Title :
Active damping control using optimal Integral Force Feedback
Author :
Teo, Yik R. ; Fleming, Andrew J.
Author_Institution :
Precision Mechatron. Lab., Univ. of Newcastle, Newcastle, NSW, Australia
Abstract :
This article shows an improvement to Integral Force Feedback (IFF) for active damping control of precision mechanisms. The benefits of IFF include robustness, guaranteed stability and simplicity. However, the damping performance depends on the stiffness of the system; hence, some systems cannot be adequately controlled. In this article, an extension to the classical integral force feedback control scheme is proposed. The new method achieves arbitrary damping for any mechanical system by introducing a feed-through term in the system.
Keywords :
damping; force feedback; force sensors; integral equations; mechanical engineering; optimal control; robust control; vibration control; IFF; active damping control; arbitrary damping; damping performance; feed-through term; force sensor; guaranteed stability; mechanical system; optimal integral force feedback control; precision mechanisms; robustness; simplicity; Actuators; Damping; Force; Force feedback; Gain; Mechanical systems; Transfer functions; Mechatronics; Nano systems; Smart structures;
Conference_Titel :
American Control Conference (ACC), 2014
Conference_Location :
Portland, OR
Print_ISBN :
978-1-4799-3272-6
DOI :
10.1109/ACC.2014.6858699
