Analysis of Six-Phase Induction Motor with Distributed and Concentrated Windings by Using the Winding Function Method

2018 XIII International Conference on Electrical Machines (ICEM) Pub Date : 2018-09-01 DOI:10.1109/ICELMACH.2018.8507049

G. Rezazadeh, S. Vaschetto, F. Tahami, G. Capolino, H. Henao, Z. Nasiri-Gheidari

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引用次数: 5

Abstract

Multi-phase induction motors feature a high fault-tolerance capability that makes them suitable for safety critical applications. On the other hand, concentrated winding is more fault-tolerant than conventional distributed winding. Therefore, the general idea is to use concentrated winding on the six-phase induction motor to gain more fault-tolerance capacity. Using concentrated winding has several advantages over distributed one, but it has the disadvantage of higher distortion of air gap flux density, which affects the motor performance significantly. In this paper, some concentrated windings are studied analytically by using the winding function analysis, and the layout with better performance is chosen to be compared with the conventional 2-pole distributed winding. With reference to the lamination of a 90W symmetrical six-phase induction motor, both calculation and simulation results show that the performance of the selected concentrated winding is not comparable with the distributed winding. Performance measurements from pervious works, are used for evaluation.

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用绕组函数法分析分布绕组和集中绕组的六相异步电动机

多相感应电动机具有高容错能力，适用于安全关键应用。另一方面，集中绕组比传统的分布式绕组具有更强的容错性。因此，一般的想法是在六相感应电动机上使用集中绕组，以获得更大的容错能力。与分布绕组相比，集中绕组有许多优点，但缺点是气隙磁通密度畸变较大，对电机性能影响较大。本文采用绕组函数分析法对一些集中绕组进行了分析研究，并与传统的2极分布绕组进行了比较，选择了性能较好的集中绕组。以90W对称六相异步电动机为例，计算和仿真结果表明，所选择的集中绕组的性能与分布绕组的性能不具有可比性。以往工作的表现量度，被用作评估。

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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2018 XIII International Conference on Electrical Machines (ICEM)

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