Analysis on the sticking failure of micro-comb driving structure

Haipeng Liu; Zhenquan Zhang; Shiqiao Gao; Lei Jin

doi:10.4028/www.scientific.net/KEM.562-565.1122

Analysis on the sticking failure of micro-comb driving structure

Haipeng Liu, Zhenquan Zhang, Shiqiao Gao, Lei Jin

School of Mechatronical Engineering

Beijing Institute of Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

As an important part of MEMS, the micro-comb electrostatic driving structure is the main source of mechanical movement in many MEMS devices. Its reliability will directly affect the using performance of the MEMS devices. The electrostatic driving system of micro-comb capacitive micro-machined gyroscope can be equivalent to a second order system. If the applied voltage is less than the pull-in voltage, the movable micro-comb will maintain a steady state. Otherwise, the micro-combs will stick together because the applied voltage is greater than the calculated pull-in voltage. If the distance between micro-combs is too narrow, the role of these micro forces will be very significant. The pull-in phenomenon occurring in the process that the micro-machined gyroscope is applied on a phase step input voltage will lead to the very narrow comb spacing. As a result that the role of micro-forces such as the capillary force, Van der Waals force and Casimir force will become very significant, and the micro-combs will stick together permanently.

Original language	English
Title of host publication	Micro-Nano Technology XIV
Publisher	Trans Tech Publications Ltd.
Pages	1122-1126
Number of pages	5
ISBN (Print)	9783037857397
DOIs	https://doi.org/10.4028/www.scientific.net/KEM.562-565.1122
Publication status	Published - 2013
Event	14th Annual Conference and the 3rd International Conference of the Chinese Society of Micro-Nano Technology, CSMNT 2012 - Hangzhou, China Duration: 4 Nov 2012 → 7 Nov 2012

Publication series

Name	Key Engineering Materials
Volume	562-565
ISSN (Print)	1013-9826
ISSN (Electronic)	1662-9795

Conference

Conference	14th Annual Conference and the 3rd International Conference of the Chinese Society of Micro-Nano Technology, CSMNT 2012
Country/Territory	China
City	Hangzhou
Period	4/11/12 → 7/11/12

Keywords

Electrostatic force
Micro forces
Micro-comb
Sticking failure

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10.4028/www.scientific.net/KEM.562-565.1122

Cite this

Liu, H., Zhang, Z., Gao, S., & Jin, L. (2013). Analysis on the sticking failure of micro-comb driving structure. In Micro-Nano Technology XIV (pp. 1122-1126). (Key Engineering Materials; Vol. 562-565). Trans Tech Publications Ltd.. https://doi.org/10.4028/www.scientific.net/KEM.562-565.1122

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title = "Analysis on the sticking failure of micro-comb driving structure",

abstract = "As an important part of MEMS, the micro-comb electrostatic driving structure is the main source of mechanical movement in many MEMS devices. Its reliability will directly affect the using performance of the MEMS devices. The electrostatic driving system of micro-comb capacitive micro-machined gyroscope can be equivalent to a second order system. If the applied voltage is less than the pull-in voltage, the movable micro-comb will maintain a steady state. Otherwise, the micro-combs will stick together because the applied voltage is greater than the calculated pull-in voltage. If the distance between micro-combs is too narrow, the role of these micro forces will be very significant. The pull-in phenomenon occurring in the process that the micro-machined gyroscope is applied on a phase step input voltage will lead to the very narrow comb spacing. As a result that the role of micro-forces such as the capillary force, Van der Waals force and Casimir force will become very significant, and the micro-combs will stick together permanently.",

keywords = "Electrostatic force, Micro forces, Micro-comb, Sticking failure",

author = "Haipeng Liu and Zhenquan Zhang and Shiqiao Gao and Lei Jin",

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pages = "1122--1126",

booktitle = "Micro-Nano Technology XIV",

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Liu, H, Zhang, Z, Gao, S & Jin, L 2013, Analysis on the sticking failure of micro-comb driving structure. in Micro-Nano Technology XIV. Key Engineering Materials, vol. 562-565, Trans Tech Publications Ltd., pp. 1122-1126, 14th Annual Conference and the 3rd International Conference of the Chinese Society of Micro-Nano Technology, CSMNT 2012, Hangzhou, China, 4/11/12. https://doi.org/10.4028/www.scientific.net/KEM.562-565.1122

TY - GEN

T1 - Analysis on the sticking failure of micro-comb driving structure

AU - Liu, Haipeng

AU - Zhang, Zhenquan

AU - Gao, Shiqiao

AU - Jin, Lei

PY - 2013

Y1 - 2013

N2 - As an important part of MEMS, the micro-comb electrostatic driving structure is the main source of mechanical movement in many MEMS devices. Its reliability will directly affect the using performance of the MEMS devices. The electrostatic driving system of micro-comb capacitive micro-machined gyroscope can be equivalent to a second order system. If the applied voltage is less than the pull-in voltage, the movable micro-comb will maintain a steady state. Otherwise, the micro-combs will stick together because the applied voltage is greater than the calculated pull-in voltage. If the distance between micro-combs is too narrow, the role of these micro forces will be very significant. The pull-in phenomenon occurring in the process that the micro-machined gyroscope is applied on a phase step input voltage will lead to the very narrow comb spacing. As a result that the role of micro-forces such as the capillary force, Van der Waals force and Casimir force will become very significant, and the micro-combs will stick together permanently.

AB - As an important part of MEMS, the micro-comb electrostatic driving structure is the main source of mechanical movement in many MEMS devices. Its reliability will directly affect the using performance of the MEMS devices. The electrostatic driving system of micro-comb capacitive micro-machined gyroscope can be equivalent to a second order system. If the applied voltage is less than the pull-in voltage, the movable micro-comb will maintain a steady state. Otherwise, the micro-combs will stick together because the applied voltage is greater than the calculated pull-in voltage. If the distance between micro-combs is too narrow, the role of these micro forces will be very significant. The pull-in phenomenon occurring in the process that the micro-machined gyroscope is applied on a phase step input voltage will lead to the very narrow comb spacing. As a result that the role of micro-forces such as the capillary force, Van der Waals force and Casimir force will become very significant, and the micro-combs will stick together permanently.

KW - Electrostatic force

KW - Micro forces

KW - Micro-comb

KW - Sticking failure

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SN - 9783037857397

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PB - Trans Tech Publications Ltd.

T2 - 14th Annual Conference and the 3rd International Conference of the Chinese Society of Micro-Nano Technology, CSMNT 2012

Y2 - 4 November 2012 through 7 November 2012

ER -

Analysis on the sticking failure of micro-comb driving structure

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