Driving range evaluation of a multi-phase drive for low voltage high power electric vehicles

2015 International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART) Pub Date : 2015-11-01 DOI:10.1109/SMART.2015.7399237

A. Patzak, F. Bachheibl, A. Baumgardt, G. Dajaku, O. Moros, D. Gerling

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引用次数: 24

Abstract

This paper introduces an alternative to present state-of-the-art electric traction drives powered by HV batteries: a maximum of 330 kW can be deployed mechanically by a LV multi-phase system. Both the ability to switch the electric machine's number of pole pairs and a very efficient 60-phase inverter based on MOSFETs promise a dramatic reduction of losses inside the power train. Investigations on driving cycle efficiencies are carried out for a HV reference system and the novel LV system. The New European Driving Cycle (NEDC) and the driving cycle of the Worldwide harmonized Light vehicles Test Procedures (WLTC) are virtually driven by a common vehicle model in order to determine load profiles for both traction systems. Losses in electric machine, power electronics and battery are estimated and the total vehicle's energy consumption is derived. The novel LV traction system promises a great enhancement in driving range compared to the state-of-the-art HV drive.

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低压大功率电动汽车多相驱动续驶里程评价

本文介绍了目前最先进的由高压电池供电的电力牵引驱动器的替代方案:低压多相系统可以机械地部署最大330千瓦的电力。开关电机极对数量的能力和基于mosfet的非常高效的60相逆变器都承诺大大减少动力系统内部的损耗。研究了高压参考系统和新型低压参考系统的驱动循环效率。新欧洲驾驶循环(NEDC)和全球统一轻型车辆测试程序(WLTC)的驾驶循环实际上是由一个共同的车辆模型驱动的，以便确定两个牵引系统的负载分布。估算了电机、电力电子和电池的损耗，并推导了整车的总能耗。新颖的低压牵引系统承诺一个很大的提高，在驾驶范围相比，最先进的高压驱动。

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

2015 International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART)

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