Consistent generalization of COM equations to three-dimensional structures and the theory of the SAW transversely coupled waveguide resonator filter

Author

Biryukov, S.V. ; Martin, G. ; Polevoi, V.G. ; Weihnacht, M.

Author_Institution

Mints Radiotech. Inst., Moscow, Russia

Volume

42

Issue

4

fYear

1995

fDate

7/1/1995 12:00:00 AM

Firstpage

612

Lastpage

618

Abstract

An analytical theory for calculating the response of a transversely coupled waveguide resonator filter (TCF) is derived consistently from the analytical model for the description of two-dimensional structures. The COM equations for slowly varying amplitudes of the SAW electric potential as functions of the longitudinal coordinate are derived. The coefficients of these equations such as reflectivity, phase delay and transduction coefficient are calculated for each mode. The theory connects the material and geometrical parameters of the structure with the characteristics of the TCF. The frequency dependence of the admittance matrix and insertion loss for one and two cascaded filters are considered. The splitting of the resonance peaks due to cascading is investigated. Good agreement between theoretical and experimental results is found.<>

Keywords

coupled mode analysis; electric admittance; surface acoustic wave resonator filters; surface acoustic wave waveguides; waveguide filters; COM equations; SAW transversely coupled waveguide resonator filter; admittance matrix; analytical model; cascaded filters; electric potential; insertion loss; phase delay; reflectivity; three-dimensional structures; transduction coefficient; Analytical models; Coupled mode analysis; Delay; Electric potential; Equations; Frequency dependence; Reflectivity; Resonator filters; Surface acoustic waves; Waveguide theory;

fLanguage

English

Journal_Title

Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on

Publisher

ieee

ISSN

0885-3010

Type

jour

DOI

10.1109/58.393104

Filename

393104