Acceleration control of stacked piezoelectric actuator utilizing disturbance observer and reaction force observer

2012 12th IEEE International Workshop on Advanced Motion Control (AMC) Pub Date : 2012-03-25 DOI:10.1109/AMC.2012.6197129

Shinnosuke Yamaoka, T. Nozaki, D. Yashiro, K. Ohnishi

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引用次数: 9

Abstract

Stacked piezoelectric actuators are suitable for micro manipulation since it has a high positional resolution and large generative force. However, it is difficult to control acceleration of piezoelectric actuator because of its hysteresis characteristic and spring characteristic. Therefore in this paper, piezo disturbance observer (PDOB) is proposed. Because PDOB treats hysteresis characteristic and spring characteristic as disturbance and compensates these elements, acceleration control is achieved. In addition, piezo reaction force observer (PRFOB) is proposed. By eliminating spring force from disturbance, PRFOB estimates the reaction force without utilizing any force sensors. Validities of PDOB and PRFOB are verified by experiments. Finally, experiment of micro-macro bilateral control (MMBC) constructed a master system and slave system is performed. The master system is a linear motor with conventional disturbance observer (DOB) and reaction force observer (RFOB). The slave system is a stacked piezoelectric actuator with PDOB and PRFOB. It achieved MMBC between a linear motor and a piezoelectric actuator.

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基于扰动观测器和反作用力观测器的叠加式压电驱动器加速度控制

堆叠式压电驱动器具有较高的位置分辨率和较大的生成力，适合于微操作。然而，由于压电驱动器的滞回特性和弹簧特性，使其加速度控制变得困难。为此，本文提出了压电扰动观测器(PDOB)。由于PDOB将磁滞特性和弹簧特性作为扰动进行补偿，实现了加速度控制。此外，还提出了压电反作用力观测器(PRFOB)。通过消除来自扰动的弹簧力，PRFOB估计反作用力而不使用任何力传感器。实验验证了PDOB和PRFOB的有效性。最后，进行了构建主系统和从系统的微宏观双边控制实验。主系统是一个带常规扰动观测器(DOB)和反作用力观测器(RFOB)的直线电机。从动系统是由PDOB和PRFOB构成的堆叠式压电驱动器。实现了直线电机与压电驱动器之间的MMBC。

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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2012 12th IEEE International Workshop on Advanced Motion Control (AMC)

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