Simultaneous optimization of damping and tracking controller parameters via selective pole placement for enhanced positioning bandwidth of nanopositioners

Russell, Douglas; Fleming, Andrew J.; Aphale, Sumeet S.

Title: Simultaneous optimization of damping and tracking controller parameters via selective pole placement for enhanced positioning bandwidth of nanopositioners
Creator: Russell, Douglas; Fleming, Andrew J.; Aphale, Sumeet S.
Relation: 2014 American Control Conference (ACC). Proceedings of the 2014 American Control Conference (Portland, OR 04-06 June, 2014) p. 2184-2189
Publisher Link: http://dx.doi.org/10.1109/ACC.2014.6858694
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Resource Type: conference paper
Date: 2014
Description: Positive Velocity and Position Feedback (PVPF) is a widely used control scheme in lightly damped resonant systems with collocated sensor actuator pairs. The popularity of PVPF is due to the ability to achieve a chosen damping ratio by repositioning the poles of the system. The addition of a necessary tracking controller causes the poles to deviate from the intended location and can be a detriment to the damping achieved. By designing the PVPF and tracking controllers simultaneously, the optimal damping and tracking can be achieved. Simulations show full damping of the first resonant mode whilst also achieving bandwidth greater than the natural frequency of the plant, allowing for high speed scanning with accurate tracking.
Subject: bandwidth; damping; frequency measurement; frequency response; gain; nanopositioning; resonant frequency
Identifier: http://hdl.handle.net/1959.13/1062903
Identifier: uon:17166
Identifier: ISBN:9781479932740
Language: eng
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