Symmetrical auto transformer delta topologies
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01F-030/12
H02M-007/06
출원번호
UP-0336457
(2008-12-16)
등록번호
US-7772953
(2010-08-30)
발명자
/ 주소
Huang, Jian
White, Jeffrey J.
출원인 / 주소
The Boeing Company
대리인 / 주소
Yee & Associates, P.C.
인용정보
피인용 횟수 :
6인용 특허 :
12
초록▼
Various embodiments of multi-phase transformers are disclosed. Exemplary transformer includes primary windings, secondary windings and third windings. Primary windings, secondary windings and third windings may include sub windings coupled to form functions. Primary windings are coupled at ends to f
Various embodiments of multi-phase transformers are disclosed. Exemplary transformer includes primary windings, secondary windings and third windings. Primary windings, secondary windings and third windings may include sub windings coupled to form functions. Primary windings are coupled at ends to form a delta configurations. Secondary windings are coupled to primary windings. Third windings are coupled to primary windings and secondary windings. Secondary windings and the third windings are magnetically coupled to primary windings. The outputs at second ends of third windings are greater than the outputs at the second ends of secondary windings. In some embodiments, the outputs at adjacent second ends of the third windings are substantially equal. In some embodiments, the phase angle difference of outputs at adjacent second ends of third windings are substantially equal. In some embodiments, the phase angle difference of outputs at adjacent second ends of secondary windings are substantial equal.
대표청구항▼
What is claimed is: 1. A multi-phase transformer, comprising: a first group of windings having a plurality of primary windings; wherein each primary winding includes one or more sub primary windings coupled in series, and a junction of two sub primary windings defines an interior junction; wherein
What is claimed is: 1. A multi-phase transformer, comprising: a first group of windings having a plurality of primary windings; wherein each primary winding includes one or more sub primary windings coupled in series, and a junction of two sub primary windings defines an interior junction; wherein each end of the primary windings is coupled to an end of another primary winding to form a delta configuration and a junction of two primary windings defines an exterior junction; and wherein each of the primary windings is configured to receive a phase of a multi-phase input voltage at the exterior junction; a second group of windings having a plurality of secondary windings and each secondary winding has a first end and a second end; wherein the first end of each secondary winding is coupled to one of the primary windings; wherein each secondary winding is magnetically coupled to a primary winding from among the plurality of plurality of primary winding; and a third group of windings having a plurality of third windings; wherein each third winding includes a first end and a second end, and the first end of each of the third winding is coupled to a secondary winding from among the plurality of secondary windings or to a primary winding from among the plurality of primary windings; wherein each third winding is magnetically coupled to a primary winding from among the plurality of primary windings; wherein the third group of windings is configured such that an output voltage at the second end of the third windings is higher than an output voltage at the second end of the secondary windings and the exterior junction of the primary windings. 2. The transformer of claim 1, wherein a phase angle difference between output voltage at two adjacent second ends of the third windings are substantially same. 3. The transformer of claim 2, wherein the output voltage at the second end of the third windings is substantially equal and the output voltage at the second end of the secondary windings and the exterior junction of the primary windings are substantially equal. 4. The transformer of claim 1, wherein a plurality of second end of the third windings are configured to couple to a rectifier circuit to rectify the output voltage at the second end of the third windings and output a rectified second voltage. 5. The transformer of claim 4, wherein the rectified second voltage is greater than a rectified output voltage derived from rectifying an input voltage. 6. The transformer of claim 4, wherein a plurality of the second ends of the second windings and the exterior junction of the primary windings are configured to couple to a rectifier circuit to rectify an output voltage at the second end and the exterior junction, and output a rectified first voltage which is less than the rectified second voltage. 7. The transformer of claim 6, wherein the rectified first voltage is substantially equal to a rectified output voltage derived from rectifying the input voltage. 8. The transformer of claim 2, wherein the phase angle difference is about 60, 40, 30, or 24 degrees. 9. The transformer of claim 1, wherein a vector of induced voltage in each of the plurality of secondary windings is in-phase with a vector of an induced voltage in a primary winding other than a primary winding to which the secondary winding is coupled. 