Dimensioning of a permanent magnet synchronous machine for electric vehicles according to performance and integration requirements

Automotive and Engine Technology Pub Date : 2022-01-05 DOI:10.1007/s41104-021-00097-y

Moritz Künzler, Robin Pflüger, Robert Lehmann, Quentin Werner

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引用次数: 1

Abstract

Finding the optimum design of electrical machines for a certain purpose is a time-consuming task. First results can be achieved, however, with scaling known machine designs in length and turns per coil by means of analytical equations, while scaling in diameter requires finite element analysis (FEA), since electromagnetic properties change significantly. In this paper, the influence of diameter, length and turns per coil on the torque, power and efficiency of a permanent magnet synchronous machine (PMSM) are investigated in a sensitivity analysis. Furthermore, their impact on energy consumption in different drive cycles and different vehicle types is outlined. A highway car and a city car are compared in a highway cycle, a city cycle and the Worldwide Harmonized Light Vehicle test Cycle. The results describe significant differences in energy consumption for different machine designs in one application but also between different applications. This highlights the necessity to decide whether or not the powertrain should be optimized for a single purpose or for universal use.

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根据性能和集成要求的电动汽车用永磁同步电机尺寸

为某一目的寻找电机的最佳设计是一项耗时的任务。然而，通过分析方程按长度和每个线圈匝数缩放已知的机器设计，可以获得第一个结果，而按直径缩放需要有限元分析（FEA），因为电磁特性会发生显著变化。在灵敏度分析中，研究了直径、长度和线圈匝数对永磁同步电机转矩、功率和效率的影响。此外，还概述了它们在不同驾驶循环和不同车型中对能源消耗的影响。公路车和城市车在公路循环、城市循环和全球协调轻型车辆试验循环中进行比较。结果描述了在一个应用中不同机器设计的能耗以及不同应用之间的能耗的显著差异。这突出了决定动力总成是否应针对单一用途或通用进行优化的必要性。

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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Automotive and Engine Technology

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