High-accuracy modeling method for transmission line on surface acoustic wave substrates

A high‐accuracy modeling methodology for electrical characteristics of transmission electrodes on SAW substrates is established. In order to design SAW filter accurately, it is necessary to extract precise SAW material parameters from the measurement value of the reference SAW resonator. When measur...

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Published in:Electronics and communications in Japan 2009-02, Vol.92 (2), p.49-55
Main Authors: Yamada, Toru, Uriu, Kazuhide, Jibu, Toru, Seo, Koji, Hashimoto, Ken-Ya, Yamaguchi, Masatsune
Format: Article
Language:English
Subjects:
de-embedding
equivalent circuit
modeling
piezoelectric substrate
surface acoustic wave
transmission line
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cited_by cdi_FETCH-LOGICAL-c4040-ba96fc9d943ebafafb50d12e92a36a0e1c782a04b3af1671fe3c1d521830fa683
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container_title Electronics and communications in Japan
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creator Yamada, Toru
Uriu, Kazuhide
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Seo, Koji
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Yamaguchi, Masatsune
description A high‐accuracy modeling methodology for electrical characteristics of transmission electrodes on SAW substrates is established. In order to design SAW filter accurately, it is necessary to extract precise SAW material parameters from the measurement value of the reference SAW resonator. When measuring the SAW resonator, transmission lines are needed for feeding to contact probes. De‐embedding procedure, which removes the influence of transmission lines, is very important for accurate characterization of the SAW resonator. In this paper, we apply the improved de‐embedding procedure using Short, Open, and Thru calibration patterns. The de‐embedded transmission line is separated in four parts and extracted the RLGC equivalent circuit model for each part. Furthermore, we derive the frequency characteristic of resistance element of the transmission line. Finally, de‐embedding the transmission line accurately, we can get intrinsic characteristic of the SAW resonator. This method must be very useful to extract SAW material parameters and we can design SAW filters more effectively. © 2009 Wiley Periodicals, Inc. Electron Comm Jpn, 92(2): 49–55, 2009; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/ecj.10230
doi_str_mv 10.1002/ecj.10230
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subjects de-embedding
equivalent circuit
modeling
piezoelectric substrate
surface acoustic wave
transmission line
title High-accuracy modeling method for transmission line on surface acoustic wave substrates
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