Comparison Between Six-Phase and Three-Phase High-Speed Drag-Cup Induction Motor in Terms of Cup Losses

2018 5th International Symposium on Environment-Friendly Energies and Applications (EFEA) Pub Date : 2018-09-01 DOI:10.1109/EFEA.2018.8617077

M. Terzic, B. Brkovic

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Abstract

Constant demands for increasing power density and safety of drive units are very actual, especially in the automotive applications. This is the reason why high-speed machines have been in the research focus recently. They offer the possibility to decrease the volume for the same amount of delivered power, which is produced at higher speed but lower torque which is directly proportional to the machine dimensions. Moreover, the application of multiphase windings increases the safety margin and power density of the system. The focus of this paper is on the drag-cup induction motor which is suitable for high-speed applications because of its inherently low inertia. The paper extends the previous research in this field by introduction of a six-phase winding which is than compared with the previously designed three-phase variant. Comparison is based on the analysis of magneto-motive force (MMF) and magnetic field spectra and their influence on the drag-cup losses. Analysis is performed by means of FEM simulations of the current distribution in the cup due to different MMF harmonics.

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六相与三相高速拖曳杯形感应电动机杯形损耗的比较

不断提高功率密度和驱动单元的安全性的需求是非常实际的，特别是在汽车应用中。这就是高速机器最近成为研究焦点的原因。它们提供了减少相同输出功率的体积的可能性，这是在更高的速度下产生的，但与机器尺寸成正比的扭矩更低。此外，多相绕组的应用提高了系统的安全裕度和功率密度。本文的重点是拖曳杯式感应电动机，由于其固有的低惯性，适合高速应用。本文通过引入一种六相绕组来扩展这一领域的研究，该绕组与以前设计的三相绕组相比有很大的不同。通过分析磁动势(MMF)和磁场谱及其对拖杯损耗的影响，进行了比较。采用有限元模拟的方法，分析了不同的毫米波谐波对杯内电流分布的影响。

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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来源期刊

2018 5th International Symposium on Environment-Friendly Energies and Applications (EFEA)

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