• DocumentCode
    1539272
  • Title

    125% bandwidth superconducting chirp filters

  • Author

    Cheung, H.C.H. ; Holroyd, M. ; Huang, F. ; Lancaster, M.J. ; Aschermann, B. ; Getta, M. ; Muller, G. ; Schlick, H.

  • Author_Institution
    Birmingham Univ., UK
  • Volume
    7
  • Issue
    2
  • fYear
    1997
  • fDate
    6/1/1997 12:00:00 AM
  • Firstpage
    2359
  • Lastpage
    2362
  • Abstract
    A previously-presented synthesis procedure is employed to design ultra-wide bandwidth linear chirp (quadratic phase) filters. The synthesis procedure eliminates the harmonic responses, theoretically permitting a bandwidth close to 200% (i.e. the frequency band zero to twice centre frequency) without aliasing problems. It can also be configured so that the chirp Fresnel ripples are relegated to the time domain. (This avoids a large frequency domain ripple which in a low-loss device would create the inadmissible requirement that gain at the peak of the ripple be greater than unity.) The design procedure is equally suitable for single and dual delay line implementations. Measurements to be presented will be on superconducting single-track coplanar and microstrip filters, patterned from epitaxial YBCO films sputtered onto 2-inch diameter LaAlO/sub 3/ substrates. They have a centre frequency of 8 GHz, bandwidth of 10 GHz (125%), and a TB product of 80.
  • Keywords
    chirp modulation; delay circuits; high-temperature superconductors; microstrip filters; superconducting microwave devices; 10 GHz; 8 GHz; Fresnel ripple; LaAlO/sub 3/; LaAlO/sub 3/ substrate; TB product; YBaCuO; coplanar filter; delay line; frequency domain ripple; harmonic response; linear chirp filter; microstrip filter; quadratic phase filter; sputtered epitaxial YBCO film; superconducting filter; synthesis; ultra-wide bandwidth; Bandwidth; Chirp; Delay lines; Frequency domain analysis; Frequency synthesizers; Nonlinear filters; Power harmonic filters; Superconducting epitaxial layers; Superconducting films; Superconducting filters;
  • fLanguage
    English
  • Journal_Title
    Applied Superconductivity, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1051-8223
  • Type

    jour

  • DOI
    10.1109/77.621713
  • Filename
    621713