DocumentCode :
1166511
Title :
Temperature-Compensated Devices Using Thin 
Layer With Negative TCD
Layer With Negative TCDAuthor :
Dewan, Namrata ; Sreenivas, K. ; Gupta, Vinay
Author_Institution :
Dept. of Phys. & Astrophys., Delhi Univ.
Volume :
27
Issue :
9
fYear :
2006
Firstpage :
752
Lastpage :
754
Abstract :
This letter evaluates the applicability of TeO2 thin films as an attractive alternative over conventional SiO2 layers in the field of temperature compensation of various devices. It is reported that the processing environment during TeO2 growth plays an important role in defining its negative temperature coefficient of delay (TCD), and the magnitude of TCD increases continuously from -1.862times103 ppmmiddotdegC-1 to -9.883times103 ppmmiddotdegC-1 with an increase in the oxygen percentage from 25% to 100% in the processing gas mixture. A very low thickness of 0.008lambda for the TeO2 over layer (in comparison to the 0.32lambda-thick SiO 2 layer) is required for achieving a zero-TCD device without degrading its performance
Keywords :
elastic constants; silicon compounds; surface acoustic wave devices; tellurium compounds; thin film devices; SiO2; TeO2; elastic constants; gas mixture; negative temperature coefficient of delay; silica layers; surface acoustic wave device; temperature-compensated devices; thin film growth; thin film layer; zero-TCD device; Acoustic waves; Degradation; Delay; Frequency; Piezoelectric materials; Sputtering; Surface acoustic wave devices; Surface acoustic waves; Temperature sensors; Thin film devices; Elastic constants; surface acoustic wave (SAW) device; temperature coefficient of delay (TCD);
fLanguage :
English
Journal_Title :
Electron Device Letters, IEEE
Publisher :
ieee
ISSN :
0741-3106
Type :
jour
DOI :
10.1109/LED.2006.880644
Filename :
1683868
Link To Document :
