Electric power generating system with a synchronous generator and tunable filter
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02P-011/00
H02H-007/06
H02P-009/00
H02P-009/34
H02K-011/04
H02P-005/00
H02P-005/46
출원번호
US-0453383
(2017-03-08)
등록번호
US-9985562
(2018-05-29)
발명자
/ 주소
Rozman, Gregory I.
Gieras, Jacek F.
Moss, Steven J.
출원인 / 주소
Hamilton Sundstrand Corporation
대리인 / 주소
Snell & Wilmer L.L.P.
인용정보
피인용 횟수 :
1인용 특허 :
8
초록▼
A synchronous generator may comprise a rotor and a stator. The stator may comprise a first armature winding configured to output a first three-phase voltage, a second armature winding configured to output a second three-phase voltage, and a first variable inductor, wherein the first variable inducto
A synchronous generator may comprise a rotor and a stator. The stator may comprise a first armature winding configured to output a first three-phase voltage, a second armature winding configured to output a second three-phase voltage, and a first variable inductor, wherein the first variable inductor is tunable in response to a rotational frequency of the rotor.
대표청구항▼
1. A synchronous generator comprising: a rotor;a stator comprising: a first armature winding configured to output a first three-phase voltage;a second armature winding configured to output a second three-phase voltage; anda first variable inductor;wherein the first variable inductor is tunable in re
1. A synchronous generator comprising: a rotor;a stator comprising: a first armature winding configured to output a first three-phase voltage;a second armature winding configured to output a second three-phase voltage; anda first variable inductor;wherein the first variable inductor is tunable in response to a rotational frequency of the rotor. 2. The synchronous generator of claim 1, wherein the stator further comprises: a first rectifier configured to rectify the first three-phase voltage received from the first armature winding; anda second rectifier configured to rectify the second three-phase voltage received from the second armature winding,wherein the first rectifier is configured to output a first direct current (DC) voltage and the second rectifier is configured to output a second DC voltage. 3. The synchronous generator of claim 2, wherein the first variable inductor is configured to filter at least one of the first DC voltage, the second DC voltage, and a DC output voltage. 4. The synchronous generator of claim 1, wherein the rotor comprises an exciter armature winding, a rotating rectifier, and a main field winding. 5. The synchronous generator of claim 4, wherein the stator further comprises an exciter field winding configured to control an output voltage of the synchronous generator. 6. The synchronous generator of claim 5, wherein a phase shift between the first three-phase voltage and the second three-phase voltage comprises 60/n degrees, where n is a total number of armature winding sets in the stator. 7. The synchronous generator of claim 3, further comprising a second variable inductor, a control winding of the second variable inductor connected in series with a control winding of the first variable inductor. 8. An electric power generating system comprising, a synchronous generator comprising: a rotor; anda stator comprising: a first armature winding configured to output a first three-phase voltage; anda second armature winding configured to output a second three-phase voltage; anda first variable inductor,wherein the first variable inductor is tunable in response to a rotational frequency of the rotor. 9. The electric power generating system of claim 8, further comprising: a first rectifier configured to rectify the first three-phase voltage received from the first armature winding; anda second rectifier configured to rectify the second three-phase voltage received from the second armature winding;wherein the first rectifier is configured to output a first direct current (DC) voltage and the second rectifier is configured to output a second DC voltage. 10. The electric power generating system of claim 9, further comprising a first tunable notch filter comprising: a capacitor; andthe first variable inductor,wherein the first tunable notch filter filters at least one of the first DC voltage and the second DC voltage. 11. The electric power generating system of claim 10, further comprising an auto-tuning notch filter control, comprising: a frequency detector;a current regulator;a pulse width modulator; andan H-bridge,wherein the frequency detector detects the rotational frequency of the rotor and regulates a DC current through a control winding of the first variable inductor. 12. The electric power generating system of claim 11, further comprising a second variable inductor, a control winding of the second variable inductor connected in series with the control winding of the first variable inductor. 13. The electric power generating system of claim 12, further comprising a third variable inductor, a control winding of the third variable inductor connected in series with the control winding of the first variable inductor. 14. The electric power generating system of claim 13, wherein the first variable inductor is connected across the first rectifier, the second variable inductor is connected across the second rectifier, andthe third variable inductor is connected across both the first rectifier and the second rectifier. 15. The electric power generating system of claim 11, wherein the first variable inductor is configured to receive the current from a power supply via the H-bridge. 16. The electric power generating system of claim 15, wherein the auto-tuning notch filter control utilizes a table look-up to determine the DC current based upon the rotational frequency of the rotor. 17. The electric power generating system of claim 14, wherein at least one of the first variable inductor, the second variable inductor, and the third variable inductor is mechanically coupled to the stator. 18. The electric power generating system of claim 11, further comprising a current sensor connected in series with the first variable inductor configured to send a current signal to the current regulator. 19. A method for generating electric power comprising: rotating a rotor of a synchronous generator;generating, via a first stator armature winding, a first three-phase voltage in response to the rotating;generating, via a second stator armature winding, a second three-phase voltage in response to the rotating;rectifying, via a first rectifier, the first three-phase voltage into a first DC voltage;rectifying, via a second rectifier, the second three-phase voltage into a second DC voltage; andfiltering, via a first tunable notch filter, at least one of the first DC voltage and the second DC voltage, wherein the first tunable notch filter is tunable in response to a rotational frequency of the rotor. 20. The method of claim 19, further comprising: filtering, via a second tunable notch filter, at least one of the first DC voltage and the second DC voltage, wherein the first tunable notch filter comprises a first variable inductor and the second tunable notch filter comprises a second variable inductor, a control winding of the first variable inductor connected in series with a control winding of the first variable inductor.
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