Investigations of Magnet Shape Impacts on Coreless Axial-Flux PM Machine Performances

2021 12th Power Electronics, Drive Systems, and Technologies Conference (PEDSTC) Pub Date : 2021-02-02 DOI:10.1109/PEDSTC52094.2021.9405833

Omolbanin Taqavi, Seyed Ehsan Abdollahi, B. Aslani

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引用次数: 2

Abstract

Axial-flux permanent magnet (AFPM) machines are one of the potential candidates for the future higher performance drives due to their compact structure, high power/torque density, and lower losses. Nevertheless, one of the problems with these machines is the high harmonic components in their back electromotive force (EMF), which is needed to be reduced in the design process so as to compete with other electric machines. In addition, in order to easy startup and also less noisy performance, the torque ripple of the AFPM machine should be reduced. Both the back-EMF and torque ripple are relevant to rotor magnetic flux distribution, which is manipulated by the shapes of magnets. In this regard, coreless double rotor AFPM machines with different magnet shapes are designed and analyzed in this study using 3D finite element analysis (FEA). According to the investigations, magnets with sector-like shapes offer better performance indices compared with other types of magnets. Thus, the machine designed with the best magnet shape is then selected to evaluate the proposed design performances in terms of different air-gap and magnet thicknesses.

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磁体形状对无芯轴向磁通永磁机床性能影响的研究

轴向磁通永磁(AFPM)机器是未来高性能驱动器的潜在候选者之一，因为它们结构紧凑，功率/扭矩密度高，损耗低。然而，这些机器的问题之一是它们的反电动势(EMF)中的高谐波分量，需要在设计过程中减少，以便与其他电机竞争。此外，为了便于启动和降低噪声性能，应减小AFPM机器的转矩脉动。反电动势和转矩脉动都与转子磁通分布有关，磁通分布受磁体形状的影响。为此，本研究采用三维有限元分析(FEA)对不同磁体形状的无芯双转子AFPM机床进行了设计和分析。根据调查，扇形磁铁比其他类型的磁铁具有更好的性能指标。然后选择具有最佳磁体形状的机器，根据不同的气隙和磁体厚度来评估所提出的设计性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 12th Power Electronics, Drive Systems, and Technologies Conference (PEDSTC)

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