Analysis of coupled cylindrical microstrip lines with a substrate–superstrate configuration

This letter presents an analysis of microstrip lines that are printed on substrates composed of numerous dielectric layers using a fast technique that comprises the full-wave equivalent circuit and the discrete mode matching method. The validation of the proposed formulation has been done with a com

and experimentally studied. The results indicate that with a small spacing of 1 mm between the two PIFAs, good isolation of better than Ϫ20 dB for frequencies over the 2.4-and 5-GHz bands can be achieved. Good radiation characteristics for the proposed two integrated PIFAs have also been obtained. T

## Abstract The finite‐element method has been used for analyzing open microstrip line structures on highly lossy substrates. The geometry descritization has been carried out by using quadrilateral elements, and the spurious solutions are avoided by employing tangential vector formulation. The diff

A semiempirical model is proposed for propagation parameters of high-T C ( ) superconducting HTS coupled microstrip lines taking into account anisotropic dielectric permittivity of sapphire substrate and its temperature dependence. The nonhomogeneous current distribution in a cross-section of the li