Vibration and noise in novel variable flux reluctance machine with DC-field coil in stator

Proceedings of The 7th International Power Electronics and Motion Control Conference Pub Date : 2012-06-02 DOI:10.1109/IPEMC.2012.6258969

X. Liu, Z. Zhu, M. Hasegawa, A. Pride, R. Deodhar

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引用次数: 36

Abstract

The vibration and acoustic noise are investigated in a novel variable flux reluctance machine, which utilizes a DC-field coil in the stator to achieve on-line adjustment of air-gap flux density. The capability of adjusting air-gap flux density is expected to improve the efficiency and extend the speed range. The doubly salient structure in switched reluctance machines (SRM) is employed in the variable flux reluctance machine, together with the non-overlapping concentrated windings to reduce the copper loss. The 2D and 3D-finite element analyses are employed to predict the radial force and vibration modes in the variable flux reluctance machine, respectively. With the aid of vector control, which employs space vector pulse-width modulation, the vibration and acoustic noise in this novel machine are experimentally investigated, together with the comparison with SRM, which has the same stator/rotor pole combination. Compared with SRM, under the same load condition, the variable flux reluctance machine significantly reduces the vibration of mode 2, which is dominant in the SRM.

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新型定子直流励磁线圈变磁阻电机的振动与噪声

研究了一种新型变磁阻电机的振动和噪声，该电机利用定子中的直流磁场线圈实现气隙磁通密度的在线调节。气隙磁通密度的调节能力有望提高效率，扩大速度范围。变磁通磁阻电机采用开关磁阻电机的双凸极结构，并采用不重叠的集中绕组，降低了铜损耗。采用二维和三维有限元分析分别预测了变磁阻电机的径向力和振动模式。采用空间矢量脉宽调制的矢量控制方法，对该电机的振动和噪声进行了实验研究，并与具有相同定子/转子极组合的SRM进行了比较。与SRM相比，在相同负载条件下，变磁通磁阻电机显著降低了模式2的振动，在SRM中占主导地位。

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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Proceedings of The 7th International Power Electronics and Motion Control Conference

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