Experience of Toroidally Wound Double Rotor Axial-Gap Induction Machine With Soft Magnetic Composites

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Industry Applications Pub Date : 2021-12-06 DOI:10.1109/OJIA.2021.3132631
Masahiro Aoyama;Hiroki Tsuya;Syotaro Hirata;Lars Sjöberg
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引用次数: 2

Abstract

In this paper, a double axial gap type induction motor having a toroidal winding stator structure is proposed for the purpose of improving the torque density and efficiency of the induction machine. It consists of an axial type squirrel-cage induction rotor, and a toroidal winding stator structure suitable for armature copper loss reduction, miniaturization and a double axial gap structure. After explaining the reasons for selecting the single stator and double rotor structures, the structural design of the prototype and the experimental setup will be reported. The slip- vs .-torque characteristics are measured to clarify the drive characteristics, and the features of the proposed motor used soft magnetic composites are discussed by the equivalent circuit method. As a result, it was experimentally clarified that the double axial gap type induction motor with soft magnetic composites has a high slip torque characteristic and the reduction of the excitation current is an important issue for improving the performance.
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软磁复合材料绕制双转子轴向间隙感应电机的经验
为了提高感应电机的转矩密度和效率,本文提出了一种具有环形绕组定子结构的双轴间隙型感应电机。它由轴向型鼠笼式感应转子、适用于降低电枢铜损耗、小型化和双轴隙结构的环形绕组定子结构组成。在解释了选择单定子和双转子结构的原因后,将报告原型的结构设计和实验装置。滑动-vs-通过测量转矩特性来阐明驱动特性,并用等效电路法讨论了所提出的软磁复合材料电机的特性。结果表明,采用软磁复合材料的双轴间隙型感应电动机具有高滑差转矩特性,减小励磁电流是提高性能的重要问题。
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