Tunable Aperture with Single layer Blades Actuated by Thermal Expansion of Silicon Beams

TENCON 2018 - 2018 IEEE Region 10 Conference Pub Date : 2018-10-01 DOI:10.1109/TENCON.2018.8650539
C. Hong, K. Chun
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Abstract

A tunable aperture with single layer blades actuated by thermal expansion of silicon beams is developed. The tunable aperture that consists of blade including misaligned silicon chevron beam can achieve high displacement of the blade. To design the desired tunable aperture, COMSOL MULTIPHYSICS simulator and MEMS fabrication process are used. The dimension of the tunable aperture is 10.2mm X 10.2mm X 0.365mm. In the results, diameter of the fabricated tunable aperture is achieved 1.6mm under no applied voltage and 1.25mm under applied voltage of 3V. Also it has analog state compared to other type of tunable aperture. Using the tunable aperture could obtain 3D image and distance information in a single camera system simultaneously.
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硅梁热膨胀驱动的单层叶片可调孔径
研制了一种由硅梁热膨胀驱动的单层叶片可调孔径。由叶片组成的可调孔径包括错位的硅形光束,可以实现叶片的高位移。利用COMSOL MULTIPHYSICS模拟器和MEMS制造工艺,设计出理想的可调孔径。可调光圈尺寸为10.2mm X 10.2mm X 0.365mm。结果表明,在无电压条件下制备的可调孔径直径为1.6mm,在3V电压条件下制备的可调孔径直径为1.25mm。与其他类型的可调光圈相比,它具有模拟状态。利用可调光圈,可以在单个相机系统中同时获得三维图像和距离信息。
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TENCON 2018 - 2018 IEEE Region 10 Conference
TENCON 2018 - 2018 IEEE Region 10 Conference
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