选择性径向力谐波抑制开关磁阻电机的振动和噪声

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Candra Adi Wiguna;Yifei Cai;Lim Li Sing Sarah Lilian;Jihad Furqani;Yusuke Fujii;Kyohei Kiyota;Akira Chiba
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引用次数: 0

摘要

本文提出了一种降低三相6/10开关磁阻电动机(SRM)振动和声学噪声的新方法。测试机器在2${\text{nd}}$、4${\txt{th}}$、5${\text{th}}}美元、7${\txt{th}}$和8${\ttext{th}}$谐波处具有主要振动和声学噪声。因此,提出了一种新的方法,称为“选择性径向力谐波减少”。所提出的方法选择性地降低了定子齿处的特定径向力谐波。通过减少特定的径向力谐波,如2$、4$、5$、7$和8$,可以在试验机中显著降低相应的振动和声学噪声。在本研究中,介绍了所提出方法的电流计算。此外,通过有限元分析和实验验证了该方法的有效性。与传统的方电流相比,实验结果表明,在额定转速和转矩下,使用该方法可将总声压级降低7.1dBA。文中还介绍了采用该方法的试验机的动态条件。因此,所提出的方法在降低三相6/10 SRM的振动和声学噪声方面是有效的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Vibration and Acoustic Noise Reduction in Switched Reluctance Motor by Selective Radial Force Harmonics Reduction
This article presents a novel method for vibration and acoustic noise reduction in a three-phase 6/10 switched reluctance motor (SRM). The test machine has major vibration and acoustic noise at the 2 ${\text{nd}}$ , 4 ${\text{th}}$ , 5 ${\text{th}}$ , 7 ${\text{th}}$ , and 8 ${\text{th}}$ harmonics. Accordingly, a novel method called “selective radial force harmonics reduction” is proposed. The proposed method selectively reduces the specific radial force harmonics at the stator teeth. By reducing the specific radial force harmonics such as 2 ${\text{nd}}$ , 4 ${\text{th}}$ , 5 ${\text{th}}$ , 7 ${\text{th}}$ , and 8 ${\text{th}}$ , the corresponding vibration and acoustic noise can be reduced significantly in the test machine. In this study, a current calculation for the proposed method is introduced. In addition, finite element analysis and experiments are conducted to verify the effectiveness of the proposed method. Compared with a conventional square current, the experimental results show that the overall sound pressure level is reduced by 7.1 dBA using the proposed method at the rated speed and torque. The dynamic conditions of the test machine using the proposed method are also presented. As a result, the proposed method is effective in reducing vibration and acoustic noise in the three-phase 6/10 SRM.
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CiteScore
13.50
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