Optimization of Standard PMDC Motors Used in Automotive Applications for Higher Power Density

2016 Third International Conference on Mathematics and Computers in Sciences and in Industry (MCSI) Pub Date : 2016-08-01 DOI:10.1109/MCSI.2016.013

Y. L. Karnavas, I. Chasiotis, Emmanouil D. Peponakis

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引用次数: 5

Abstract

Aim of this work is the development of a competitive alternate design topology (in terms of power density) of a small permanent magnet dc (PMDC) motor found in automotive applications. Initially, a real industrial motor is measured, designed and simulated, while its measurements and the relevant manufacturer data are considered as a benchmark. In turn, through custom developed software, a redesigned configuration is proposed regarding the structural (stator, rotor, magnets) geometry and magnet material. The resulting geometry was obtained through a constrained optimization algorithm having as goal the minimization of the overall volume and it was further verified by commercial finite element method (FEM) analysis software. Also, the new model is compared with the benchmark motor. Last but not least, FEM analysis was used for thermal behavior evaluation. The overall results reveal that the energy density and the performance of the proposed topology were substantially increased, while the cost was remained low.

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汽车应用中用于更高功率密度的标准PMDC电机的优化

这项工作的目的是为汽车应用中的小型永磁直流(PMDC)电机开发一种具有竞争力的替代设计拓扑(在功率密度方面)。首先，对一台真实的工业电机进行测量、设计和仿真，同时将其测量值和相关制造商数据作为基准。然后，通过定制开发的软件，提出了关于结构(定子，转子，磁铁)几何形状和磁铁材料的重新设计配置。通过以整体体积最小为目标的约束优化算法得到最终的几何形状，并通过商用有限元分析软件进一步验证。并与基准电机进行了比较。最后，采用有限元分析方法进行热行为评价。总体结果表明，所提出的拓扑结构的能量密度和性能都有了很大的提高，而成本仍然很低。

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

2016 Third International Conference on Mathematics and Computers in Sciences and in Industry (MCSI)

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