Thermal error modeling and compensation of long-travel nanopositioning stage

被引:0
|
作者
机构
[1] Wang, Jingshu
[2] Zhu, Changan
[3] Feng, Mingchi
[4] Ren, Wenqi
来源
Wang, J. (donot@mail.ustc.edu.cn) | 1600年 / Springer London卷 / 65期
关键词
Thermally induced error of nanopositioning systems is rarely studied specifically because most researchers strictly limit the ambient temperature in order to ignore the influences of thermal deformation. However; the control cost of a narrow temperature range is too high for widely application. This paper is addressed at modeling and compensation of thermal error with the purpose of ensuring the positioning accuracy with an extended temperature range. The finite element analysis and contrast experiments with different temperature ranges reveal the significant impact of temperature variation on positioning precision. A polynomial model based on the genetic algorithm is implemented to describe the relationship between deviations and temperatures. By utilizing the parametric study; the optimal parameters of the genetic algorithm are determined. Based on the thermal model; a compensation system has been developed. A constant proportional-integral-derivative (PID) controller and a single-neuron PID controller are employed for compensation; respectively. The results demonstrate that the single-neuron PID controller can effectively restrain thermal error and guarantee the location accuracy with extended temperature range. The positioning precision of the positioning stage with compensation system and temperature range of 20 + 0.3 C is improved to 12 nm; while the one of the original system with temperature range of 20 ± 0.01 C is 31 nm. © 2012 Springer-Verlag London Limited;
D O I
暂无
中图分类号
学科分类号
摘要
Journal article (JA)
引用
收藏
页码:1 / 4
相关论文
共 50 条
  • [1] Thermal error modeling and compensation of long-travel nanopositioning stage
    Wang, Jingshu
    Zhu, Changan
    Feng, Mingchi
    Ren, Wenqi
    INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 2013, 65 (1-4): : 443 - 450
  • [2] Thermal error modeling and compensation of long-travel nanopositioning stage
    Jingshu Wang
    Changan Zhu
    Mingchi Feng
    Wenqi Ren
    The International Journal of Advanced Manufacturing Technology, 2013, 65 : 443 - 450
  • [3] A novel long-travel piezoelectric-driven linear nanopositioning stage
    Chu, CL
    Fan, SH
    PRECISION ENGINEERING-JOURNAL OF THE INTERNATIONAL SOCIETIES FOR PRECISION ENGINEERING AND NANOTECHNOLOGY, 2006, 30 (01): : 85 - 95
  • [4] Modeling and simulation of a micro-actuator with long-travel
    Jiang, W.R.
    Lu, Z.S.
    Key Engineering Materials, 2009, 392-394 : 804 - 809
  • [5] Modeling and Simulation of a Micro-actuator with Long-travel
    Jiang, W. R.
    Lu, Z. S.
    MANUFACTURING AUTOMATION TECHNOLOGY, 2009, 392-394 : 804 - 809
  • [6] A heterodyne straightness and displacement measuring interferometer with laser beam drift compensation for long-travel linear stage metrology
    Chen, Benyong
    Cheng, Liang
    Yan, Liping
    Zhang, Enzheng
    Lou, Yingtian
    REVIEW OF SCIENTIFIC INSTRUMENTS, 2017, 88 (03):
  • [7] Micro/nanopositioning coplanar stage with real-time compensation of volumetric error
    Cai, Yindi
    Zhang, Zeguang
    Zhang, Dianpeng
    Wang, Ruyue
    Fan, Kuang-Chao
    Measurement: Journal of the International Measurement Confederation, 2024, 229
  • [8] Micro/nanopositioning coplanar stage with real-time compensation of volumetric error
    Cai, Yindi
    Zhang, Zeguang
    Zhang, Dianpeng
    Wang, Ruyue
    Fan, Kuang-Chao
    MEASUREMENT, 2024, 229
  • [9] Dual-drive long-travel precise positioning stage of grating ruling engine
    Wang, JingShu
    Bayanheshig
    Zhu, ChangAn
    INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 2017, 93 (9-12): : 3541 - 3550
  • [10] Dual-drive long-travel precise positioning stage of grating ruling engine
    JingShu Wang
    ChangAn Bayanheshig
    The International Journal of Advanced Manufacturing Technology, 2017, 93 : 3541 - 3550
12345