Abstract
The most common type of electric vehicle traction motor is the interior permanent magnet synchronous motor (IPMSM). For IPMSM designs, engineers make use of the magnetic equivalent circuit method, which is a lumped constant circuit method, and the finite element method, which is a distributed constant circuit method. The magnetic equivalent circuit method is useful for simple design through fast and intuitive parameters, but it cannot derive the distribution of the magnetic field. The finite element method can derive an accurate magnetic field distribution, but it takes a long time and is difficult to use for analysis of intuitive design parameters. In this study, the magnetic equivalent circuit method and Carter’s coefficient were combined for rotor structure design and accurate identification and analysis of circuit constants. In this paper, this design method is called the hybrid magnetic equivalent circuit method. Intuitive design parameters are derived through this hybrid magnetic equivalent circuit method. The air gap flux density distribution according to rotor shape, no-load-induced voltage, and cogging torque was analyzed and compared to results of the finite element method. The proposed method was found to achieve a short solving time and acceptably accurate results.
Highlights
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An interior permanent magnet synchronous motor (IPMSM) has multiple ratings and is suitable as a traction motor for electric vehicles (EVs), which require maximum distance traveled on one battery charge
hybrid magnetic equivalent circuit (HMEC) method is compared with the finite element method (FEM) method and verified that the obtained results are appropriate
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Carter’s coefficient helps to obtain accurate results based on defined parameters This proposed method will be called the hybrid magnetic equivalent circuit (HMEC). It is a design method that combines the spatial harmonic method and the magnetic circuit method It can provide accurate solution results in a shorter time than FEM, and intuitive design parameters are derived through the proposed HMEC method. It will represent the air gap flux density distribution according to rotor shape, no-load-induced voltage, and cogging torque. HMEC method is compared with the FEM method and verified that the obtained results are appropriate
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