Comparison of micromachined FBAR band pass filters with different structural geometry

In this paper, fully integrated FBARs (Film Bulk Acoustic Wave Resonators) and FBAR band pass filters have been designed, fabricated, and characterized for advanced mobile/wireless communication systems by using silicon bulk micromachining technology. Two different band pass filters are fabricated a...

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Main Authors: Park, J.Y., Lee, H.M., Lee, H.C., Lee, K.H., Ko, Y.J., Shin, J.H., Moon, S.H., Bu, J.U.
Format: Conference Proceeding
Language:English
Subjects:
Acoustic waves
Band pass filters
Electrodes
Film bulk acoustic resonators
Geometry
Insertion loss
Micromachining
Semiconductor films
Silicon
Wireless communication
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container_end_page 2008 vol.3
container_issue
container_start_page 2005
container_title
container_volume 3
creator Park, J.Y.
Lee, H.M.
Lee, H.C.
Lee, K.H.
Ko, Y.J.
Shin, J.H.
Moon, S.H.
Bu, J.U.
description In this paper, fully integrated FBARs (Film Bulk Acoustic Wave Resonators) and FBAR band pass filters have been designed, fabricated, and characterized for advanced mobile/wireless communication systems by using silicon bulk micromachining technology. Two different band pass filters are fabricated and compared with 7 bulk acoustic resonators in series and shunt connection. Various structures are also investigated for finding the better geometry of the FBAR BPF. In addition, dependency of the quality of AlN film on Mo bottom electrode is also presented. The developed AlN film has 1.9/spl deg/ of FWHM (full width half maximum) of rocking curve and approximately 70 MPa in tensile stress on top of the Mo electrode layer. The measured effective coupling coefficient, K/sup 2//sub effective/ is ranged from 6.8 to 7.3. The fabricated resonator has a quality factor of 1530, insertion loss of -0.45 dB, and return loss of -28 dB, respectively. Fabricated two different (Type-A and Type-B) band pass filters have insertion loss of -1.5 dB and -1.578 dB, return loss of -6 dB and -10 dB, stop band notch of -50 dB and -52 dB, bandwidth of 75 MHz and 70 MHz, 18 MHz and 32 MHz in separation between lower stop band notch and left edge of pass band, and chip size of 1.3 mm /spl times/ 1.5 mm, respectively.
doi_str_mv 10.1109/MWSYM.2003.1210553
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recordid cdi_ieee_primary_1210553
source IEEE Xplore All Conference Series
subjects Acoustic waves
Band pass filters
Electrodes
Film bulk acoustic resonators
Geometry
Insertion loss
Micromachining
Semiconductor films
Silicon
Wireless communication
title Comparison of micromachined FBAR band pass filters with different structural geometry
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