Butterworth pattern based simultaneous damping and tracking controller designs for nanopositioning systems

Douglas Russell, A. San-Millán, V. F. Batlle, S. S. Aphale
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引用次数: 2

Abstract

The Butterworth filter is known to have maximally flat response. Incidentally, the same response is desired in precise positioning systems. This paper presents a method for obtaining a closed-loop Butterworth filter pattern using common control schemes for positioning applications, i.e. Integral Resonant Control (IRC), Positive Position Feedback (PPF), and Positive Velocity and Position Feedback (PVPF). Simulations show a significant increase in bandwidth over traditional design methods and verify the desired pole placement is achieved. Experiments are performed using a two-axis serial kinematic nanopositioning stage. The results show a significant improvement in bandwidth and increased positioning accuracy, specifically at the turn-around point. This allows a greater portion of the scan to be used and improved positioning accuracy at high scanning speeds.
基于Butterworth模式的纳米定位系统同步阻尼和跟踪控制器设计
已知巴特沃斯滤波器具有最大的平坦响应。顺便提一下,精确定位系统也需要同样的响应。本文提出了一种利用积分共振控制(IRC)、正位置反馈(PPF)和正速度位置反馈(PVPF)等常用的定位控制方案获得闭环巴特沃斯滤波器的方法。仿真结果表明,与传统的设计方法相比,带宽有了显著的提高,并验证了所期望的极点位置的实现。实验采用两轴串联运动学纳米定位平台进行。结果表明,带宽和定位精度显著提高,特别是在转弯点。这允许在高扫描速度下使用更大的扫描部分并提高定位精度。
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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