Brushless starter-generator with independently controllable exciter field
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02P-009/44
H02P-009/00
출원번호
US-0360116
(2006-02-22)
등록번호
US-7301311
(2007-11-27)
발명자
/ 주소
Xu,Mingzhou
Benson,Dwayne M.
출원인 / 주소
Honeywell International, Inc.
대리인 / 주소
Ingrassia Fisher & Lorenz
인용정보
피인용 횟수 :
11인용 특허 :
25
초록▼
A starter-generator system supplies a controllable torque to a gas turbine engine, to thereby assist in starting the gas turbine engine, by independently controlling excitation frequency and/or voltage magnitude. The starter-generator includes a multi-phase exciter stator, a rotationally mounted mul
A starter-generator system supplies a controllable torque to a gas turbine engine, to thereby assist in starting the gas turbine engine, by independently controlling excitation frequency and/or voltage magnitude. The starter-generator includes a multi-phase exciter stator, a rotationally mounted multi-phase exciter rotor, a multi-phase main stator, a rotationally mounted multi-phase main rotor, and an exciter controller. The rotationally mounted multi-phase exciter rotor has a plurality of exciter rotor windings wound thereon that, upon excitation thereof with a rotating electromagnetic exciter flux generated by the exciter stator, have non-rectified excitation currents induced therein. The rotationally mounted multi-phase main rotor has a plurality of main rotor windings wound thereon that are electrically connected to receive the non-rectified excitation currents induced in the exciter rotor windings and that, upon excitation thereof with a rotating electromagnetic flux and in response to the non-rectified excitation currents supplied thereto, have currents induced therein that generate a main rotor torque to thereby cause the multi-phase main rotor and the multi-phase exciter rotor to rotate. The exciter controller is electrically coupled to at least the exciter stator and is configured to selectively supply the electrical excitation thereto, to thereby selectively control the generated main rotor torque.
대표청구항▼
We claim: 1. A starter-generator, comprising: a multi-phase exciter stator having a plurality of exciter stator windings wound thereon that, upon electrical excitation thereof, generate a rotating exciter stator electromagnetic flux; a rotationally mounted multi-phase exciter rotor disposed at leas
We claim: 1. A starter-generator, comprising: a multi-phase exciter stator having a plurality of exciter stator windings wound thereon that, upon electrical excitation thereof, generate a rotating exciter stator electromagnetic flux; a rotationally mounted multi-phase exciter rotor disposed at least partially within the multi-phase exciter stator, the multi-phase exciter rotor having a plurality of exciter rotor windings wound thereon that, upon excitation thereof with the rotating exciter stator electromagnetic exciter flux, have non-rectified excitation currents induced therein; a multi-phase main stator having a plurality of main stator windings wound thereon that, upon electrical excitation thereof from a main AC power source, generate a rotating main stator electromagnetic flux; a rotationally mounted multi-phase main rotor disposed at least partially within the multi-phase main stator and mechanically coupled to the exciter rotor, the multi-phase main rotor having a plurality of main rotor windings wound thereon that are electrically connected to receive the non-rectified excitation currents induced in the exciter rotor windings and that, upon excitation thereof with the main stator rotating electromagnetic flux and in response to the non-rectified excitation currents supplied thereto, have currents induced therein that generate a main rotor torque to thereby cause the multi-phase main rotor and the multi-phase exciter rotor to rotate; and an exciter controller electrically coupled to at least the exciter stator windings and configured to selectively supply the electrical excitation thereto, to thereby selectively control the generated main rotor torque. 2. The starter-generator of claim 1, wherein: the currents induced in the main rotor windings further generate a main rotor flux that rotates at a rotational rotor flux speed; and the exciter controller is configured to selectively control the generated main rotor torque by selectively supplying electrical excitation to the exciter stator windings that controls the rotational rotor flux speed. 3. The starter-generator of claim 2, wherein the exciter controller is configured to: selectively supply the electrical excitation as multi-phase AC excitation having a frequency and a phase sequence; and control the frequency and phase sequence to thereby control the rotational rotor flux speed. 4. The starter-generator of claim 3, wherein: the multi-phase main rotor and the multi-phase exciter rotor, in response to generation of the main rotor torque, rotate in a first direction; and the exciter controller is configured to supply the multi-phase AC electrical excitation to the exciter stator windings in a phase sequence that is in either the first direction or a second direction opposite the first direction. 5. The starter-generator of claim 3, wherein: the rotating main stator electromagnetic flux rotates at a rotational stator flux speed; and the exciter controller is configured to selectively supply the electrical excitation to the exciter stator windings to thereby control the rotational rotor flux speed to be substantially equal to or less than the rotational stator flux speed. 6. The starter-generator of claim 1, wherein the main AC power source is a constant frequency AC power source. 7. The starter-generator of claim 1, further comprising: a permanent magnet generator (PMG) mounted on the shaft and configured, upon rotation thereof, to supply a signal to the exciter controller that is representative of multi-phase main rotor rotational speed, wherein the exciter controller determines the multi-phase main rotor rotational speed based at least in part on the signal supplied from the PMG. 8. The starter-generator of claim 1, further comprising: a speed sensor configured to sense multi-phase main rotor rotational speed and supply a speed signal representative thereof to the exciter controller, wherein the exciter controller determines the multi-phase main rotor rotational speed based at least in part on the speed signal. 