Vibration Suppression for Active Magnetic Bearings Using Adaptive Filter with Iterative Search Algorithm

Jin-Hui Ye;Dan Shi;Yue-Sheng Qi;Jin-Hui Gao;Jian-Xin Shen
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Abstract

Active Magnetic Bearing (AMB) is a kind of electromagnetic support that makes the rotor movement frictionless and can suppress rotor vibration by controlling the magnetic force. The most common approach to restrain the rotor vibration in AMBs is to adopt a notch filter or adaptive filter in the AMB controller. However, these methods cannot obtain the precise amplitude and phase of the compensation current. Thus, they are not so effective in terms of suppressing the vibrations of the fundamental and other harmonic orders over the whole speed range. To improve the vibration suppression performance of AMBs, an adaptive filter based on Least Mean Square (LMS) is applied to extract the vibration signals from the rotor displacement signal. An Iterative Search Algorithm (ISA) is proposed in this paper to obtain the corresponding relationship between the compensation current and vibration signals. The ISA is responsible for searching the compensating amplitude and shifting phase online for the LMS filter, enabling the AMB controller to generate the corresponding compensation force for vibration suppression. The results of ISA are recorded to suppress vibration using the Look-Up Table (LUT) in variable speed range. Comprehensive simulations and experimental validations are carried out in fixed and variable speed range, and the results demonstrate that by employing the ISA, vibrations of the fundamental and other harmonic orders are suppressed effectively.
采用迭代搜索算法的自适应滤波器抑制有源磁轴承的振动
有源磁悬浮轴承(AMB)是一种通过控制磁力使转子运动无摩擦并能抑制转子振动的电磁支撑装置。抑制 AMB 转子振动最常用的方法是在 AMB 控制器中采用陷波滤波器或自适应滤波器。然而,这些方法无法获得补偿电流的精确幅值和相位。因此,它们在抑制整个转速范围内的基阶和其他谐阶振动方面效果不佳。为了提高 AMB 的振动抑制性能,采用了基于最小均方(LMS)的自适应滤波器,从转子位移信号中提取振动信号。本文提出了一种迭代搜索算法(ISA),以获得补偿电流与振动信号之间的对应关系。ISA 负责在线搜索 LMS 滤波器的补偿幅值和移相,使 AMB 控制器能够产生相应的补偿力来抑制振动。ISA 的结果被记录下来,以便在变速范围内使用查找表(LUT)抑制振动。在固定和变速范围内进行了全面的模拟和实验验证,结果表明,通过采用 ISA,基阶和其他谐阶的振动得到了有效抑制。
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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