Characterization of microelectromechanical HF resonators fabricated using a SOI-based low temperature process

Proceedings of IEEE Sensors 2003 (IEEE Cat. No.03CH37498) Pub Date : 2003-10-22 DOI:10.1109/ICSENS.2003.1279057

P. Ruther, J. Bartholomeyczik, A. Buhmann, O. Paul

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引用次数: 2

Abstract

This paper reports on the characterization of electromechanical high frequency resonators realized using a novel SOI-based low temperature fabrication process. Key features of the devices are single crystal silicon resonant beams, 200 nm to 600 nm thin transducer gaps, and gold electrodes. The fabrication process combines bulk silicon micromachining applying deep reactive ion etching, low temperature deposition of a thin sacrificial oxide and electroplating of the lateral electrodes. The resonant behavior of devices with resonance frequencies f/sub res/ between 420 kHz and 4.11 MHz was characterized as a function of the bias voltage V/sub bias/ applied to the beam. Measurements were performed at ambient pressures p between 5/spl times/10/sup -5/ mbar and 0.5 mbar. Q values up to 52,000 at f/sub res/=420 kHz and 6,000 at f/sub res/=4.11 MHz were obtained. The interaction of resonator and measurement setup were simulated using an electrical network simulation program combined with a finite element analysis using ANSYS/sup /spl reg//.

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基于soi低温工艺制备的微机电HF谐振器的表征

本文报道了一种基于soi的新型低温制造工艺实现的机电高频谐振器的特性。该器件的主要特点是单晶硅谐振光束、200纳米至600纳米的薄换能器间隙和金电极。该制造工艺结合了采用深度反应离子蚀刻的体硅微加工，薄牺牲氧化物的低温沉积和侧面电极的电镀。谐振频率f/sub /在420 kHz和4.11 MHz之间的器件的谐振行为表征为施加在光束上的偏置电压V/sub偏置/的函数。测量在环境压力p在5/spl倍/10/sup -5/ mbar和0.5 mbar之间进行。在f/sub res/=420 kHz处Q值高达52,000，在f/sub res/=4.11 MHz处Q值高达6,000。利用电气网络仿真程序，结合ANSYS/sup /spl reg//软件的有限元分析，对谐振腔与测量装置的相互作用进行了仿真。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of IEEE Sensors 2003 (IEEE Cat. No.03CH37498)

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