Title :
Drift-Free Single Crystalline Silicon Micromirror with Floating Field Limiting Shields
Author :
Yoo, Byung-Wook ; Jang, Yun-Ho ; Yu, Kyoungsik ; Park, Jae-Hyoung ; Kim, Yong-Kweon
Author_Institution :
Seoul Nat. Univ., Seoul
fDate :
Aug. 12 2007-July 16 2007
Abstract :
This paper presents the charging mitigation method at single crystalline silicon micromirror by means of improving the geometry around electrodes. We have now determined that tilt angle drift and stiction are due to the charging effect, and that the effect can be enormously reduced by floating field limiting shields around the electrodes and dielectric geometry. While 0.5 degrees drift was measured at the 83% voltage of the pull-in voltage from the previous micromirror model, the micromirror considering drift-free design showed plusmn0.005 degrees drift at the same percentage voltage of it. At the 97.7% of the pull-in voltage, stiction occurred after about 220 seconds from the previous micromirror model. On the other hand, newly designed micromirror did not show any pull-in effect even at above percentage of it.
Keywords :
micro-optomechanical devices; micromirrors; silicon; Si; charging effect; dielectric geometry; drift-free single crystalline silicon micromirror; electrodes; floating field limiting shields; pull-in voltage; stiction; tilt angle drift; Crystallization; Dielectric measurements; Dielectric substrates; Electrodes; Electrostatic actuators; Micromechanical devices; Micromirrors; Silicon; Surface charging; Voltage; drift-free; floating field limiting shields; micromirror; single crystalline silicon; stiction;
Conference_Titel :
Optical MEMS and Nanophotonics, 2007 IEEE/LEOS International Conference on
Conference_Location :
Hualien
Print_ISBN :
978-1-4244-0641-8
DOI :
10.1109/OMEMS.2007.4373850
