V. L. Rabinovich scite author profile

In this paper, we present an efficient macromodel extraction technique for gas damping and spring effects for arbitrarily shaped MEMS devices. The technique applies an Amoldi-based model-order-reduction algorithm to generate low-order models from an FEM approximation of the linearized Reynolds equation. We demonstrate that this approach for generating the frequency-dependent gas-damping model is more than 100 times faster than previous approaches, which solves the linearized Reynolds equation using a transient FEM solver. The low-order gas-damping model can be easily inserted into a system-level modeling package for transient and frequency analysis. The simulated results are in good agreement with experimental results for four different devices.

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Modelling of interfacial fracture

Rabinovich¹,

Sarin²

1996

Materials Science and Engineering: A

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Three-dimensional modelling of indentation fracture in brittle materials

Rabinovich

Sarin

1996

Materials Science and Engineering: A

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V. L. Rabinovich

Nonlinear electromechanical behaviour of an electrostatic microrelay

The effect of release-etch holes on the electromechanical behaviour of MEMS structures

Modeling gas damping and spring phenomena in MEMS with frequency-dependent macro-models

Modelling of interfacial fracture

Three-dimensional modelling of indentation fracture in brittle materials

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