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- Title
Research on Cogging Torque Weakening of Direct‐Drive Permanent Magnet Motor with Inner Enhance Force.
- Authors
Zhang, Jiaxu; Zhang, Bingyi; Li, Dongming; Feng, Guihong
- Abstract
This paper proposes a simple and efficient method to weaken the cogging torque of the direct‐drive permanent magnet motor with inner enhance force (IEF‐DDPMM). It is characterized by adjusting the relative position of the inner and outer permanent magnets so that the cogging torque generated by the inner and outer air‐gaps is opposite in phase, thus eliminating or weakening a certain order of cogging torque. For IEF‐DDPMM, the expression of cogging torque and the variation law of cogging torque with the staggered‐pole angle are derived by the analytical method. The relationship between optimal staggered‐pole angle and the pole‐slot combination is analyzed. The influence of staggered‐pole on average torque and torque ripple is analyzed. Finally, the commercial finite element software ANASYS‐Maxwell is used for simulation, and the simulation results are consistent with the analytical results. The results show that the cogging torque of IEF‐DDPMM is the linear superposition of cogging torque from inner and outer parts; choosing a suitable staggered‐pole angle can effectively weaken the cogging torque and reduce the torque ripple. Besides, the average torque reduction caused by the staggered‐pole method can be compensated by adopting the internal power factor angle compensation strategy. © 2021 Institute of Electrical Engineers of Japan. Published by Wiley Periodicals LLC.
- Subjects
JAPAN; PERMANENT magnets; PERMANENT magnet motors; TORQUE; ELECTRICAL engineers
- Publication
IEEJ Transactions on Electrical & Electronic Engineering, 2022, Vol 17, Issue 2, p160
- ISSN
1931-4973
- Publication type
Article
- DOI
10.1002/tee.23500