A novel capacitive accelerometer with an eight-beam-mass structure by self-stop anisotropic etching of (1 0 0) silicon

Fei Xiao; Lufeng Che; Bin Xiong; Yuelin Wang; Xiaofeng Zhou; Yufang Li; Youling Lin

doi:10.1088/0960-1317/18/7/075005

A novel capacitive accelerometer with an eight-beam-mass structure by self-stop anisotropic etching of (1 0 0) silicon

Fei Xiao
, Lufeng Che^*
, Bin Xiong
, Yuelin Wang
, Xiaofeng Zhou
, Yufang Li
, Youling Lin

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

20 引用（Scopus）

摘要

This paper reports a novel capacitive sandwich accelerometer with an eight-beam-mass structure fabricated by self-stop anisotropic wet etching of (1 0 0) silicon and wafer-level Si-Si bonding. In this structure, eight straight beams symmetrically connect to the corners of the proof mass on both sides. These suspension beams are formed by self-stop anisotropic wet etching of (1 0 0) silicon, without heavy boron doping or Si-Si bonding. Through this beam-fabrication approach, the beam thickness can be well controlled and intrinsic stress in the beams is minimized. Accelerometers with different sensitivities can be easily fabricated by varying the thickness of the beams without making any change to the masks. For a device with 17 νm thick beams, the resonance frequency and the quality factor are 696 Hz and 47, respectively. The accelerometer has a sensitivity of 0.35 V g^-1.

源语言	英语
文章编号	075005
期刊	Journal of Micromechanics and Microengineering
卷	18
期	7
DOI	https://doi.org/10.1088/0960-1317/18/7/075005
出版状态	已出版 - 1 8月 2008
已对外发布	是

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abstract = "This paper reports a novel capacitive sandwich accelerometer with an eight-beam-mass structure fabricated by self-stop anisotropic wet etching of (1 0 0) silicon and wafer-level Si-Si bonding. In this structure, eight straight beams symmetrically connect to the corners of the proof mass on both sides. These suspension beams are formed by self-stop anisotropic wet etching of (1 0 0) silicon, without heavy boron doping or Si-Si bonding. Through this beam-fabrication approach, the beam thickness can be well controlled and intrinsic stress in the beams is minimized. Accelerometers with different sensitivities can be easily fabricated by varying the thickness of the beams without making any change to the masks. For a device with 17 νm thick beams, the resonance frequency and the quality factor are 696 Hz and 47, respectively. The accelerometer has a sensitivity of 0.35 V g-1.",

author = "Fei Xiao and Lufeng Che and Bin Xiong and Yuelin Wang and Xiaofeng Zhou and Yufang Li and Youling Lin",

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T1 - A novel capacitive accelerometer with an eight-beam-mass structure by self-stop anisotropic etching of (1 0 0) silicon

AU - Xiao, Fei

AU - Che, Lufeng

AU - Xiong, Bin

AU - Wang, Yuelin

AU - Zhou, Xiaofeng

AU - Li, Yufang

AU - Lin, Youling

PY - 2008/8/1

Y1 - 2008/8/1

N2 - This paper reports a novel capacitive sandwich accelerometer with an eight-beam-mass structure fabricated by self-stop anisotropic wet etching of (1 0 0) silicon and wafer-level Si-Si bonding. In this structure, eight straight beams symmetrically connect to the corners of the proof mass on both sides. These suspension beams are formed by self-stop anisotropic wet etching of (1 0 0) silicon, without heavy boron doping or Si-Si bonding. Through this beam-fabrication approach, the beam thickness can be well controlled and intrinsic stress in the beams is minimized. Accelerometers with different sensitivities can be easily fabricated by varying the thickness of the beams without making any change to the masks. For a device with 17 νm thick beams, the resonance frequency and the quality factor are 696 Hz and 47, respectively. The accelerometer has a sensitivity of 0.35 V g-1.

AB - This paper reports a novel capacitive sandwich accelerometer with an eight-beam-mass structure fabricated by self-stop anisotropic wet etching of (1 0 0) silicon and wafer-level Si-Si bonding. In this structure, eight straight beams symmetrically connect to the corners of the proof mass on both sides. These suspension beams are formed by self-stop anisotropic wet etching of (1 0 0) silicon, without heavy boron doping or Si-Si bonding. Through this beam-fabrication approach, the beam thickness can be well controlled and intrinsic stress in the beams is minimized. Accelerometers with different sensitivities can be easily fabricated by varying the thickness of the beams without making any change to the masks. For a device with 17 νm thick beams, the resonance frequency and the quality factor are 696 Hz and 47, respectively. The accelerometer has a sensitivity of 0.35 V g-1.

UR - https://www.scopus.com/pages/publications/47249110591

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DO - 10.1088/0960-1317/18/7/075005

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SN - 0960-1317

VL - 18

JO - Journal of Micromechanics and Microengineering

JF - Journal of Micromechanics and Microengineering

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M1 - 075005

ER -

A novel capacitive accelerometer with an eight-beam-mass structure by self-stop anisotropic etching of (1 0 0) silicon

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