Analysis of Shielded Microstrip Lines with Arbitrary Metallization Cross Section Using a Vector Finite Element Method Article

Alam, MS, Koshiba, M. (1994). Analysis of Shielded Microstrip Lines with Arbitrary Metallization Cross Section Using a Vector Finite Element Method . IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 42(11), 2112-2117. 10.1109/22.330127

cited authors

  • Alam, MS; Koshiba, M

authors

abstract

  • The finite element method (FEM) with the high-order mixed-interpolation-type triangular element is used to solve the problem of practical microstrip lines with arbitrary metallization cross section. Analyses are carried out to produce the frequency characteristics of propagation constant, characteristic impedance, and attenuation constant of shielded microstrip lines with rectangular, trapezoidal, and semi-trapezoidal strip cross sections. A comparison of the numerical results with those of the existing results shows good agreement and thus verifies the versatility of the FEM. Also, the numerical results show the effects of the metallization cross sections on the transmission properties and thus emphasize the importance of considering the practical microstrip configurations in the design of miniaturized MMIC's. © 1994 IEEE

publication date

  • January 1, 1994

published in

Digital Object Identifier (DOI)

start page

  • 2112

end page

  • 2117

volume

  • 42

issue

  • 11