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Modeling and optimization of a side-implanted piezoresistive shear

Li, Yawei and Nishida, Toshikazu and Cattafesta, Lou and Sheplak, Mark and Papila, Melih (2006) Modeling and optimization of a side-implanted piezoresistive shear. In: SPIE, Smart Structures and Materials 2006: Sensors and Smart Structures Technologies for Civil, Mechanical, and Aerospace Systems, SanDiego

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Abstract

This paper presents the modeling and design optimization of a micromachined floating element piezoresistive shear stress sensor for the time-resolved, direct measurement of fluctuating wall shear stress in a turbulent flow. The sensor structure integrates side-implanted diffused resistors into the silicon tethers for piezoresistive detection. A theoretical nonlinear mechanical model is combined with a piezoresistive model to determine the electromechanical sensitivity. Lumped element modeling (LEM) is used to estimate the resonant frequency. Finite element modeling is employed to verify the mechanical models and LEM results. Two dominant noise sources, 1 f noise and thermal noise, were considered to determine the noise floor. These models were then leveraged to obtain optimal sensor designs for several sets of specifications. The cost function is the minimum detectable shear stress that is formulated in terms of sensitivity and noise floor. This cost function is subjected to the constraints of geometry, linearity, bandwidth, power and resistance. The results indicate the possibility of designs possessing dynamic ranges of greater than 85dB .

Item Type:Papers in Conference Proceedings
Uncontrolled Keywords:Floating element; piezoresistive; shear stress sensor and optimization.
Subjects:Q Science > QC Physics
ID Code:1127
Deposited By:Melih Papila
Deposited On:14 Dec 2006 02:00
Last Modified:25 Oct 2007 21:09

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