Presentation 2012-04-20
Study of superconducting transmit dual-mode stripline filter with double-strip resonators
Hirokazu MATSUURA, Naoto SEKIYA, Moritoshi AKIYA, Yuto TANAKA, Shigetoshi OHSHIMA,
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Abstract(in English) The use of a double-strip resonator is proposed for improving the power handing capability of high-temperature superconductor transmit band pass filter (BPF) with stripline (SL) structure. A double-strip 2-pole BPF with a 5.0-GHz center frequency and 100-MHz bandwidth and with an Al_2O_3 substrate was designed. The maximum current densities at the edges of the resonator as a function of frequency were simulated. The results showed that the maximum current density in the BPF was approximately 30% less than that of the conventional single-strip BPF.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) double-strip resonator / dual-mode filter / transmit superconducting filter / power handling capability
Paper # SCE2012-5,MW2012-5
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Conference Information
Committee SCE
Conference Date 2012/4/13(1days)
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Registration To Superconductive Electronics (SCE)
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) Study of superconducting transmit dual-mode stripline filter with double-strip resonators
Sub Title (in English)
Keyword(1) double-strip resonator
Keyword(2) dual-mode filter
Keyword(3) transmit superconducting filter
Keyword(4) power handling capability
1st Author's Name Hirokazu MATSUURA
1st Author's Affiliation Interdisciplinary Graduate School of Medicine and Engineering Faculty of Engineering, University of Yamanashi()
2nd Author's Name Naoto SEKIYA
2nd Author's Affiliation Faculty of Engineering, Yamagata University
3rd Author's Name Moritoshi AKIYA
3rd Author's Affiliation Faculty of Engineering, Yamagata University
4th Author's Name Yuto TANAKA
4th Author's Affiliation Faculty of Engineering, Yamagata University
5th Author's Name Shigetoshi OHSHIMA
5th Author's Affiliation Faculty of Engineering, Yamagata University
Date 2012-04-20
Paper # SCE2012-5,MW2012-5
Volume (vol) vol.112
Number (no) 13
Page pp.pp.-
#Pages 5
Date of Issue