An efficient modeling approach for wavelet transform processors using surface acoustic wave devices

Abstract: Wavelet transform processors (WTPs) using surface acoustic wave (SAW) devices provide an effective solution to utilize wavelet transform technology in practical applications. This work proposes a novel model of wavelet transform processors for predicting their performance characteristics, which might be utilized for single-electrode type and double-electrode type interdigital transducers, as there is currently no universal, quick, and accurate simulation technology for WTPs (IDTs). The admittance matrix, trans… Show more

“…Three kinds of SAW micro-force sensors were fabricated on ST-X quartz substrate: the SAW micro-force sensor without acoustic absorbers, the SAW micro-force sensor with acoustic absorbers, and the SAW micro-force sensor both with acoustic absorbers and grooved piezoelectric substrate. In addition, the electrode material of the IDTs was aluminum [36], and the electrode-overlap envelope of the input IDT was weighted according to the Hamming function [37][38][39].…”

Grooving and Absorption on Substrates to Reduce the Bulk Acoustic Wave for Surface Acoustic Wave Micro-Force Sensors

“…Three kinds of SAW micro-force sensors were fabricated on ST-X quartz substrate: the SAW micro-force sensor without acoustic absorbers, the SAW micro-force sensor with acoustic absorbers, and the SAW micro-force sensor both with acoustic absorbers and grooved piezoelectric substrate. In addition, the electrode material of the IDTs was aluminum [36], and the electrode-overlap envelope of the input IDT was weighted according to the Hamming function [37][38][39].…”

Grooving and Absorption on Substrates to Reduce the Bulk Acoustic Wave for Surface Acoustic Wave Micro-Force Sensors