Propagation characteristics of cylindrical microstrip lines in a multilayered medium

Chung I.G. Hsu, Ching Her Lee, Jean Fu Kiang

Research output: Contribution to journalArticle

Abstract

In this research, rigorous full-wave analysis is applied to formulate an electric field integral equation for a cylindrical microstrip line in an arbitrary multilayered medium. This equation is subsequently solved numerically using the method of moments. A spectral dyadic Green's function needed in the electric field integral equation formulation is derived. Entire domain basis functions that incorporate the edge conditions are employed to approximate the longitudinal and the transverse surface currents on the strip in the numerical computations. Computed frequency-dependent results for sample transmission-line configurations are reported and, wherever possible, are compared with data available in the literature.

Original languageEnglish
Pages (from-to)654-659
Number of pages6
JournalProceedings of the National Science Council, Republic of China, Part A: Physical Science and Engineering
Volume22
Issue number5
Publication statusPublished - 1998 Sep 1

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Microstrip lines
Integral equations
Electric fields
Method of moments
Green's function
Electric lines

All Science Journal Classification (ASJC) codes

  • Engineering(all)

Cite this

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abstract = "In this research, rigorous full-wave analysis is applied to formulate an electric field integral equation for a cylindrical microstrip line in an arbitrary multilayered medium. This equation is subsequently solved numerically using the method of moments. A spectral dyadic Green's function needed in the electric field integral equation formulation is derived. Entire domain basis functions that incorporate the edge conditions are employed to approximate the longitudinal and the transverse surface currents on the strip in the numerical computations. Computed frequency-dependent results for sample transmission-line configurations are reported and, wherever possible, are compared with data available in the literature.",
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AB - In this research, rigorous full-wave analysis is applied to formulate an electric field integral equation for a cylindrical microstrip line in an arbitrary multilayered medium. This equation is subsequently solved numerically using the method of moments. A spectral dyadic Green's function needed in the electric field integral equation formulation is derived. Entire domain basis functions that incorporate the edge conditions are employed to approximate the longitudinal and the transverse surface currents on the strip in the numerical computations. Computed frequency-dependent results for sample transmission-line configurations are reported and, wherever possible, are compared with data available in the literature.

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