Prof. Myung-Seop Lim

Transfer Learning-Based Design Method for Cogging Torque Reduction in PMSM with Step-Skew Considering 3-D Leakage Flux
2023-04-25 17:28:20 조회수282
Date of Conference: 2023.05
Conference : 2023 IEEE International Conference on Magnetics (INTERMAG)
Authors: Yun-Jae Won, Jae-Hyun Kim, Soo-Hwan Park, Ji-Hyeon Lee, Soo-Min An, Myung-Seop Lim
DOI:

Step-skew is a common technique for reducing the cogging torque of a target harmonic order in permanent magnet synchronous motors (PMSMs). However, when step-skew is applied to the rotor, the cogging torque of the target harmonic order is not completely eliminated due to 3-D leakage flux. Therefore, the 3-D leakage flux should be considered in designing a PMSM with step-skew for cogging torque reduction. The most accurate way to consider the 3-D leakage flux is to perform 3-D finite element analysis (FEA), but it has the disadvantage of high computation time. To resolve this challenge, this paper proposes a design method that utilizes transfer learning to reduce the time for 3-D FEA while maintaining accuracy. Through the proposed method, a large amount of 2-D FEA-based data and a small amount of 3-D FEA-based data are used instead of a large amount of 3-D FEA-based data, with similar accuracy as using a large amount of 3-D FEA-based data, and the computational time is highly reduced. Finally, a prototype is fabricated and tested to verify the validity of the proposed design method for cogging torque reduction.
     
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