Silicon Compatible Acoustic Wave Resonators: Design, Fabrication and Performance

Abstract: Continuous advancement in wireless technology and silicon microfabrication has fueled exciting growth in wireless products. The bulky size of discrete vibrating mechanical devices such as quartz crystals and surface acoustic wave resonators impedes the ultimate miniaturization of single-chip transceivers. Fabrication of acoustic wave resonators on silicon allows complete integration of a resonator with its accompanying circuitry.  Integration leads to enhanced performance, better functionality with reduced co… Show more

“…Depending on the substrate material, the interdigital capacitive sensors can be used either as electric field sensors or acoustic wave sensors. Acoustic wave sensors require the interdigital sensors to be placed on top of piezoelectric material so that the electrodes acts as a transducer and converts input electrical signal into mechanical acoustic waves [2]. The length of the periodic spacing in the interdigital pattern determines the frequency of the acoustic waves and it can be used for a wide range of applications such as sonar, surface acoustic wave sensors, acoustic-plate mode sensor, acoustic microscopes and surface acoustic wave signal processors [3].…”

Modeling and development of radio frequency planar interdigital electrode sensors

“…Depending on the substrate material, the interdigital capacitive sensors can be used either as electric field sensors or acoustic wave sensors. Acoustic wave sensors require the interdigital sensors to be placed on top of piezoelectric material so that the electrodes acts as a transducer and converts input electrical signal into mechanical acoustic waves [2]. The length of the periodic spacing in the interdigital pattern determines the frequency of the acoustic waves and it can be used for a wide range of applications such as sonar, surface acoustic wave sensors, acoustic-plate mode sensor, acoustic microscopes and surface acoustic wave signal processors [3].…”

Modeling and development of radio frequency planar interdigital electrode sensors

A study on controllable aluminium doped zinc oxide patterning by chemical etching for MEMS application

Enhanced piezoelectric properties of aluminium doped zinc oxide thin film for surface acoustic wave resonators on a CMOS platform