IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0551332
(2012-07-17)
|
등록번호 |
US-8760023
(2014-06-24)
|
발명자
/ 주소 |
- Calley, David G.
- Cole, Daniel S.
- Dyer, John M.
- Janecek, Thomas F.
|
출원인 / 주소 |
- Electric Torque Machines, Inc.
|
대리인 / 주소 |
Pillsbury Winthrop Shaw Pittman, LLP
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
222 |
초록
▼
Electrical machines, for example transverse flux machines and/or commutated flux machines, may be configured to achieve reduced overall cogging torque via implementation of a sixth-phase offset. Individual cogging torque waveforms in the electrical machine may be evenly distributed across one-sixth
Electrical machines, for example transverse flux machines and/or commutated flux machines, may be configured to achieve reduced overall cogging torque via implementation of a sixth-phase offset. Individual cogging torque waveforms in the electrical machine may be evenly distributed across one-sixth of a voltage phase or other suitable spacing, resulting in a reduced magnitude and/or increased sinusoidality of the overall cogging torque waveform for the electrical machine.
대표청구항
▼
1. A stator for a transverse flux machine, the stator comprising: a first stator portion comprising a first set of stator teeth,wherein a first stator tooth and an adjacent second stator tooth in the first set of stator teeth are separated, center to center, by a first angular distance,wherein one o
1. A stator for a transverse flux machine, the stator comprising: a first stator portion comprising a first set of stator teeth,wherein a first stator tooth and an adjacent second stator tooth in the first set of stator teeth are separated, center to center, by a first angular distance,wherein one or more remaining stator teeth in the first set of stator teeth are each separated, center to center, by a second angular distance, the second angular distance being different from the first angular distance, andwherein the first angular distance is computed with a phase offset computed as a fraction of an even distribution angular distance of the first set of stator teeth. 2. The stator of claim 1, further comprising: a second stator portion comprising a second set of stator teeth,wherein a first stator tooth and an adjacent second stator tooth in the second set of stator teeth are separated by a third angular distance, andwherein one or more remaining stator teeth in the second set of stator teeth are each separated by a fourth angular distance, the fourth angular distance being different from the third angular distance. 3. The stator of claim 2, wherein the first stator portion and the second stator portion are coupled such that the first set of stator teeth is interleaved with the second set of stator teeth. 4. The stator of claim 2, wherein any of the first set of stator teeth provides a flux path to any of the second set of stator teeth, the flux path traversing at least partially around a coil at least partially enclosed by the first stator portion and the second stator portion. 5. The stator of claim 2, wherein a combined cogging torque waveform associated with operation of the stator approximates an ideal sinusoid. 6. The stator of claim 1, wherein the first stator portion comprises at least one of silicon steel, powdered metal, or amorphous metal. 7. The stator of claim 1, wherein the phase offset is an integer multiple of one-sixth of the even distribution angular distance of the first set of stator teeth. 8. The stator of claim 7, wherein the phase offset is one-sixth of the even distribution angular distance of the first set of stator teeth. 9. The stator of claim 1, wherein the stator is configured to be coupled to an electric bicycle. 10. A stator for a transverse flux machine, the stator comprising: a first stator portion comprising a first set of stator teeth;wherein a first stator tooth and an adjacent second stator tooth in the first set of stator teeth are separated, center to center, by a first angular distance; andwherein one or more remaining stator teeth in the first set of stator teeth are separated, center to center, by a second angular distance, the second angular distance being different from the first angular distance,wherein the first set of stator teeth is in number N disposed about the circumference of the first stator portion, and the first angular distance is of about (360/N) degrees plus about (⅙*(360/N)) degrees. 11. The stator of claim 10, wherein the one or more remaining stator teeth in the first set of stator teeth are separated by the second angular distance, and wherein the second angular distance is about (360/N) degrees minus about ((⅙*(360/N))/(N−1)) degrees center to center. 12. A method of making a stator for an electrical machine, the method comprising: providing a first stator portion comprising a first set of stator teeth,wherein a first stator tooth and an adjacent second stator tooth in the first set of stator teeth are separated, center to center, by a first angular distance, andwherein one or more remaining stator teeth in the first set of stator teeth are separated, center to center, by a second angular distance, the second angular distance being different from the first angular distancewherein the first set of stator teeth is in number N disposed about the circumference of the first stator portion, and the first angular distance is of about (360/N) degrees plus about (⅙*(360/N)) degrees. 13. The method of claim 12, wherein the one or more remaining stator teeth in the first set of stator teeth are separated by the second angular distance, and wherein the second angular distance is about (360/N) degrees minus about ((⅙*(360/N))/(N−1)) degrees center to center.
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