电子变极增强恒功率区感应电机的设计与分析

Taohid Latif, I. Husain
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引用次数: 9

摘要

换极电机对于牵引应用非常有用,这需要在低速下的高扭矩和扩展的运行速度范围。双极操作可用于在高极配置启动时提取高扭矩,并在低极操作时增加恒定功率区域。虽然过去已经研究了变极电机,但基本上没有研究与如何优化电机以提高运行的整体转矩-速度特性有关的研究。本文利用motor - cad软件中的有限元分析和解析计算工具,讨论了四极/二极感应电动机的设计和分析。设计和优化了感应电机,以提高整个操作范围的性能。与基准电机相比,变极电机的转矩和功率特性在恒功率区域具有增强的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and analysis of an induction motor for an enhanced constant power region with electronic pole changing
Pole changing motors can be very useful for traction applications, which require high torque at low speeds and an extended speed range of operation. The dual pole operation can be used to extract high torque during starting with a high pole configuration and an increased constant power region with a lower pole operation. Although pole changing motors have been studied in the past, there is essentially no research related to how a motor can be optimized for improved performance in terms of the overall torque-speed characteristics of operation. In this paper, we discuss the design and analysis of a 4-pole/2-pole induction motor using the Finite Element Analysis and analytical computation tools in Motor-CAD software. An induction motor is designed and optimized for improved performance for the entire range of operation. Torque and power characteristics of the pole changing motor are shown to have enhanced performance in the constant power region in comparison to the baseline motor.
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