Determining pull-in curves with electromechanical FEM models

Abstract: This paper presents a short overview of the different approaches to compute the pull-in curve for discretized models of electrostatically actuated microsystems that are currently available in the literature. The focus is on the so-called 'staggered' algorithms. A new method to improve these existing approaches by using charge loading is proposed. The performance of the algorithms is tested with some numerical experiments: FEM models of microbeams, used to model microswitches. The results show that the charge l… Show more

“…We demonstrate how numerical path following can be applied as a more rigorous approach as suggested in [15] and [16]. An overview of methods for modeling the pullin instability is given in [17]. Here, it is concluded that, for the pull-in instability, a combination of numerical path following and charge control leads to fastest convergence.…”

Numerical Path Following as an Analysis Method for Electrostatic MEMS

“…We demonstrate how numerical path following can be applied as a more rigorous approach as suggested in [15] and [16]. An overview of methods for modeling the pullin instability is given in [17]. Here, it is concluded that, for the pull-in instability, a combination of numerical path following and charge control leads to fastest convergence.…”

Numerical Path Following as an Analysis Method for Electrostatic MEMS

Numerical Modeling of the Electromechanical Interaction in MEMS

A palette of methods for computing pull-in curves for numerical models of microsystems