Design and nonlinear servo control of MEMS mirrors and their performance in a large port-count optical switch期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

Design and nonlinear servo control of MEMS mirrors and their performance in a large port-count optical switch

Authors:	Chu P.B. Brener I. Chuan Pu Shi-Sheng Lee Dadap J.I. Sangtae Park Bergman K. Bonadeo N.H. Chau T. Ming Chou Doran R.A. Gibson R. Harel R. Johnson J.J. Lee C.D. Peale D.R. Bo Tang Tong D.T.K. Ming-Ju Tsai Qi Wu Zhong W. Goldstein E.L. Lin L.Y. Walker J.A.

Affiliation:	Seagate Technol., Pittsburgh, PA, USA;

Abstract:	In this paper, we demonstrate full closed-loop control of electrostatically actuated double-gimbaled MEMS mirrors and use them in an optical cross-connect. We show switching times of less than 10 ms and optical power stability of better than 0.2 dB. The mirrors, made from 10-/spl mu/m-thick single-crystal silicon and with a radius of 400-450 /spl mu/m, are able to tilt to 8/spl deg/ corresponding to 80% of touchdown angle. This is achieved using a nonlinear closed-loop control algorithm, which also results in a maximum actuation voltage of 85 V, and a pointing accuracy of less than 150 /spl mu/rad. This paper will describe the MEMS mirror and actuator design, modeling, servo design, and measurement results.

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