10. The transformer of claim 1, wherein the third winding includes at least a first sub-winding and a second sub-winding connected in series, and a vector of an induced voltage in the first sub-winding is different from a vector of an induced voltage in the second sub-winding. 11. The transformer of claim 10, wherein the first end of at least two of the secondary windings are jointly coupled to a common interior junction of one of the primary windings. 12. The transformer of claim 11, wherein the first end of the third winding is coupled to either the external junction of one of the plurality of primary windings or to one of the second end of one of the plurality secondary windings that are jointly coupled. 13. The transformer of claim 1, wherein all of the third windings include at least two sub-windings connected in series; wherein the first end of the third windings is coupled to either the external junction of one of the primary windings or one of the second end of one of the secondary windings; and wherein a vector of induced voltage in a sub-winding is different than a vector of induced voltage in another sub-winding such that a phase angle difference of an output voltage at two adjacent second ends of the third windings are substantially same. 14. The transformer of claim 1, wherein some of the third windings include at least two sub-winding connected in series; and other third windings do not include a sub-winding; and wherein the first end of a combination of third windings with sub-windings and the third windings without sub-winding are coupled to each of the external junction of the plurality of primary windings. 15. The transformer of claim 14, wherein some of the third windings without sub-windings are coupled to an interior junction of the primary windings and a phase angle difference of the output voltage at two adjacent second ends of the third windings are substantially same. 16. A multi-phase transformer, comprising: a first group of windings having a plurality of primary windings; wherein each primary winding includes one or more sub primary windings coupled in series, and a junction of two sub primary windings defines an interior junction; wherein each end of the plurality of primary windings is coupled to an end of another primary winding to form a delta configuration and a junction of two primary windings defines an exterior junction; and each of the plurality of primary windings is configured to receive a phase of a multi-phase input voltage at the exterior junction; a second group of windings having a plurality of secondary windings and each secondary winding has a first end and a second end; wherein each secondary winding is magnetically coupled to a primary winding from among the plurality of primary windings; wherein a first end of each secondary winding from among the plurality of secondary windings is coupled to an interior junction of one of the primary windings; and a third group of windings having a plurality of third windings; wherein each third winding is magnetically coupled to a primary winding from among the plurality of primary windings; wherein each of the third winding includes a first end and a second end; wherein the first end is coupled to the second end of a secondary winding from among the plurality of secondary windings; or to an exterior junction of a primary winding from among the plurality of primary windings; and wherein the third group of windings is configured such that an output voltage at the second end of the third windings is higher than an output voltage at the second end of the secondary windings and the exterior junction of the primary windings. 17. A multi-phase transformer, comprising: a first group of windings having a plurality of primary windings; wherein each primary winding includes one or more sub primary windings coupled in series, and a junction of two sub primary windings define an interior junction; wherein each end of a primary winding from among the plurality of primary windings is coupled to an end of another primary winding to form a delta configuration and a junction of two primary windings defines an exterior junction; and each of the plurality of primary windings is configured to receive a phase of a multi-phase input voltage at the exterior junction; a second group of windings having a plurality of secondary windings and each secondary winding has a first end and a second end; wherein each secondary winding is magnetically coupled to a primary winding from among the plurality of primary windings; and wherein the first end of each secondary winding is coupled to an interior junction of one of the primary windings; and a third group of windings having a plurality of third windings; wherein each third winding is magnetically coupled to a primary winding; wherein each of the third winding includes a first end and a second end; wherein the first end is coupled to an interior junction of one of the plurality of primary windings other than an interior junction to which a secondary winding is coupled or to an exterior junction of one of the primary winding from among the plurality of primary windings; and wherein the third group of windings is configured such that an output voltage at the second end of the third windings is higher than an output voltage at the second end of the secondary windings and the exterior junction of the primary windings. 