Design of permanent magnet assisted synchronous reluctance motor with external rotor architecture

S. S. R. Bonthu, Seungdeog Choi, A. Gorgani, K. Jang
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引用次数: 15

Abstract

This paper proposes an external rotor Permanent Magnet assisted Synchronous Reluctance Motor (PMa-SynRM). Due to the high material cost of PM machine, there was a continuous effort to reduce the amount of permanent magnets (PM) in manufacturing an electric machine. PMa-SynRM has reduced great amount of PM usage by hybridizing the architectures between Synchronous Reluctance Motor and Permanent Magnet Motor. To further reduce the PM usage and to further increase of torque density, design of PMa-SynRM has been investigated through external rotor architecture. With best of author's knowledge, external rotor has not been properly researched even with great advantage and design flexibility with PMa-SynRM architecture. Analytical comparison between two different types of motor (internal and external) has been investigated to prove the superior design flexibility and performance of proposed method. Performance characteristics such as average torque developed and variation of torque with respect to variation in speed have been analyzed in finite element atmosphere (FEA) to validate the proposed design. A lower torque ripple model with distributed winding structure has been modeled and its FEA simulation results for developed torque have been compared with the concentrated type external rotor PMa-SynRM model.
外转子结构永磁辅助同步磁阻电机设计
提出了一种外转子永磁辅助同步磁阻电机(PMa-SynRM)。由于永磁电机的材料成本高,在制造电机的过程中一直在努力减少永磁体的数量。pmma - synrm通过混合同步磁阻电机和永磁电机的结构,大大减少了PM的使用量。为了进一步降低永磁转子的使用,进一步提高转矩密度,通过外转子结构研究了永磁同步电动机的设计。据笔者所知,外转子在PMa-SynRM架构下具有很大的优势和设计灵活性,但目前还没有得到适当的研究。对两种不同类型的电机(内、外)进行了分析比较,证明了该方法具有较好的设计灵活性和性能。在有限元气氛(FEA)中分析了平均扭矩和扭矩随速度变化的性能特性,以验证所提出的设计。建立了具有分布式绕组结构的低转矩脉动模型,并与集中式外转子PMa-SynRM模型进行了对比。
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