基于响应面法和有限元分析的圆盘式轮毂电机转矩波动最小化

2019 IEEE 3rd International Conference on Green Energy and Applications (ICGEA) Pub Date : 2019-03-01 DOI:10.1109/ICGEA.2019.8880729

Q. Sun, Yuanxiong Cheng, Zhaohui Chen

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引用次数: 0

摘要

针对微型电动汽车轮毂电机直接驱动的发展，提出了一种27槽/24极组合圆盘式永磁同步电机。为了抑制电机转矩波动，提出了响应面法与有限元分析相结合的电机优化参数设计方法。建立了响应面数学模型。通过优化，将转矩波动比降低到较低的水平。论证了盘式永磁同步电机在电动汽车轮内直接驱动应用中具有很强的优越性，为复杂三维电磁结构的有限元优化提供了一种有效的解决方案。

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Minimization of Torque Fluctuation in Disc Type In-Wheel Motor Based on Response Surface Method and FEA

Aiming at development of in-wheel motor direct drive for mini electric vehicles, the paper presents a disc type permanent magnet synchronous motor (PMSM) with combination of 27-slot/24-pole. In order to suppress the torque fluctuation of the motor, the coupling method of response surface method and finite element analysis (FEA) for optimum parameter design of the motor is proposed. The mathematical model of response surface is established. The torque fluctuation ratio is decreased to a low level by optimization. The paper demonstrates that the disc type PMSMs have strong merits for in-wheel direct drive application of electric vehicles, and provides an effective solution for optimization of complicated three-dimensional electromagnetic structure based on finite element method (FEM).

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2019 IEEE 3rd International Conference on Green Energy and Applications (ICGEA)

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