B. Virlan, A. Simion, L. Livadaru, S. Benelghali, R. Outbib
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引用次数: 6
摘要
本文研究了一种具有多极定子绕组的外转子感应电动机的新结构。新的设计方案是通过基于有限元分析的方法对一个实际模型进行重构的结果。主要的改造包括用环形绕组代替常规卷筒绕组,这使得在改变极对数量方面具有很高的灵活性。其目的主要是通过改变同步速度来创造获得优越转矩能力的可能性。初步研究从基本模型的实验室实验测试开始,然后进行基于有限元法的仿真。此外,鼓形绕组已被为p = 1, p = 2和p = 4设计的环形(环)绕组所取代。在这种结构下,进行了新的仿真,以便与实际模型进行适当的比较。分析工具使用了磁动力学和瞬态模拟。
Analysis of a three phase induction motor with outer rotor for multi-speed applications
This paper presents a study upon a new configuration of an outer rotor induction motor with multipole stator winding. The new design comes out as a result of a reconfiguration process of a real model by means of FEM-based analysis. The main transformation consists in replacement of the regular drum winding with a toroidal one, which allows a high flexibility in changing the number of pole pairs. The purpose is mainly to create the possibility of obtaining a superior torque capability by changing the synchronous speed. The primary study started with the laboratory experimental tests of the basic model followed by a simulation based on finite element method. Further, the drum winding has been replaced with a toroidal (ring) one designed for p = 1, p = 2 and p = 4. In this structure, new simulations have been run in order to make a proper comparison to the real model. The analysis tool used both magneto-dynamic and transient simulations.
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