Integrated Modular Motor Drives Based on Multiphase Axial-flux PM Machines with Fractional-slot Concentrated Windings

Peng Han, G. Heins, Yibin Zhang, D. Ionel
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引用次数: 2

Abstract

The integrated motor drive (IMD) concept with possible modularization has attracted much attention in a broad spectrum of applications ranging from low-power general-purpose industrial drives to high-power electric propulsion. This paper presents the feasibility study and performance evaluation of using common axial-flux permanent-magnet (AFPM) machines with fractional-slot concentrated windings in IMDs, with the same diameter and a minimum increase in its axial length. Different winding configurations are compared in terms of the torque/power capability and fault tolerance without changing the winding current rating. The possibility of further torque improvement is discussed from the perspective of making full use of the air-gap field harmonics produced by PMs. An AFPM machine available in the lab has been dissembled and used to build the proof-of-concept design, to show the feasibility of the proposed design and benefits of the IMD.
基于分槽集中绕组多相轴向磁通永磁电机的集成模块化电机驱动
集成电机驱动(IMD)的概念与可能的模块化已经引起了广泛的应用,从低功率通用工业驱动到大功率电力推进。本文介绍了在相同直径和轴向长度增加最小的情况下,在imd中使用具有分数槽集中绕组的普通轴向磁通永磁(AFPM)电机的可行性研究和性能评价。在不改变绕组额定电流的情况下,比较了不同绕组配置的转矩/功率能力和容错性。从充分利用永磁电机产生的气隙场谐波的角度,讨论了进一步提高转矩的可能性。实验室中可用的AFPM机器已被拆解并用于构建概念验证设计,以显示拟议设计的可行性和IMD的优势。
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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