Title :
Wide bandwidth NSPUDT coupled resonator filter design
Author :
Thompson, D.F. ; Wright, P.V.
Author_Institution :
RF Monolithics, Dallas, TX, USA
Abstract :
The results of a wide bandwidth natural single phase unidirectional transducer (NSPUDT) quartz coupled resonator filter design effort are discussed. The resulting 850-MHz filter yields a symmetric frequency response, a bandwidth in excess of 0.4%, an ultimate rejection in excess of 50 dB and a turnover temperature of 5°C which can be selectively placed between -25°C and 75°C depending on the rotated Y-cut angle of the quartz substrate. The transducers utilize asymmetric crystal orientations to achieve the unidirectionality with a simple single-level uniform two-electrodes-per-wavelength fabrication. Both theoretical model predictions and experimental results, along with a discussion of the effects of package parasitics, and measured turnover temperature data for several rotated Y-cut angles, are presented. Design considerations and several methods for increasing filter performance are discussed
Keywords :
acoustic filters; acoustic transducers; crystal filters; crystal orientation; crystal resonators; design engineering; frequency response; packaging; quartz; -25 to 75 degC; 850 MHz; NSPUDT; SiO2; asymmetric crystal orientations; experimental results; filter performance; package parasitics; quartz coupled resonator filter design; quartz substrate; rotated Y-cut angle; single-level uniform two-electrodes-per-wavelength fabrication; symmetric frequency response; theoretical model predictions; turnover temperature; ultimate rejection; wide bandwidth natural single phase unidirectional transducer; Bandwidth; Fabrication; Frequency response; Packaging; Predictive models; Resonator filters; Rotation measurement; Temperature dependence; Temperature measurement; Transducers;
Conference_Titel :
Ultrasonics Symposium, 1991. Proceedings., IEEE 1991
Conference_Location :
Orlando, FL
DOI :
10.1109/ULTSYM.1991.234151
