Comprehensive cost optimization study of high-efficiency brushless synchronous machines

2013 International Electric Machines & Drives Conference Pub Date : 2013-05-12 DOI:10.1109/IEMDC.2013.6556291

G. Bramerdorfer, S. Silber, G. Weidenholzer, W. Amrhein

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引用次数: 33

Abstract

Due to the increasing significance of energy saving, multiple regulations have been introduced by countries or international organizations regarding the efficiency of electric drives, e.g. the IEC 60034-30 [1]. In the past, many companies replaced induction machines (IMs) by permanent magnet excited synchronous machines (PMSMs). This lead to a considerable increase of the efficiency, but due to the fluctuating price of the permanent magnets, especially of Neodymium-Iron-Boron(NdFeB)-magnets, the cost of PMSMs is hardly predictable. Therefore, many manufacturers are investigating in synchronous reluctance machines (SyncRM) now. In this article, the motor design for standardized rated power Prate = 3kW and nominal synchronous speed of nrate = 1500rpm is taken into consideration. Different motor topologies are analyzed regarding the trade-off between efficiency and material costs, including PMSMs and SyncRMs. This is done for two different cost scenarios. Finally, the cheapest designs that fulfill the IE-2 and IE-3 requirements, respectively, can be determined.

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高效无刷同步电机综合成本优化研究

由于节能的重要性日益增加，各国或国际组织针对电驱动效率出台了多项法规，如IEC 60034-30[1]。过去，许多公司用永磁励磁同步电机(PMSMs)代替感应电机(IMs)。这大大提高了效率，但由于永磁体的价格波动，特别是钕铁硼(NdFeB)永磁体的价格波动，永磁同步电动机的成本很难预测。因此，现在许多制造商都在研究同步磁阻电机(SyncRM)。本文考虑的电机设计标准额定功率Prate = 3kW，公称同步转速nrate = 1500rpm。分析了不同的电机拓扑结构在效率和材料成本之间的权衡，包括pmsm和syncrm。这是在两种不同的成本情况下完成的。最后，可以确定分别满足IE-2和IE-3要求的最便宜的设计。

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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2013 International Electric Machines & Drives Conference

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