DocumentCode
177047
Title
Design and simulation of a novel wireless passive SAW soil pressure sensor
Author
Wang Xiaobo ; Xie Liqiang ; Li Juelong ; Xing Jianchun ; Kang Shuai
Author_Institution
Coll. of Defense Eng., PLA Univ. of Sci.& Technol., Nanjing, China
fYear
2014
fDate
May 31 2014-June 2 2014
Firstpage
4696
Lastpage
4701
Abstract
A novel wireless passive SAW (Surface Acoustic Wave) soil pressure sensor based on delay line theory is designed in this paper. The principle of the sensor is described, and also the mechanical properties analysis and Finite Element Simulation analysis about the piezoelectric substrate is done to verify the effectiveness of the sensor. With hollow cylindrical bottom sealing piezoelectric substrate, and not involving electron mobility inside the crystal, the sensor is immune to electromagnetic interference factors; moreover the piezoelectric substrate adopts ST-X cut quartz crystal materials that is little affected by temperature, so it is also not affected by temperature factor. Sensors based on the principle of SAW, can form a complete sense of passive wireless sensor system. Therefore, compared to traditional pressure sensor, the sensor designed in this paper has a high accuracy and application flexibility.
Keywords
electromagnetic interference; electron mobility; finite element analysis; piezoelectric materials; piezoelectric transducers; pressure sensors; quartz; sealing materials; seals (stoppers); soil; surface acoustic wave delay lines; surface acoustic wave sensors; wireless sensor networks; ST-X cut quartz crystal material; delay line theory; electromagnetic interference factor; electron mobility; finite element simulation analysis; hollow cylindrical bottom sealing piezoelectric substrate; mechanical property analysis; surface acoustic wave soil pressure sensor; wireless passive SAW soil pressure sensor; Crystals; Delays; Soil; Strain; Substrates; Surface acoustic waves; Temperature; Finite Element Simulation; SAW; pressure sensor; the delay line;
fLanguage
English
Publisher
ieee
Conference_Titel
Control and Decision Conference (2014 CCDC), The 26th Chinese
Conference_Location
Changsha
Print_ISBN
978-1-4799-3707-3
Type
conf
DOI
10.1109/CCDC.2014.6853012
Filename
6853012
Link To Document