发夹绕组的绕组对称性和循环电流的评价

M. England, Boris Dotz, B. Ponick
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引用次数: 8

摘要

发夹绕组由于其高槽填充系数和高度自动化的制造工艺而广泛应用于汽车牵引电机。发夹在定子槽中分层排列,与传统的绞合线绕组相比,在设计过程中提供了额外的自由度。但是,如果每个并联支路的电磁力或有效支路电阻不同,则可能在并联支路内产生环流。因此,过去已经制定了一些设计规则。在本研究中,提出了短间距和全间距发夹绕组的设计,并评估了它们对循环电流的激励。本文对单槽发夹导体和示范性机械中的电流位移效应进行了时域有限元分析。结果表明,通常应用的设计准则不足以完全防止循环电流。因此,提出了弱对称性和强对称性的定义,后者确保循环电流不被激发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Winding Symmetry and Circulating Currents of Hairpin Windings
Hairpin windings are widely used in automotive traction motors due to their high slot fill factor and their highly automated manufacturing process. The hairpins are arranged in layers in the stator slots, which offer additional degrees of freedom compared to conventional stranded wire windings in the design process. However, a circulating current within the parallel branches can occur, if the electromagnetic force or the effective branch resistance of each parallel branch differs. Consequently, several design rules have been formulated in the past. In this research, designs of short-pitched and full-pitched hairpin windings are presented and their excitation of circulating currents is evaluated. Time-transient finite element analyses of the current displacement effects in hairpin conductors in a single slot and in an exemplary machine are performed. It is shown that commonly applied design guidelines are not sufficient to fully prevent circulating currents. As a consequence, the definitions of weak and strong symmetry are suggested, the latter of which ensuring that circulating currents are not excited.
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