A thin one-dimensional rectangular or two-dimensional axisymmetric film is clamped at the perimeter. An electrostatic potential applied to a pad directly underneath the film leads to a “pull-in” phenomenon. The electromagnetic energy stored in the capacitive film-pad dielectric gap is decoupled from the mechanical deformation of the film using the Dugdale-Barenblatt-Maugis cohesive zone approximation. The ratio of film-pad gap () to film thickness (), or, , is found to play a crucial role in the electromechanical behavior of the film. Solution spanning a wide range of is found such that for and for . The new model leads to new design criteria for MEMS-RF-switches.
Issue Section:
Technical Papers
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.Copyright © 2007
by American Society of Mechanical Engineers
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