Piezoelectrically Driven and Sensed Micromirrors with Extremely Large Scan Angles and Precise Closed-Loop Control

Shanshan Gu-Stoppel; Thorsten Giese; Hans-Joachim Quenzer; Ulrich Hofmann; Wolfgang Benecke

doi:10.3390/proceedings1040561

Proceedings (Aug 2017)

Piezoelectrically Driven and Sensed Micromirrors with Extremely Large Scan Angles and Precise Closed-Loop Control

Shanshan Gu-Stoppel,
Thorsten Giese,
Hans-Joachim Quenzer,
Ulrich Hofmann,
Wolfgang Benecke

Affiliations

Shanshan Gu-Stoppel: MEMS Application, Fraunhofer Institute for Silicon Technology, Itzehoe 25524, Germany
Thorsten Giese: MEMS Application, Fraunhofer Institute for Silicon Technology, Itzehoe 25524, Germany
Hans-Joachim Quenzer: MEMS Application, Fraunhofer Institute for Silicon Technology, Itzehoe 25524, Germany
Ulrich Hofmann: MEMS Application, Fraunhofer Institute for Silicon Technology, Itzehoe 25524, Germany
Wolfgang Benecke: MEMS Application, Fraunhofer Institute for Silicon Technology, Itzehoe 25524, Germany

DOI: https://doi.org/10.3390/proceedings1040561
Journal volume & issue: Vol. 1, no. 4
p. 561

Abstract

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This paper reports piezoelectrically driven and sensed micromirrors achieving extremely large total optical scan angle of 106° and high frequency of 45 kHz at 22 V. To reach such large angles, extensive FEM-simulations relating to fracture strength of poly-Si, of which these micromirrors primarily consist, have been performed. Meanwhile, high Q-factor of more than 5000 under ambient conditions and low power consumption of 10.3 mW were measured. Moreover the piezoelectric elements enable position sensing and based on the feedback signals closed-loop control has been developed.

Published in Proceedings

ISSN: 2504-3900 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: General Works
Website: http://www.mdpi.com/journal/proceedings

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