Digital Sliding-Mode Control of Piezoelectric Micropositioning System Based on Input–Output Model

Author

Qingsong Xu

Author_Institution

Dept. of Electromech. Eng., Univ. of Macau, Macao, China

Volume

61

Issue

10

fYear

2014

fDate

Oct. 2014

Firstpage

5517

Lastpage

5526

Abstract

Piezoelectric actuation micro-/nanopositioning systems have been widely employed in diverse micro-/nanomanipulation applications. This paper presents the design, analysis, and validation of a new control scheme termed input-output-based digital sliding-mode control (IODSMC) to suppress the unmolded nonlinearity and disturbance in piezoelectric micro-/nanopositioning systems. The controller is established based on a linear digital input-output nominal model. The scheme facilitates a rapid implementation because the construction of either a hysteresis model or a state observer is not needed. The chattering-free control is capable of achieving an O(T²) output tracking accuracy by overcoming the model disturbance. Moreover, the stability of the control system is proved, and its effectiveness is validated through experimental investigations on a piezo-driven micropositioning system. Results demonstrate that the IODSMC scheme is superior to the conventional proportional-integral-derivative control for motion-tracking tasks. Furthermore, it exhibits promising robustness in front of internal and external disturbances.

Keywords

control nonlinearities; nanopositioning; piezoelectric actuators; stability; tracking; variable structure systems; IODSMC; chattering-free control; control system stability; disturbance suppression; external disturbances; input-output model; input-output-based digital sliding-mode control; internal disturbances; linear digital input-output nominal model; micromanipulation application; model disturbance; motion-tracking tasks; nanomanipulation application; piezo-driven micropositioning system; piezoelectric actuation micropositioning system; piezoelectric actuation nanopositioning system; unmolded nonlinearity suppression; Accuracy; Hysteresis; Nanopositioning; Observers; Robustness; Trajectory; Digital control; Micro-/nanopositioning; digital control; micro-/nanopositioning; piezoelectric actuators; piezoelectric actuators (PEAs); precision motion control; sliding mode control; sliding-mode control (SMC);

fLanguage

English

Journal_Title

Industrial Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0278-0046

Type

jour

DOI

10.1109/TIE.2013.2290758

Filename

6662469