• Title/Summary/Keyword: fishbone 형태의 전송선로

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A study on RF characteristics of fishbone-type transmission line on PES substrate for application to flexible wireless communication device (플렉시블 무선통신소자 응용을 위한 PES 박막상의 Fishbone 형태의 전송선로에 대한 RF 특성연구)

  • Yun, Young
    • Journal of Advanced Marine Engineering and Technology
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    • v.38 no.3
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    • pp.302-311
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    • 2014
  • In this work, a FTTL (fishbone-type transmission line) structure was fabricated on PES (polyether sulfone) for a realization of transparent flexible wireless communication device, and its RF characteristics were investigated. According to the results, the FTTL on PES showed a short wavelength characteristic compared with conventional coplanar waveguide. Concretely, the wavelength of the FTTL was 2.23 mm at 50 GHz, which was 56.6 % of the conventional coplanar waveguide. According to the bandwidth extraction result, the passband of the FTTL on PES was 608 GHz. Unlike conventional periodic structures, the characteristic impedance of the FTTL on PES showed a very low frequency dependency, which means that the FTTL on PES can be used for application to transmission line and distributed passive components with a broadband operation frequency.

High-frequency characteristics of short-wavelength transmission line on polyether sulfone thin film for a realization of transparent flexible wireless communication device (투명 플렉시블 무선통신 소자구현을 위한 PES 박막상의 단파장 선로에 대한 고주파 특성연구)

  • Yun, Young
    • Journal of Advanced Marine Engineering and Technology
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    • v.40 no.4
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    • pp.353-361
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    • 2016
  • This work presents an investigation of the radio frequency characteristics of an FTLPGS (fishbone-type transmission line employing periodic ground structure) fabricated on PES (polyether sulfone) for the realization of a transparent flexible wireless communication device. According to the results, the FTLPGS on PES showed a shorter wavelength characteristic when compared with a conventional coplanar waveguide. Concretely, the wavelength of the FTLPGS was 1.91 mm at 50 GHz, which was 48.5% of the conventional coplanar waveguide. The bandwidth extraction result showed that the passband of the FTLPGS on PES was 250 GHz. Unlike conventional periodic structures, the characteristic impedance of the FTLPGS on PES also showed a very low frequency dependency. A miniaturization of the RF circuit on the PES substrate was made possible by the FTLPGS on PES having shown characteristic impedance lower than that of conventional transmission lines. These results mean that, with a broadband operation frequency, the FTLPGS on PES is a suitable construction application for the transmission line and distributed passive components.