Title :
Analytical and Finite-Element Modeling of Localized-Mass Sensitivity of Thin-Film Bulk Acoustic-Wave Resonators (FBAR)
Author :
Campanella, Humberto ; Martincic, Emile ; Nouet, Pascal ; Uranga, Arantxa ; Esteve, Jaume
Author_Institution :
CNM, Inst. de Microelectron. de Barcelona, Barcelona
Abstract :
Analytical and finite-element models of a localized-mass sensor fabricated with thin-film bulk acoustic wave resonator (FBAR) are reported. While our group demonstrated FBAR-based localized-mass sensors, no previous modeling of these sensors is found in the literature. The finite-element model (FEM) defines the boundary conditions and performs parametric analysis of the sensor´s mass loading, whereas the analytical approach takes advantage on a modified Mason´s model to describe the transmission-line circuit of the sensor. The sensitivity of the resonance frequency to location and size of mass deposition has been studied. Both the experimental and modeled responsivities exhibit a nonlinear dependence on the location and size of the localized-mass.
Keywords :
acoustic resonance; acoustic resonators; bulk acoustic wave devices; finite element analysis; sensors; thin film devices; FBAR-based localized-mass sensor fabrication; analytical approach; boundary condition; finite-element model; mass deposition size; modified Masons model; nonlinear dependence; parametric analysis performance; resonance frequency; sensors mass loading; thin-film bulk acoustic-wave resonator; transmission-line circuit; Acoustic sensors; Acoustic waves; Analytical models; Boundary conditions; Film bulk acoustic resonators; Finite element methods; Performance analysis; Sensor phenomena and characterization; Thin film sensors; Transistors; Acoustic resonators; bulk acoustic wave devices; finite-element methods (FEM); modeling; sensitivity; transducers;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2009.2024858
