Comparison of Losses in Short Flux-Path Topologies for Switched Reluctance Machines

2020 IEEE 14th International Conference on Compatibility, Power Electronics and Power Engineering (CPE-POWERENG) Pub Date : 2020-07-01 DOI:10.1109/CPE-POWERENG48600.2020.9161661

P. Lobato, S. Rafael, A. Pires

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Abstract

In the design of electrical machines and particularly in Switched Reluctance (SR) Machines, the magnetic circuit topology plays a crucial role in machine operation and performance. The effect of the double overhang is perceptible in the magnetic characteristic of the SR Machine, so peculiar as fundamental for its operation. In fact, the drawing of magnetic topologies including short flux-paths for these machines allows to reduce the magnetomotive force absorbed in the stator. In this paper short flux-path topologies and regular topologies supported in finite element analysis are compared after formulating a set of scaling laws for losses. By previously establishing some constraints of physical and material nature, the scale model methodology proposed covers the thermal and electromagnetic phenomena that occur during the process of energy conversion. Thus, dimensional and symmetry arguments are invoked in the choice of magnetic topologies, leading the discussion on SR machine design to another paradigm.

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开关磁阻电机短通径拓扑损耗比较

在电机特别是开关磁阻电机的设计中，磁路拓扑结构对电机的运行和性能起着至关重要的作用。双悬臂的影响在SR机器的磁特性中是可以觉察到的，它是如此独特，是其运行的基础。事实上，磁性拓扑结构的绘制包括这些机器的短磁通径允许减少定子吸收的磁动势。本文在建立了一套损耗标度律的基础上，对有限元分析中支持的短通径拓扑和规则拓扑进行了比较。通过先前建立一些物理和材料性质的约束，所提出的比例模型方法涵盖了能量转换过程中发生的热和电磁现象。因此，在磁拓扑的选择中调用了尺寸和对称性参数，将SR机器设计的讨论引向另一个范式。

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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2020 IEEE 14th International Conference on Compatibility, Power Electronics and Power Engineering (CPE-POWERENG)

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