Optimal Rotor Shape Design of LSPM With Efficiency and Power Factor Improvement Using Response Surface Methodology

Saha Subrato; Choi Gui-Dong; Cho Yun-Hyun

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Optimal Rotor Shape Design of LSPM With Efficiency and Power Factor Improvement Using Response Surface Methodology

机译：响应面法优化LSPM转子效率和功率因数的最佳形状设计

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Recently, the line-start permanent magnet motor (LSPM) has been a well-known motor due to its technical advantages in academic and industrial applications. The LSPM combines a permanent magnet (PM) rotor that allows higher motor efficiency during the synchronous operation and an induction motor squirrel cage rotor for starting the motor by connecting it directly to an ac source. In this paper, we will deal with the efficiency and the power factor (PF) improvement of a 3.7 kW, two-pole, three-phase LSPM. The efficiency improvement can be effectively achieved by designing the optimization of the rotor structure using the response surface methodology. The optimized slot shape of PM was selected for the prototype machine, which improves the efficiency and the PF of the LSPM.

机译：最近，由于其在学术和工业应用中的技术优势，线启动永磁电动机（LSPM）已成为众所周知的电动机。 LSPM组合了一个永磁（PM）转子和一个异步电动机鼠笼式转子，该转子在同步运行期间可提高电动机效率，该电动机通过将电动机直接连接到交流电源来启动电动机。在本文中，我们将处理3.7 kW两极三相LSPM的效率和功率因数（PF）的改进。通过使用响应面方法对转子结构进行优化设计，可以有效地实现效率提高。为原型机选择了优化的PM槽形，从而提高了LSPM的效率和PF。

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来源
《Magnetics, IEEE Transactions on》 |2015年第11期|1-4|共4页
作者
Saha Subrato; Choi Gui-Dong; Cho Yun-Hyun;
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作者单位

Department of Electrical Engineering, Dong-A University, Busan, Korea;

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原文格式 PDF
正文语种 eng
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关键词
Finite element analysis (FEA); Line start permanent magnet motor; Optimization; Response Surface Methodology; finite element analysis; line-start permanent magnet motor (LSPM); optimization; response surface methodology (RSM);

机译：有限元分析（FEA）;线启动永磁电动机;优化;响应面方法;有限元分析;线启动永磁电动机（LSPM）;优化;响应面方法（RSM）;

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Optimal Rotor Shape Design of LSPM With Efficiency and Power Factor Improvement Using Response Surface Methodology

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