Title :
Thin film bulk acoustic wave filter
Author :
Ylilammi, Blarkku ; Ellä, Juha ; Partanen, Meeri ; Kaitila, Jyrki
fDate :
4/1/2002 12:00:00 AM
Abstract :
Thin film bulk acoustic wave (BAW) resonators (FBAR) are fabricated on a silicon nitride bridge using a ZnO piezolayer on a glass substrate and surface micromachining by standard thin film technology. These resonators exhibit a coupling constant k/sub t//sup 2/=7.8% at the first thickness extensional wave mode and are used as impedance elements in a ladder filter in the 1-GHz frequency band of mobile telecommunications. An electrical equivalent circuit is used to characterize the properties of the resonators and to show how the performance of the filter depends on the parameters of the resonators. 2.5% bandwidth, 2.8-dB insertion loss, and 35-dB selectivity are obtained in a filter with six resonators. The technology can be used to manufacture miniature microwave filters without any additional inductances.
Keywords :
UHF filters; acoustic microwave devices; acoustic resonator filters; bulk acoustic wave devices; equivalent circuits; ladder filters; micromachining; microwave filters; passive filters; silicon compounds; thin film devices; zinc compounds; 1 GHz; 2.8 dB; Si/sub 3/N/sub 4/; Si/sub 3/N/sub 4/ bridge; ZnO; ZnO piezolayer; bulk acoustic wave filter; electrical equivalent circuit; glass substrate; impedance elements; ladder filter; miniature UHF filters; miniature microwave filters; mobile telecommunications band; piezoelectric coupling coefficient; surface micromachined bridge resonators; thin film BAW filter; thin film BAW resonators; Acoustic waves; Bridge circuits; Film bulk acoustic resonators; Glass; Microwave filters; Resonator filters; Semiconductor thin films; Silicon; Transistors; Zinc oxide;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
