DocumentCode
600037
Title
Motion control of a 2-DOF decoupled compliant mechanism using H∞ synthesis
Author
Yanding Qin ; Yanling Tian ; Dawei Zhang ; Weiguo Gao ; Shirinzadeh, Bijan ; Bhagat, Umesh ; Clark, Leon
Author_Institution
Sch. of Mech. Eng., Tianjin Univ., Tianjin, China
fYear
2012
fDate
Aug. 29 2012-Sept. 1 2012
Firstpage
222
Lastpage
227
Abstract
A decoupled piezo-driven compliant mechanism has been designed and manufactured to track 2-DOF trajectories. Although it features decoupled characteristics, the small cross axis coupling can result in poor tracking performance in 2-DOF trajectories. For such structures, the damping ratio is so small that the modal vibrations are likely to be excited, which greatly degrade its positioning accuracy. In this paper, an H∞ controller is designed to make the closed-loop system match a well-damped second order system. The H∞ controller effectively suppresses the modal vibrations and further reduces the cross axis coupling motions. Experimental results show that the mechanism´s tracking performance in 2-DOF trajectories is significantly improved.
Keywords
H∞ control; closed loop systems; compliant mechanisms; control system synthesis; damping; motion control; trajectory control; vibration control; 2-DOF decoupled compliant mechanism; 2-DOF trajectory tracking; H∞ controller synthesis; H∞ synthesis; closed loop system; cross axis coupling motion reduction; damping ratio; decoupled piezo-driven compliant mechanism design; modal vibration excitation; modal vibration suppression; motion control; positioning accuracy; tracking performance improvement; well-damped second order system; Closed loop systems; Couplings; Hysteresis; Manufacturing processes; Noise; Trajectory; Transfer functions; H∞ synthesis; compliant mechanism; decoupling; motion control; piezoelectric actuator;
fLanguage
English
Publisher
ieee
Conference_Titel
Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO), 2012 International Conference on
Conference_Location
Shaanxi
Print_ISBN
978-1-4673-4588-0
Electronic_ISBN
978-1-4673-4589-7
Type
conf
DOI
10.1109/3M-NANO.2012.6472936
Filename
6472936
Link To Document