherein the overload and short-circuit protection circuit, unbalanced protection circuit, thermal protection circuit, and control circuit is implemented by a digital processor. 19. The fault protection system of claim 14, wherein the control device comprises a flow valve that controls mechanical power provided to the PM generator based on the control signal provided by the control circuit. 20. The fault protection system of claim 14, wherein the control device comprises a clutch that controls mechanical power provided to the PM generator based on the control signal provided by the control circuit.
이 특허에 인용된 특허 (9)
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Schultz Mark H. (Shoreview MN), Electrical generator damage protection apparatus and method with circuit breaker trip initiation.
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Schultz, Mark H; Pehling, Jon, Engine generator set systems and methods providing load power fault protection.
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Maddali, Vijay, Excessive voltage protector for a variable frequency generating system.
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Seffernick George H. ; Shah Mahesh J. ; Maltby Barry L., Hydraulically driven low reactance, large air gap permanent magnet generator and voltage regulation system for use ther.
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Eaton, Zane C.; Kaura, Vikram; Van Maaren, Richard D.; Dorn, Douglas W., Method and apparatus for preventing excessive heat generation in a alternator of a generator set.
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Kouba Carroll C. (Fort Shawnee OH), Permanent magnet generator system.
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Glennon Timothy F. (Rockford IL) Olson Raymond N. (Rockford IL) Straznickas Donald A. (Rockford IL), Permanent magnet generator with fault detection.
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Schweitzer ; III Edmund O. ; Roberts Jeffrey B., Protection quality capability for protective relays used in an electric power system.
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Glaudel ; Stephen P. ; Chambers ; Norman T., Turbine-generator protection system with electronic sampling filter.
이 특허를 인용한 특허 (6)
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Klodowski, Anthony Michael; Barker, Sidney Allen, Fault detection system for a generator.
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Wagner, Carl A.; Defenbaugh, John F.; Maddali, Vijay K.; Young, Richard L., Overvoltage prevention in an aircraft electrical power generation system.
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Pawelski, Paul Curtis; Byrd, Ryan Christopher, Power system having short circuit protection controller.
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Urresty, Julio Cesar, Protecting a permanent magnet generator.
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Pal, Debabrata, Starter generator stator having housing with cooling channel.
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Trainer, David R; Cullen, John J A; Mitcham, Alan J; Cross, Andrew M; Forsyth, Andrew J; Abdel-Hafez, Ahmed A-M, Synchronous electrical machine.
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