Experimental study on an enhanced integral force feedback controller for active damping

Journal of Low Frequency Noise, Vibration and Active Control Pub Date : 2024-04-10 DOI:10.1177/14613484241244673

Minna Qiao, Luhua Liu, Bosong Cai, Peigen Wang, Guoying Zhao

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Abstract

In this paper, an enhanced integral force feedback controller is proposed for implementing active damping. Compared with the classical integral force feedback, the pure integrator is replaced with a combination of a first-order low-pass filter and a proportional term. The control performance of the proposed controller is examined on a single-degree-of-freedom host system. In order to better understand the physics behind, a full equivalent mechanical model is derived. It is found that the first-order low-pass filter is mechanically equivalent to a spring and a damper connected in parallel. The proportional term mechanically represents a spring which is connected in series with the inherent actuator spring. The optimal control parameters are numerically obtained with the ℋ∞ optimisation criterion. The analysis shows that the optimal feedback gain can be practically taken the same as that of the classical integral force feedback controller in the sense that the difference between the resultant control performance is negligible. The numerical study is also experimentally validated. The obtained results are found to correspond well with the theoretical developments.

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用于主动阻尼的增强型积分力反馈控制器的实验研究

本文提出了一种用于实现主动阻尼的增强型积分力反馈控制器。与经典的积分力反馈相比，纯积分器被一阶低通滤波器和比例项的组合所取代。在单自由度主机系统上检验了所提控制器的控制性能。为了更好地理解其背后的物理原理，推导出了一个完整的等效机械模型。研究发现，一阶低通滤波器在机械上等同于并联的弹簧和阻尼器。比例项在机械上代表一个与固有致动器弹簧串联的弹簧。利用ℋ∞优化准则，通过数值计算获得了最佳控制参数。分析表明，最佳反馈增益实际上与经典积分力反馈控制器的反馈增益相同，其控制性能之间的差异可以忽略不计。数值研究也得到了实验验证。所得结果与理论发展十分吻合。

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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Journal of Low Frequency Noise, Vibration and Active Control

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