• DocumentCode
    1211658
  • Title

    Increasing the speed of microstrip-line-type polymer-dispersed liquid-crystal loaded variable phase shifter

  • Author

    Utsumi, Yozo ; Kamei, Toshihisa ; Saito, Katsuhiko ; Moritake, Hiroshi

  • Author_Institution
    Dept. of Commun. Eng., Nat. Defense Acad., Kanagawa, Japan
  • Volume
    53
  • Issue
    11
  • fYear
    2005
  • Firstpage
    3345
  • Lastpage
    3353
  • Abstract
    We discuss a method for the production of microwave polymer-dispersed liquid-crystal devices. We also show how to obtain a fine grained uniform fibrous polymer network. We then measure how the microwave-band dielectric properties and response-time characteristics of microstrip-line-type polymer-dispersed liquid-crystal devices vary with polymer concentration, and we measure how their response-time characteristics vary with the thickness of the polymer-dispersed liquid-crystal layer. With a layer thickness of 50 μm, an applied voltage of 100 V and a polymer concentration of 7 wt%, we show that the decay time can be reduced to approximately 1/30th that of a plain liquid crystal at the expense of an increase in rise time of approximately 2.5 times and a deterioration of dielectric birefringence of approximately 50%. Finally, we discuss the results obtained with a prototype polymer-dispersed liquid-crystal loaded variable phase shifter in the 15-GHz band. By comparing the variable phase and response time of this phase shifter with basic experimental data obtained by the microwave resonance method, we verified the validity of these values.
  • Keywords
    circuit optimisation; liquid crystal devices; microstrip lines; microstrip resonators; microwave phase shifters; polymer dispersed liquid crystals; 100 V; 50 micron; decay time; delay lines; dielectric birefringence; layer thickness; microstrip resonators; microwave polymer-dispersed liquid-crystal device; microwave resonance method; microwave-band dielectric property; plain liquid crystal; polymer concentration; polymer-dispersed liquid-crystal layer; response time characteristic; uniform fibrous polymer network; variable phase shifter; Dielectric liquids; Dielectric measurements; Liquid crystal devices; Liquid crystal polymers; Microstrip; Microwave devices; Microwave measurements; Microwave theory and techniques; Phase shifters; Thickness measurement; Delay lines; liquid-crystal devices; microstrip resonators; phase shifter;
  • fLanguage
    English
  • Journal_Title
    Microwave Theory and Techniques, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9480
  • Type

    jour

  • DOI
    10.1109/TMTT.2005.857123
  • Filename
    1528784