多金属电极横向微机械谐振器的亚微米容性间隙工艺

Technical Digest. MEMS 2001. 14th IEEE International Conference on Micro Electro Mechanical Systems (Cat. No.01CH37090) Pub Date : 2001-01-21 DOI:10.1109/MEMSYS.2001.906550

W. Hsu, J.R. Clark, C. Nguyen

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引用次数: 53

摘要

一种结合多晶硅表面微加工、金属电镀和侧壁牺牲间隔技术的制造工艺，在不需要先进的光刻和蚀刻技术的情况下，实现了微机械结构与其金属电极之间的高纵横比、亚微米、横向电容性间隙。在使用该工艺演示的设备中，有横向自由-自由束微机械谐振器(10.47 MHz时Q=10,470)，轮廓模式磁盘谐振器(156 MHz时Q=9,400)和温度补偿微机械谐振器(13.5 MHz时Q=10,317，在整个80/spl度/C范围内频率变化为-200 ppm)。

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A sub-micron capacitive gap process for multiple-metal-electrode lateral micromechanical resonators

A fabrication process has been demonstrated that combines polysilicon surface micromachining, metal electroplating, and a sidewall sacrificial-spacer technique, to achieve high-aspect-ratio, submicron, lateral capacitive gaps between a micromechanical structure and its metal electrodes, without the need for advanced lithographic and etching technology. Among the devices demonstrated using this process are lateral free-free beam micromechanical resonators (Q=10,470 at 10.47 MHz), contour mode disk resonators (Q=9,400 at 156 MHz), and temperature-compensated micromechanical resonators (Q=10,317 at 13.5 MHz, with a -200 ppm frequency variation over a full 80/spl deg/C range).

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来源期刊

Technical Digest. MEMS 2001. 14th IEEE International Conference on Micro Electro Mechanical Systems (Cat. No.01CH37090)

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