Title :
P0-13 Phase Velocity Control of Surface Acoustic Waves Based on Surface Shorting and Electrical Field Application Using MEMS Switches
Author :
Kuypers, Jan H. ; Schmidt, Marek E. ; Tanaka, Shuji ; Esashi, Masayoshi
Author_Institution :
Tohoku Univ. Sendai, Sendai
Abstract :
We have investigated controlling the phase velocity of a surface acoustic wave (SAW) by a microelectromechanical switch fabricated on a high coupling piezoelectric substrate. The principle is based on the interaction of the evanescent surface potential of the SAW with the conductive switch. In theory tuning of the velocity in the range given by v0 and vm, i.e. the velocity for a SAW on a free and metallized substrate, is possible. We have achieved up to 17.6 m/s (0.44 %) velocity tuning on 128degYX LiNbO3. A maximum velocity sensitivity of Deltav/v of 15times10-3/V and phase sensitivity of 700deg/V was measured. This is five orders of magnitude larger than values obtained for electrical field tuning.
Keywords :
acoustic variables control; lithium compounds; microswitches; piezoelectric materials; surface acoustic waves; surface potential; tuning; velocity control; LiNbO3; MEMS switches; SAW; conductive switch; electrical field application; electrical field tuning; evanescent surface potential; high coupling piezoelectric substrate; microelectromechanical switch; phase velocity control; surface acoustic waves; surface shorting; Acoustic waves; Metallization; Microswitches; Substrates; Surface acoustic wave devices; Surface acoustic waves; Switches; Tuning; Velocity control; Virtual manufacturing;
Conference_Titel :
Ultrasonics Symposium, 2007. IEEE
Conference_Location :
New York, NY
Print_ISBN :
978-1-4244-1383-6
Electronic_ISBN :
1051-0117
DOI :
10.1109/ULTSYM.2007.310
