Title :
A General Methodology to Predict the Reliability of Single-Crystal Silicon MEMS Devices
Author :
Fitzgerald, Alissa M. ; Pierce, David M. ; Huigens, Brent M. ; White, Carolyn D.
Author_Institution :
A.M. Fitzgerald & Assoc., LLC, San Carlos, CA, USA
Abstract :
We describe and validate a new failure prediction methodology specifically designed for single-crystal microelectromechanical systems (MEMS) devices under general service loadings. The methodology uses experimental data efficiently generated from fracture testing of simple test specimens to calculate a series of Weibull parameters descriptive of specific surface conditions. These data, combined with finite element modeling, are used to predict the fracture probability for any MEMS device fabricated by the same processes under any type of loading. We demonstrate the accuracy of our method by comparing predicted fracture probabilities against actual fracture test results for a micromirror in two distinct multiaxial loading configurations.
Keywords :
Weibull distribution; elemental semiconductors; failure analysis; finite element analysis; fracture toughness; micromechanical devices; reliability; silicon; MEMS devices; Si; finite element modeling; microelectromechanical systems devices; reliability; Deep reactive ion etching; Weibull distributions; failure analysis; finite-element (FE) methods; fracture strength; microelectromechanical devices; modeling and testing; prediction methods; reliability theory; silicon; simulation;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2009.2020467
