Low-voltage, large-scan angle MEMS analog micromirror arrays with hidden vertical comb-drive actuators
Dooyoung Hah; Huang, S.T.-Y.; Jui-Che Tsai; Toshiyoshi, H.; Wu, M.C.
Microelectromechanical Systems, Journal of
Volume 13, Issue 2, April 2004 Page(s): 279 - 289
Digital Object Identifier   10.1109/JMEMS.2004.825314
Summary: This paper reports on novel polysilicon surface-micromachined one-dimensional (1-D) analog micromirror arrays fabricated using Sandia's ultraplanar multilevel MEMS technology-V (SUMMiT-V) process. Large continuous DC scan angle (23.6/spl deg/ optical) and low-operating voltage (6 V) have been achieved using vertical comb-drive actuators. The actuators and torsion springs are placed underneath the mirror (137/spl times/120 /spl mu/m/sup 2/) to achieve high fill-factor (91%). The measured resonant frequency of the mirror ranges from 3.4 to 8.1 kHz. The measured DC scanning characteristics and resonant frequencies agree well with theoretical values. The rise time is 120 /spl mu/s and the fall time is 380 /spl mu/s. The static scanning characteristics show good uniformity (
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