Title :
Design on semiconductor coupled SAW convolver
Author :
Hohkawa, Kohji ; Suda, T. ; Aoki, Yusuke ; Hong, Chulun ; Kaneshiro, Chinami ; Koh, Keishin
Author_Institution :
Kanagawa Inst. of Technol., Japan
fDate :
4/1/2002 12:00:00 AM
Abstract :
This paper presents results of a design study on a semiconductor coupled surface acoustic wave (SAW) convolver in which bi-directionally propagating SAWs, on a piezoelectric substrate with a high coupling coefficient, couple with bonded semiconductor diodes through multistrips. To obtain convolution signals with a high efficiency, we adopted a diode-balanced bridge structure for the nonlinear operation. We also found that the tapping pitches of the multi-strip electrodes have robustness against operation frequency variation and temperature-dependent variation on the delay of the SAW. We verified the effectiveness of the device in. a circuit simulation and an experiment on a test circuit, which was fabricated by using an epitaxial lift-off film-bonding process.
Keywords :
bridge circuits; circuit simulation; semiconductor diodes; surface acoustic wave convolution; SAW delay; bi-directionally propagating SAWs; bonded semiconductor diodes; circuit simulation; convolution signals; diode-balanced bridge structure; epitaxial lift-off film-bonding process; high coupling coefficient; multi-strip electrodes; multistrips; nonlinear operation; operation frequency variation robustness; piezoelectric substrate; semiconductor coupled SAW convolver design; tapping pitches; temperature dependent variation robustness; test circuit; Acoustic propagation; Acoustic waves; Bidirectional control; Bonding; Circuit testing; Convolution; Convolvers; Semiconductor diodes; Substrates; Surface acoustic waves;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
