Dispersion characteristics of asymmetric coupled slot lines on dielectric substrates

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Dispersion characteristics of asymmetric coupled slot lines on dielectric substrates

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© The Institution of Electrical Engineers
Published

A modified coplanar waveguiding structure, an asymmetric coupled slot line, on a dielectric substrate is considered. The dispersion characteristics of asymmetric coupled slot lines and asymmetric coplanar waveguides are found in terms of the numerically efficient spectral domain technique.

Inspec keywords: spectral analysis; waveguide theory; waveguides

Other keywords: dispersion characteristics; dielectric substrates; coplanar waveguiding structure; spectral domain technique; asymmetric coupled slot line

Subjects: Waveguide and cavity theory; Waveguides and microwave transmission lines

References

    1. 1)
      • Borburgh, J.: `Theoretische Untersuchung der Dispersion und Feldverteilung von Wellentypen einer Microstreifenleitung mit gyrotropen Substrat', 1976, Thesis, Erlangen.
    2. 2)
      • J.B. Davies , D. Mirshekar-Syahkal . Spectral domain solution of arbitrary coplanar transmission line with multilayer substrate. IEEE Trans. , 143 - 146
    3. 3)
      • Pregla, R., Pintzos, S.G.: `Determination of the propagation constants in coupled microslots by a variational method', Proc. 5th Colloquium on microwave communication, 1974, Budapest, p. MT491–500.
    4. 4)
      • Y. Fujiki , M. Suzuki , T. Kitazawa , Y. Hayashi . Higher order modes in coplanar-type transmission lines. Electron. & Commun. Jpn. , 74 - 80
    5. 5)
      • J.B. Knorr , K.D. Kuchler . Analysis of coupled slots and coplanar strips on dielectric substrate. IEEE Trans. , 541 - 548
    6. 6)
      • T. Hatsuda . Computation of coplanar-type strip-line characteristics by relaxation method and its application to microwave circuits. IEEE Trans. , 795 - 802
    7. 7)
      • C.P. Wen . Coplanar waveguide: a surface strip transmission line suitable for nonreciprocal gyromagnetic device applications. IEEE Trans. , 1091 - 1096
    8. 8)
      • Kitlinski, M., Janiczak, B.: `Dispersion characteristics of single and coupled open slot lines filled with ferrite medium', Proc. 12th European Microwave Conference, 1982, Helsinki, p. 759–764.
    9. 9)
      • Jansen, R.H.: `Fast accurate hybrid mode computation of non-symmetrical coupled microstrip characteristics', Proc. 7th European Microwave Conference, 1977, Copenhagen, p. 135–139.
    10. 10)
      • P.K. Saha . Dispersion in shielded planar transmission lines on two-layer composite substrate. IEEE Trans. , 907 - 911
    11. 11)
      • R. Mittra , T. Itoh . A new technique for the analysis of the dispersion characteristics of microstrip lines. IEEE Trans. , 47 - 56
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