Two sensor based H∞ control of a piezoelectric tube scanner

Mahmood, I. A.; Liu, K.; Moheimani, S. O. R.

Title: Two sensor based H∞ control of a piezoelectric tube scanner
Creator: Mahmood, I. A.; Liu, K.; Moheimani, S. O. R.
Relation: 17th World Congress of the International Federation of Automatic Control (IFAC 2008). Proceedings of the 17th World Congress of the International Federation of Automatic Control (Seoul, Korea 6-11 July, 2008) p. 8251-8256
Relation: http://www.ifac-papersonline.net/Detailed/37093.html
Publisher: International Federation of Automatic Control (IFAC)
Resource Type: conference paper
Date: 2008
Description: The performance of a feedback-controlled piezoelectric tube scanner is limited by its inherent nonlinear properties such as hysteresis and creep, its mechanical resonance modes and its displacement sensor bandwidth and associated noise properties. Capacitive sensors have emerged as the displacement sensor of choice in piezoelectric tube scanners. Resolution of a capacitive sensor is largely determined by its bandwidth and noise density which is typically in the order of 20 pm/√Hz for a ±100 μm range. Consequently, to achieve sub-nanometer resolution, the sensor's bandwidth needs to be made small. Achieving satisfactory tracking performance using a low-bandwidth displacement sensor is a challenging task. To improve the bandwidth, the piezoelectric strain voltage induced in the electrode opposite to the actuating electrode is used as a secondary measurement. A two-sensor-based H∞ controller is designed and implemented on a prototype piezoelectric tube nanopositioning system. The tube is driven by a charge amplifier to reduce the hysteresis. Experimental results demonstrate a significant increase in the tracking bandwidth due to the use of the additional sensor.
Subject: microsystems; nano- and micro-technologies; perception devices and positioning systems; multi sensor systems
Identifier: http://hdl.handle.net/1959.13/802794
Identifier: uon:6206
Identifier: ISBN:9781123478902
Language: eng
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