Title :
MEMS capacitive switch with stable actuation voltage over a broad temperature range
Author :
Olszewski, Oskar Z. ; Ryan, Cormac ; Houlihan, Ruth ; O´Mahony, Conor ; Duane, Russell
Author_Institution :
Tyndall Nat. Inst., Univ. Coll. Cork, Cork, Ireland
Abstract :
The pull-in and up-state capacitance of two types of switch have been measured for temperatures from -25 to 75°C. In one device, the plate is suspended by meander springs, while in the second by straight springs. Experiments show that the change in the pull-in and capacitance in meander switch are only 0.2 V and 5 fF over the entire temperature range. The straight switch has a high measured slope of pull-in and capacitance change across the same temperature range: 0.34 V/°C and -0.53 fF/°C, respectively. Finite Element Method (FEM) simulation indicates that the high coefficient of temperature expansion of switch metal causes the movable electrode to expand as the temperature increases. In response to this effect the air-gap and capacitance in the straight switch significantly change, while in the meander switch the metal expansion is largely compensated for by the spring design.
Keywords :
air gaps; capacitance; finite element analysis; machine insulation; microswitches; springs (mechanical); thermal expansion; FEM simulation; MEMS capacitive switch; air-gap effect; broad temperature range; capacitance 5 fF; capacitance change; finite element method simulation; high measured slope; meander springs; metal expansion; movable electrode; pull-in capacitance; pull-in change; spring design; stable actuation voltage; straight springs; straight switch; switch metal temperature expansion; temperature -25 degC to 75 degC; temperature range; up-state capacitance; voltage 0.2 V; Air gaps; Capacitance; Electrodes; Springs; Stress; Switches; Temperature measurement;
Conference_Titel :
Design, Test, Integration and Packaging of MEMS/MOEMS (DTIP), 2012 Symposium on
Conference_Location :
Cannes
Print_ISBN :
978-1-4673-0785-7