18. The transformer of claim 17, wherein a vector of induced voltage in each of the plurality of secondary windings is in-phase with a vector of induced voltage in a primary winding other than a primary winding to which the secondary winding is coupled; and wherein a vector of induced voltage in a third winding coupled to either an interior junction or an exterior junction of a primary winding is in-phase with an induced voltage in the secondary winding that is also coupled to the same primary winding such that a phase angle difference of the output voltage at two adjacent second ends of the third windings are substantially same. 19. A multi-phase transformer, comprising: a first group of windings having a plurality of primary windings; wherein each primary winding includes one or more sub primary windings coupled in series, and a junction of two sub primary windings defines an interior junction; wherein each end of the primary windings is coupled to an end of another primary winding to form a delta configuration and a junction of two primary windings defines an exterior junction; and each of the primary winding is configured to receive a phase of a multi-phase input voltage at the exterior junction; a second group of windings having a plurality of secondary windings and each secondary winding has a first end and a second end; wherein each secondary winding is magnetically coupled to a primary winding; and wherein the first end of each of the plurality of secondary winding is coupled to an interior junction of one of the plurality of primary windings; and a third group of windings having a plurality of third windings; wherein each third winding is magnetically coupled to a primary winding from among the plurality of primary windings; wherein each of the third winding includes a first end and a second end; wherein the first end of each of the third winding is coupled to a second end of a secondary winding from among the plurality of secondary windings, an interior junction of the primary winding or an exterior junction of the primary winding; and wherein the third group of windings is configured such that an output voltage at the second end of the third windings is higher than an output voltage at the second end of the plurality secondary windings and the exterior junction of the plurality of primary windings. 20. The transformer of claim 19, wherein the first end of at least two of the secondary windings are jointly coupled to a common interior junction of one of the primary windings; and wherein the first end of a third winding is not coupled to one of the at least two of the secondary windings that are jointly coupled. 21. The transformer of claim 20, wherein a vector of induced voltage in the third windings is such that a phase angle difference of the output voltage at two adjacent second ends of the third windings are substantially same. 22. A multi-phase transformer, comprising: a first group of windings having a plurality of primary windings; wherein each primary winding includes one or more sub primary windings coupled in series, and a junction of two sub primary windings define an interior junction; wherein each end of the primary windings is coupled to an end of another primary winding to form a delta configuration and a junction of two primary windings define an exterior junction; and wherein each of the plurality of primary windings is configured to receive a phase of a multi-phase input voltage at the exterior junction; a second group of windings having a plurality of secondary windings and each secondary winding has a first end and a second end; wherein each of the secondary winding is magnetically coupled to a primary winding from among the plurality of primary windings; and wherein some of the secondary windings include a plurality of sub-windings coupled in series, and a junction of two sub-windings defines a sub-junction; wherein the first end of each secondary winding is coupled to an interior junction of one of the primary windings; and a third group of windings having a plurality of third windings; wherein each of the third winding is magnetically coupled to a primary winding from among the plurality of primary windings; wherein each of the third winding includes a first end and a second end; wherein the first end of each of the third winding is coupled to a second end of a secondary winding from among the plurality of secondary windings, a sub-junction of a secondary winding or an exterior junction of the primary winding from among the plurality of primary windings; wherein the third group of windings is configured such that an output voltage at the second end of the third windings is higher than an output voltage at the second end of the secondary windings and the exterior junction of the primary windings. 23. The transformer of claim 22, wherein some of the secondary windings include more than one second end formed by ends of one or more additional sub-windings coupled to a sub-junction of two sub-windings. 24. The transformer of claim 22, wherein all of the secondary windings include a plurality of sub-windings and none of the first end of each of the third winding is coupled to a second end of a secondary winding from among the plurality of secondary windings. 