Characterization and optimization of dry releasing for the fabrication of RF MEMS capacitive switches

Abstract

This paper discusses fabrication aspects of photoresist sacrificial layers for fabricating metal bridges of capacitive radio frequency (RF) microelectromechanical systems (MEMS) switches. First, reflow of the photoresist layer after lithography is investigated for reducing mechanical fracture of the metal layer by smoothing,the edges of the sacrificial layer. Second, the dry-etch releasing process of the structures in an O2 plasma has been investigated by identifying suitable etching parameters. The findings in this paper reveal that the mechanical,performance,of the released bridges strongly depends,on the etch parameters. It is shown,that especially the etching power affects the mean stress and the stress gradient in the bridge, which results in buckling and deformed,bridge shape for an etching power above 500 W, drastically increasing the actuation voltage and reducing the down-state capacitance. Finally, the paper presents a suitable parameter set for the release etching of capacitive MEMS metal bridges. (Some figures in this article are in colour only in the electronic version)