Title :
Calculation of the SAW-induced stress distributions in an electrode of a SAW-device on LiTaO3
Author :
Kubat, F. ; Ruile, W. ; Rösler, U. ; Ruppel, C.C.W. ; Reindl, L.M.
Author_Institution :
EPCOS AG, Munich, Germany
Abstract :
Acoustomigration is a well-known phenomenon, which may occur in surface acoustic wave (SAW)-devices operating at high driving levels. Based on previously published reports (Roesler, U. et al., 1996; Kubat, F. et al., 2002; 2003) about the calculation of the acoustic power, dynamic stresses and displacements in a homogenous isotropic Al-layer for a given driving condition, we expand this method for the calculation of the SAW-induced stress in an electrode of a SAW-device. The quantitative calculation of this stress is based on the combination of the widely used P-matrix based model, which yields the distribution of the potential power (Kubat et al., 2002) for a given driving level and a FEM tool (Smole, P. et al., 2002), which provides the relative stresses inside an electrode.
Keywords :
aluminium; electrodes; finite element analysis; internal stresses; lithium compounds; matrix algebra; surface acoustic wave devices; Al; FEM tool; LiTaO3; P-matrix based model; SAW devices; SAW-device electrode; SAW-induced stress distributions; acoustomigration; high driving levels; homogenous isotropic aluminium layer; lithium tantalate; potential power distribution; surface acoustic wave devices; Acoustic measurements; Acoustic testing; Electrodes; Frequency; Metallization; Pulse width modulation; Scanning electron microscopy; Stress; Surface acoustic wave devices; Surface acoustic waves;
Conference_Titel :
Ultrasonics Symposium, 2004 IEEE
Print_ISBN :
0-7803-8412-1
DOI :
10.1109/ULTSYM.2004.1417756
