Identification and Open-Loop Tracking Control of a Piezoelectric Tube Scanner for High-Speed Scanning-Probe Microscopy

Georg Schitter; Andreas Stemmer

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Identification and Open-Loop Tracking Control of a Piezoelectric Tube Scanner for High-Speed Scanning-Probe Microscopy

机译：高速扫描探针显微镜的压电管扫描仪的识别和开环跟踪控制

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Fast and precise positioning is a basic requirement for nanotechnology applications. Many scanning-probe microscopes (SPM) use a piezoelectric tube scanner for actuation with nanometer resolution in all three spatial directions. Due to the dynamics of the actuator, the imaging speed of the SPM is limited. By applying model-based open-loop control, the dynamic behavior of the scanner can be compensated, reducing the displacement error, topographical artifacts, modulation of the interaction force, and modulation of the relative tip-sample velocity. The open-loop controlled system enables imaging of up to 125-μm-sized samples at a line scan rate of 122 Hz, which is about 15 times faster than the commercial system.

机译：快速精确的定位是纳米技术应用的基本要求。许多扫描探针显微镜（SPM）使用压电管扫描仪在所有三个空间方向上以纳米分辨率进行驱动。由于执行器的动态特性，SPM的成像速度受到限制。通过应用基于模型的开环控制，可以补偿扫描仪的动态行为，从而减少位移误差，地形伪影，相互作用力的调制以及相对尖端采样速度的调制。该开环控制系统能够以122 Hz的线扫描速率对多达125μm大小的样本进行成像，这比商用系统快约15倍。

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《IEEE Transactions on Control Systems Technology》 |2004年第3期|p.449-454|共6页
作者
Georg Schitter; Andreas Stemmer;
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正文语种 eng
中图分类电力系统的模拟与计算;自动控制理论;
关键词
Atomic Force Microscopy; Fast Scanning; Friction Force; Piezoelectric Transducers; Scanning Probe; Tracking Control;

机译：原子力显微镜;快速扫描;摩擦力;压电换能器;扫描探针;跟踪控制;

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专利

1. Improved direct inverse tracking control of a piezoelectric tube scanner for high-speed AFM imaging [J] . Lu Han, Fang Yongchun, Ren Xiao, Mechatronics: The Science of Intelligent Machines . 2015,第Null期

机译：改进的用于高速AFM成像的压电管扫描仪的直接逆跟踪控制
2. A new approach to hysteresis modelling for a piezoelectric actuator using Preisach model and recursive method with an application to open-loop position tracking control [J] . Phuong-Bac Nguyen, Choi Seung-Bok, Song Byung-Keun Sensors and Actuators, A. Physical . 2018,第期

机译：用Preisach模型和递归方法对压电执行器的滞后模型滞后模型方法，递归方法在开环位置跟踪控制中
3. A novel two-axis parallel-kinematic high-speed piezoelectric scanner for atomic force microscopy [J] . Alunda Bernard Ouma, Lee Yong Joong, Park Soyeun Journal of the Korean Physical Society . 2016,第5期

机译：用于原子力显微镜的新型两轴平行运动高速压电扫描仪
4. Two-Degree-of-Freedom Tracking Control of Piezoelectric Tube Scanners in Two-Dimensional Scanning Applications [C] . J. Maess, J. Becker, L. Gaul, IFAC World Congress . 2008

机译：二维扫描应用中压电管扫描仪的两度自由度跟踪控制
5. Adaptive optics in nonlinear microscopy implemented with open-loop control and EMCCD-based Shack-Hartmann wavefront sensor. [D] . Sun, Wei. 2014

机译：非线性显微镜中的自适应光学器件，通过开环控制和基于EMCCD的Shack-Hartmann波前传感器实现。
6. Active Damping of a Piezoelectric Tube Scanner using Self-Sensing Piezo Actuation [O] . S. Kuiper, G. Schitter -1

机译：使用自感压电驱动的压电管扫描仪的主动阻尼
7. A novel piezoelectric strain sensor for simultaneous damping and tracking control of a high-speed nanopositioner [O] . Yong Yuen Kuan, Fleming Andrew J., Moheimani S. O. Reza 2013

机译：新型压电应变传感器，用于同时对高速纳米定位器进行阻尼和跟踪控制

Identification and Open-Loop Tracking Control of a Piezoelectric Tube Scanner for High-Speed Scanning-Probe Microscopy

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