Effects of etch holes in microelectromechanical resonators
Effects of etch holes in microelectromechanical resonators
Micromachining processes such as surface machining of polysilicon microstructures or SOI-based processes often require etch holes to be created in the structural layer for purposes of releasing the mechanical structures. The present work examines the effect of the nature and density of etch holes on the resonant frequency of micromechanical resonators. Micromechanical resonators find applications as electronic filters or as timing references in oscillators and any process-induced offset in resonant frequency can significantly affect system performance. A general analytical formulation based on the Rayleigh-Ritz principle is used as a starting point to model the resonant frequencies for microstructures of a given topology. The analytical approach is compared to finite element simulation results for a multitude of resonator topologies for varying etch hole size and location. This analytical model enables the formulation of design rules that allow minimization of resonant frequency offsets in MEMS resonators due to the presence of etch holes.
577-580
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828
Seshia, Ashwin
4389f1ed-603a-4fed-9ceb-6279102b0fad
8 May 2005
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828
Seshia, Ashwin
4389f1ed-603a-4fed-9ceb-6279102b0fad
Yan, Jize and Seshia, Ashwin
(2005)
Effects of etch holes in microelectromechanical resonators.
In Technical Proceedings of the 2005 NSTI Nanotechnology Conference and Trade Show.
vol. 3,
TechConnect.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Micromachining processes such as surface machining of polysilicon microstructures or SOI-based processes often require etch holes to be created in the structural layer for purposes of releasing the mechanical structures. The present work examines the effect of the nature and density of etch holes on the resonant frequency of micromechanical resonators. Micromechanical resonators find applications as electronic filters or as timing references in oscillators and any process-induced offset in resonant frequency can significantly affect system performance. A general analytical formulation based on the Rayleigh-Ritz principle is used as a starting point to model the resonant frequencies for microstructures of a given topology. The analytical approach is compared to finite element simulation results for a multitude of resonator topologies for varying etch hole size and location. This analytical model enables the formulation of design rules that allow minimization of resonant frequency offsets in MEMS resonators due to the presence of etch holes.
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Published date: 8 May 2005
Venue - Dates:
2005 NSTI Nanotechnology Conference & Trade Show, Anaheim, USA, 2005-05-08 - 2005-05-12
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Local EPrints ID: 486976
URI: http://eprints.soton.ac.uk/id/eprint/486976
PURE UUID: 14129ca6-4972-4628-907a-99d2f8915d22
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Date deposited: 09 Feb 2024 17:31
Last modified: 18 Mar 2024 03:33
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Author:
Ashwin Seshia
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