Reliable Design of PMaSynRM

New Trends in Electrical Vehicle Powertrains Pub Date : 2018-11-05 DOI:10.5772/INTECHOPEN.76355

Carlos López-Torres, A. Espinosa, Jordi-Roger Riba Ruiz

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Abstract

Electric vehicles require highly reliable and resilient electric motors, due to the harsh operating conditions they must withstand. To this end, there is a current trend to design rareearth-free machines. Traction electric motors must be optimized in terms of efficiency, torque density, power factor, constant power speed ratio, and cost. Although different technologies are available, permanent magnet assisted synchronous reluctance motors (PMa-SynRM) are promising candidates for such applications. Nowadays, the optimal design process of electrical motors is based on finite element method (FEM) simulations. However, it is very time consumingwith a heavy computational burden process, so in order to speed up the optimization process, it is very appealing to have an accurate pre-design of the machine. In this chapter, the electromagnetic pre-design of a PMaSynRM is developed. In the proposed electromagnetic pre-design process, the geometry of the machine is calculated based on analytical equations that take into account the thermal, electrical, magnetic, and mechanical behavior of the machine to ensure a suitable and reliable design.

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PMaSynRM的可靠设计

电动汽车需要高度可靠和弹性的电动机，因为它们必须承受恶劣的运行条件。为此，目前有一种趋势是设计不含稀土的机器。牵引电动机必须在效率、转矩密度、功率因数、恒功率速比和成本等方面进行优化。尽管有不同的技术可供选择，但永磁辅助同步磁阻电机(PMa-SynRM)是此类应用的有希望的候选人。目前，电机的优化设计过程是基于有限元模拟的。然而，这是一个非常耗时且计算量很大的过程，因此为了加快优化过程，对机器进行精确的预设计是非常有吸引力的。在本章中，对PMaSynRM的电磁预设计进行了研究。在提出的电磁预设计过程中，机器的几何形状是基于考虑到机器的热、电、磁和机械行为的分析方程来计算的，以确保合适和可靠的设计。

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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New Trends in Electrical Vehicle Powertrains

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