Torque capabilities of a five-phase PM BLDC drive vs. a three-phase one and various supply modes

2014 IEEE International Electric Vehicle Conference (IEVC) Pub Date : 2014-12-01 DOI:10.1109/IEVC.2014.7056098

R. Keshri, S. Garlapati, A. Tessarolo, G. Buja

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引用次数: 4

Abstract

Electric drives with a three-phase structure are commonly utilized in road vehicles for propulsion and in aeronautics as control-surface actuators. In recent times, some concerns have emerged on the use of three-phase drives in such applications in regard to power capability, efficiency and fault-tolerance. A way to effectively cope with these concerns is the adoption of multiphase drives. In this sense, a five-phase drive is a promising solution as it does not imply an excessively complicated structure. In this paper a five-phase PM BLDC drive is considered and its torque capabilities are investigated for square-wave current supply. Specifically, the torque developed by a five-phase drive is first compared to the three-phase counterpart; torque comparison is carried out by keeping motor size and loading unchanged and by considering two hypotheses: equal phase back-emf and equal phase rms current. Then the torque available from a five-phase drive is determined under various supply modes, characterized by the simultaneous conduction of a reduced number of phases; the torque available is determined by imposing an equal rms phase current in the supply modes.

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五相永磁无刷直流驱动器与三相和各种供电模式的扭矩能力

三相结构的电驱动器通常用于道路车辆的推进和航空领域的控制面执行器。近年来，在此类应用中使用三相驱动器在功率，效率和容错性方面出现了一些问题。有效解决这些问题的一种方法是采用多相驱动器。从这个意义上说，五相驱动是一个很有前途的解决方案，因为它不意味着过于复杂的结构。本文考虑了一种五相永磁无刷直流驱动器，并研究了其在方波电流供电下的转矩性能。具体来说，首先将五相驱动器产生的扭矩与三相驱动器进行比较;转矩比较是在保持电机尺寸和负载不变的情况下进行的，并考虑两个假设:等相反电动势和等相均方根电流。然后确定了五相驱动在不同供电方式下的可用转矩，其特征是同时导通的相数减少;可用的转矩是通过在供电模式中施加相等的均方根相电流来确定的。

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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2014 IEEE International Electric Vehicle Conference (IEVC)

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