This paper presents the design of an LQG controller for the lateral positioning of a piezoelectric tube actuator (PZT) used in an atomic force microscope (AFM). In the proposed control scheme, an internal model of the reference signal is included in the plant model and an integrator with the system error is introduced. As a result, it reduces the steady-state tracking error. A vibration compensator is also designed and included in a feed-back loop with the plant to suppress the vibration of the PZT at the resonance frequency. Consequently, the proposed controller achieves higher closed-loop bandwidth and significant damping of the resonant mode of the PZT, which enables the tracking of a reference triangular signal. Experimental results show the significant improvement of the scanned images as compared to the in-built PI controller of the AFM.
Conference paper
LQG controller with a vibration compensator for the lateral positioning of an AFM scanner
pp.324-329
IEEE
2nd Australian Control Conference (Sydney, NSW, Australia, 15-16 November)
2012
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Abstract
Details
- Title
- LQG controller with a vibration compensator for the lateral positioning of an AFM scanner
- Creators
- H Habibullah - University of New South WalesH R Pota - University of New South WalesI R Petersen - University of New South Wales
- Publication Details
- pp.324-329
- Conference
- 2nd Australian Control Conference (Sydney, NSW, Australia, 15-16 November)
- Publisher
- IEEE; New Jersey, USA
- Number of pages
- 324-329
- Identifiers
- 4479; 991012820461802368
- Academic Unit
- School of Environment, Science and Engineering; Faculty of Science and Engineering
- Resource Type
- Conference paper