A comparative evaluation of motor drive topologies for low-voltage, high-power EV/HEV propulsion systems

2003 IEEE International Symposium on Industrial Electronics ( Cat. No.03TH8692) Pub Date : 2003-06-09 DOI:10.1109/ISIE.2003.1267278

B. A. Welchko, J. Nagashima

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引用次数: 42

Abstract

The recent adoption of the 42 V powernet standard for the next generation of vehicles has focused substantial research effort into the design of electric machines for light hybrid vehicles. However, research investigating the merits of topology selection for this application has been sparse. This paper investigates the potential performance benefits, which could be realized by adopting a different inverter topology. This paper discusses the merits of delta-connected motors, bipolar inverters and cascaded inverters when compared to a standard inverter. The flexibility provided by adopting a non-standard topology can produce a better overall design when one or more of the design specifications are proving difficult to meet economically with the standard topology. As a particular design example, this paper shows that a cascaded inverter topology driving an open winding motor can increase the high-speed power density of an induction motor by 73%. For an interior permanent magnet motor, this paper shows that this topology can increase low speed torque by 9% and high-speed power by up to 300%.

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低压大功率EV/HEV推进系统的电机驱动拓扑比较评估

最近，新一代汽车采用了42伏电力网标准，这使得轻型混合动力汽车的电机设计方面的研究工作更加集中。然而，针对该应用程序的拓扑选择优点的研究很少。本文研究了通过采用不同的逆变器拓扑可以实现的潜在性能优势。本文讨论了与标准逆变器相比，三角连接电机、双极逆变器和级联逆变器的优点。当一个或多个设计规范被证明难以经济地满足标准拓扑时，采用非标准拓扑所提供的灵活性可以产生更好的总体设计。作为一个具体的设计实例，本文表明，级联逆变器拓扑驱动开式绕组电机可以使异步电机的高速功率密度提高73%。对于内嵌式永磁电机，本文表明该拓扑结构可将低速转矩提高9%，高速功率提高300%。

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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2003 IEEE International Symposium on Industrial Electronics ( Cat. No.03TH8692)

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