25. The transformer of claim 23, wherein each of the third windings include at least two sub-windings connected in series; and each third winding is coupled to either the external junction of the primary windings or one of the second end of the plurality of secondary windings; and wherein a vector of induced voltage in a sub-winding is different than a vector of induced voltage in another sub-winding such that a phase angle difference of the output voltage at two adjacent second ends of the third windings are substantially same. 26. The transformer of claim 22, wherein the secondary windings include a plurality of sub-windings; and wherein each of the third windings include at least two sub-windings; wherein the first end of each of the third winding is coupled to either an external junction of the plurality of primary windings or one of the sub-junctions of the plurality of secondary windings; and none of the first end of each of the third winding is coupled to a second end of a secondary winding from among the plurality of secondary windings; and wherein a vector of induced voltage in a sub-winding is different than a vector of induced voltage in another sub-winding such that a phase angle difference of the output voltage at two adjacent second ends of the third windings are substantially same. 27. The transformer of claim 22, wherein the secondary windings include a plurality of sub-windings; and the third windings include at least two sub-windings connected in series; and each of the first end of a third winding from among the third windings is coupled to either an external junction of the plurality of primary windings or one of the sub-junctions of the plurality of secondary windings; and none of the first end of each of the third winding is coupled to a second end of a secondary winding from among the plurality of secondary windings; and wherein a vector of induced voltage in a sub-winding is different than a vector of induced voltage in another sub-winding such a phase angle difference of the output voltage at two adjacent second ends of the third windings are substantially same. 28. The transformer of claim 23, wherein some of the third windings include at least two sub-windings connected in series, and a junction of two sub-windings defines a sub-junction. 29. The transformer of claim 28, wherein some of the third windings include more than one second end formed by an end of one or more additional sub-windings coupled to the sub-junction of two sub-windings; and wherein the first end of each of the plurality of third windings with a sub-winding is coupled to an interior junction of the primary windings. 30. The transformer of claim 29, wherein each of the third windings without a sub-winding is coupled to an interior junction or an exterior junction of the plurality of primary windings; and none of the third windings is coupled to a second end of the secondary windings; and wherein a vector of induced voltage in a sub-winding is different than the vector of induced voltage in another sub-winding such that a phase angle difference of the output voltage at two adjacent second ends of the third windings are substantially same. 31. A multi-phase transformer, comprising: a first group of windings having a plurality of primary windings; wherein each primary winding includes one or more sub primary windings coupled in series, and a junction of two sub primary windings define an interior junction; wherein each end of the primary windings is coupled to an end of another primary winding to form a delta configuration and a junction of two primary windings define an exterior junction; wherein each of the primary windings is configured to receive a phase of a multi-phase input voltage at the exterior junction; a second group of windings having a plurality of secondary windings and each secondary winding has a first end and a second end; wherein some of the secondary windings include a plurality of sub-winding connected in series, junction of two sub-windings define a sub-junction; wherein each secondary winding is magnetically coupled to a primary winding; wherein the first end of each of the secondary winding is coupled to an interior junction of one of the primary windings or to the exterior junction of the primary windings; and a third group of windings having a plurality of third windings; wherein each of the third winding includes a first end and a second end; wherein some of the third windings include at least two sub-windings connected in series, with junction of two sub-windings define a sub-junction; wherein each of the third winding is magnetically coupled to a primary winding; wherein the first end of each of the third winding is coupled to a sub-junction of a secondary winding or an exterior junction of the primary winding; and wherein the third group of windings is configured such that an output voltage at the second end of the third windings is higher than an output voltage at the second end of the secondary windings and the exterior junction of the primary windings. 32. The transformer of claim 31, wherein the third group of windings includes at least two sub-windings coupled to a sub-junction of a secondary winding from among the plurality of secondary windings and the secondary winding is coupled to an external junction of the plurality of primary windings.
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이 특허에 인용된 특허 (12)
Paice Derek A. (Palm Harbor FL), Auto-connected hexagon transformer for a 12-pulse converter.
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