• DocumentCode
    3605523
  • Title

    Common-mode suppression for balanced bandpass filters in multilayer liquid crystal polymer technology

  • Author

    Ferna?Œ??ndez-Prieto, Armando ; Shilong Qian ; Jiasheng Hong ; Martel, Jesus ; Medina, Francisco ; Mesa, Francisco ; Naqui, Jordi ; Marti?Œ??n, Ferran

  • Author_Institution
    Dept. of Electron. & Electromagn., Univ. of Sevilla, Sevilla, Spain
  • Volume
    9
  • Issue
    12
  • fYear
    2015
  • Firstpage
    1249
  • Lastpage
    1253
  • Abstract
    A new multilayer differential transmission line for common-mode suppression fabricated using an organic liquid crystal polymer multilayer substrate is proposed and analysed. The structure consists of a pair of parallel strip lines printed on the top layer of the substrate that are capacitively coupled to conductor patches periodically etched in an intermediate interface. These patches are symmetrically connected to a solid ground plane by means of short-circuited high-impedance microstrip line sections and metalised via holes. The differential signal supported by the coupled strips is not significantly affected by the presence of the middle layer layout, whereas the common-mode signal propagation is strongly suppressed within a certain frequency band. When this structure is cascaded with a simple differential bandpass filter exhibiting poor common mode rejection, a good common mode response is achieved within the unperturbed differential passband. The measurements confirm a significant enhancement of common-mode rejection thanks to the use of the proposed differential lines.
  • Keywords
    band-pass filters; coupled transmission lines; liquid crystal polymers; microstrip lines; balanced bandpass filters; common mode rejection; common-mode rejection; common-mode signal propagation; common-mode suppression; conductor patches; coupled strips; differential bandpass filter; differential signal; intermediate interface; metalised via holes; middle layer layout; multilayer differential transmission line; multilayer liquid crystal polymer technology; organic liquid crystal polymer multilayer substrate; parallel strip lines; short-circuited high-impedance microstrip line sections; solid ground plane; unperturbed differential passband;
  • fLanguage
    English
  • Journal_Title
    Microwaves, Antennas Propagation, IET
  • Publisher
    iet
  • ISSN
    1751-8725
  • Type

    jour

  • DOI
    10.1049/iet-map.2014.0258
  • Filename
    7244288