Catálogo de publicaciones - tesis
Título de Acceso Abierto
Modelado y simulación de micro-interruptores de radiofrecuencia (switch RF-MEMS)
Juan José Gómez Barroso Alberto Cardona Salvador Ortiz Pablo Kler Hernán Patoriza Claudio Berli
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Resumen/Descripción – provisto por el repositorio digital
We propose a formulation for modeling the squeeze film air damping in perforated micro-plates typical of micro-electromechanical devices for micro switch applications. A special finite element is developed, in which the nonlinear Reynolds equation for compressible film is used to analyze the air pressure field, whereas a standard linear elastic model is used for the displacement field. The formulation is based on a finite element discretization of both the pressure and displacement fields. The coupled equations of motion are established and, for harmonic oscillations, we show that the resulting damping matrix depends on the frequency. The typical dimensions and properties of the MEMS device are in the order of hundred micrometers length and some micrometers (3-8 um) thick, with a separation from the substrate of also some micrometers (e.g. 2-5 um). For these dimensions, the influence of damping owing to the surrounding air cannot be neglected, having an important contribution to the quality factor of the device. The influence of plate holes, which are necessary because of the fabrication process, determines also the dynamic behavior of the plate. Examples are presented, with comparisons to results of the bibliography, and analyticals solutions.Palabras clave – provistas por el repositorio digital
Micro switch; Radiofrequency; Squeeze flow; Reynolds equation; Finite Elements Method; Holes plates; Micro interruptores; Radiofrecuencia; Flujo de estrujamiento; Ecuación de Reynolds; Método de Elementos Finitos; Placas perforadas
Disponibilidad
| Institución detectada | Año de publicación | Navegá | Descargá | Solicitá |
|---|---|---|---|---|
| No requiere | 2014 | Biblioteca Virtual de la Universidad Nacional del Litoral (SNRD) |
|
Información
Tipo de recurso:
tesis
Idiomas de la publicación
- español castellano
País de edición
Argentina
Fecha de publicación
2014-05-08