9. The starter-generator of claim 1, wherein: the main generator rotor is implemented as a N-pole rotor; the exciter rotor is implemented as a M-pole rotor; and N and M are each integers greater than one. 10. The starter-generator of claim 7, wherein N is unequal to M. 11. The starter-generator of claim 7, wherein N is equal to M. 12. The starter-generator of claim 1, further comprising: a generator housing enclosing at least portions of the multi-phase main stator, the multi-phase main rotor, the multi-phase exciter rotor, and the multi-phase exciter stator; and a shaft rotationally mounted within the housing, the shaft supporting at least the multi-phase main rotor and the multi-phase exciter rotor thereon and configured to supply a drive force upon rotation thereof. 13. The starter-generator of claim 12, further comprising: a gas turbine engine coupled to the shaft and configured to receive a drive force therefrom. 14. A starter-generator, comprising: a housing; a shaft rotationally mounted within the housing and configured to rotate; a multi-phase exciter stator mounted within the housing and having a plurality of exciter stator windings wound thereon that, upon electrical excitation thereof, generate a rotating exciter stator electromagnetic flux; multi-phase exciter rotor mounted on the shaft and disposed at least partially within the multi-phase exciter stator, the multi-phase exciter rotor having a plurality of exciter rotor windings wound thereon that, upon excitation thereof with the rotating exciter stator electromagnetic exciter flux, have non-rectified excitation currents induced therein; a multi-phase main stator mounted within the housing and having a plurality of main stator windings wound thereon that, upon electrical excitation thereof from a main AC power source, generate a rotating main stator electromagnetic flux; a multi-phase main rotor mounted on the shaft, disposed at least partially within the multi-phase main stator, and mechanically coupled to the exciter rotor, the multi-phase main rotor having a plurality of main rotor windings wound thereon that are electrically connected to receive the non-rectified excitation currents induced in the exciter rotor windings and that, upon excitation thereof with the main stator rotating electromagnetic flux and in response to the non-rectified excitation currents supplied thereto, have currents induced therein that generate a main rotor torque to thereby cause the multi-phase main rotor and the multi-phase exciter rotor to rotate; and an exciter controller electrically coupled to at least the exciter stator windings and configured to selectively supply the electrical excitation thereto, to thereby selectively control the generated main rotor torque. 15. The starter-generator of claim 14, wherein: the currents induced in the main rotor windings further generate a main rotor flux that rotates at a rotational rotor flux speed; and the exciter controller is configured to selectively control the generated main rotor torque by selectively supplying electrical excitation to the exciter stator windings that controls the rotational rotor flux speed. 16. The starter-generator of claim 15, wherein the exciter controller is configured to: selectively supply the electrical excitation as multi-phase AC excitation having a frequency and a phase sequence; and control the frequency and phase sequence to thereby control the rotational rotor flux speed. 17. The starter-generator of claim 16, wherein: the multi-phase main rotor and the multi-phase exciter rotor, in response to generation of the main rotor torque, rotate in a first direction; and the exciter controller is configured to supply the multi-phase AC electrical excitation to the exciter stator windings in a phase sequence that is in either the first direction or a second direction opposite the first direction. 18. The starter-generator of claim 16, wherein: the rotating main stator electromagnetic flux rotates at a rotational stator flux speed; and the exciter controller is configured to selectively supply the electrical excitation to the exciter stator windings to thereby control the rotational rotor flux speed to be substantially equal to or less than the rotational stator flux speed. 19. The starter-generator of claim 14, wherein the main AC power source is a constant frequency AC power source. 20. A starter-generator, comprising: a multi-phase exciter stator having a plurality of exciter stator windings wound thereon; a rotationally mounted multi-phase exciter rotor disposed at least partially within the multi-phase exciter stator, the multi-phase exciter rotor having a plurality of exciter rotor windings wound thereon; a multi-phase main stator having a plurality of main stator windings wound thereon that, upon electrical excitation thereof from a main AC power source, generate a rotating main stator electromagnetic flux; and a rotationally mounted multi-phase main rotor disposed at least partially within the multi-phase main stator and mechanically coupled to the exciter rotor, the multi-phase main rotor having a plurality of main rotor windings wound thereon that are directly connected to the exciter rotor windings and that, upon excitation thereof with the main stator rotating electromagnetic flux, have currents induced therein that generate a main rotor torque to thereby cause the multi-phase main rotor and the multi-phase exciter rotor to rotate.
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이 특허에 인용된 특허 (25)
Raad, Bernard A., AC/DC brushless starter-generator.
Glennon Timothy F. (Rockford IL) Mehl Byron R. (Belvidere IL) Thollot Pierre (Rockford IL) Krinickas Alexander (Rockford IL), Brushless generator having AC excitation in generating and starting modes.
Xu,Mingzhou; Chen,Wei; Duddeck,Michael W.; Pearson,Wayne T.; Scherzinger,William M., Gas turbine engine starter generator that selectively changes the number of rotor poles.
Xu, Mingzhou; Pearson, Wayne T.; Anghel, Cristian E.; Morcov, Nicolae, Gas turbine engine starter generator with multiple windings on each exciter stator pole.
Reuther John F. (Pittsburgh PA), System and method employing a digital computer for automatically synchronizing a gas turbine or other electric power pla.
Gao, Lijun; Liu, Shengyi; Krolak, Matthew J.; Solodovnik, Eugene V.; Karimi, Kamiar J., Method and system for controlling synchronous machine as generator/starter.
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