Title :
Gold Coated Carbon-Nanotube Surfaces as Low Force Electrical Contacts for MEMS Devices: Part II, Fine Transfer Mechanisms
Author :
McBride, J.W. ; Spearing, S.M. ; Jiang, L. ; Chianrabutra, C.
Author_Institution :
Eng. Sci., Univ. of Southampton, Southampton, UK
Abstract :
Material transfer in switching contacts is considered at very low currents, (below 20mA). The transfer process is critical to a wide range of electronic switching technologies and is a limiting factor for MEMs relays. A test system is described and characterized for bench-marking surfaces. This is followed by a study of Multi-walled CNT´s (MWCNT´s), synthesized on a silicon planar and sputter coated with a gold film. The planar surfaces are mounted on the tip of a piezo-electric actuator and mated with a Au coated hemispherical surface. The switching contacts are tested under conditions typical of MEMS relay applications; 4V, 1mA; with a static contact force of 1mN, results are presented on the bounce process and on the opening characteristic with respect to the melting and boiling voltages for the materials tested.
Keywords :
carbon nanotubes; electrical contacts; gold; microrelays; piezoelectric actuators; sputtered coatings; surface mount technology; Au-C; MEMS device; MEMS relay; MWCNT; bench-marking surface; boiling voltage; current 1 mA; electronic switching technology; fine transfer mechanism; gold coated carbon-nanotube surface; hemispherical surface; limiting factor; low force electrical contact; material transfer; melting voltage; multiwalled CNT; piezoelectric actuator; planar surface; sputter coating; switching contact; voltage 4 V; Contacts; Gold; Rough surfaces; Surface roughness; Surface topography; Surface treatment; Switches;
Conference_Titel :
Electrical Contacts (Holm), 2011 IEEE 57th Holm Conference on
Conference_Location :
Minneapolis, MN
Print_ISBN :
978-1-61284-650-7
DOI :
10.1109/HOLM.2011.6034800
