Harmonic Injection Method for NVH Optimization of Permanent Magnet Synchronous Motors Considering the Structural Characteristics of the Machine

Tongfang Fu, Zhipeng Xu, M. Günther, Stefan Pischinger, Simon Böld
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Abstract

Noise, vibration and harshness (NVH) is one of the most important performance evaluation aspects of electric motors. Among the different causes of the NVH issues of electrical drives, the spatial and temporal harmonics of the electrical drive system are of great importance. To reduce the tonal noise of the electric motors induced by these harmonics, harmonic injection methods are applied in many applications. However, a lot of existing researches focus more either on improving the optimization process of the harmonic injection parameter settings, or on the controller design of the harmonic injection process, while the structural dynamic characteristics of the motor are seldom considered. A lot of literature shows that the harmonic injection strategies can more effectively influence the mode 0 (M0) radial forces than the higher spatial orders, so it is more efficient to apply such methods at the frequencies/orders where the effect of mode 0 forces are dominant with respect to the surface vibration or acoustics of the motor. In this paper, a guideline is proposed for the design and optimization of current harmonic injection strategies, where a 2-dimensional linear transfer function is computed to quantify the contributions of different force modes and it is used as the reference for the harmonic injection control settings. The proposed method is tested and validated with the multi-physics co-simulation of a finite-element model for an interior permanent magnet synchronous motor (IPMSM), where the influence of the inverter and pulse width modulation (PWM) are also considered and analyzed. The simulation results show that the proposed scheme can effectively reduce the surface vibration (~1.5dB) at the chosen sensor location without deteriorating the torque output performance of the IPMSM model.
考虑机器结构特性的谐波注入法用于永磁同步电机的 NVH 优化
噪声、振动和声振粗糙度(NVH)是电机性能评估中最重要的方面之一。在造成电力驱动 NVH 问题的各种原因中,电力驱动系统的空间和时间谐波非常重要。为了降低这些谐波引起的电机音调噪声,谐波注入方法被广泛应用。然而,现有的大量研究更多地侧重于改进谐波注入参数设置的优化过程,或谐波注入过程的控制器设计,而很少考虑电机的结构动态特性。大量文献表明,谐波注入策略对模态 0 (M0) 径向力的影响比对较高空间阶数的影响更为有效,因此在模态 0 力对电机表面振动或声学影响占主导地位的频率/阶数上应用此类方法更为有效。本文提出了一种用于设计和优化当前谐波注入策略的指南,通过计算二维线性传递函数来量化不同力模式的贡献,并将其作为谐波注入控制设置的参考。通过对内部永磁同步电机(IPMSM)的有限元模型进行多物理场协同仿真,测试并验证了所提出的方法,同时还考虑并分析了逆变器和脉宽调制(PWM)的影响。仿真结果表明,所提出的方案可有效降低所选传感器位置的表面振动(约 1.5dB),而不会降低 IPMSM 模型的扭矩输出性能。
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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