Dielectric loss of multilayer coupled microstrip line using SLR formulation

A unified dielectric loss model based upon the single-layer ( ) reduction SLR formulation is presented for the determination of dielec-tric loss of a multilayer lossy microstrip line with and without the top shield. The model has accuracy within 0.05 dBr cm or 3% against the field-theoretic results

Based upon the incremental inductance rule and the ( ) single-layer reduction SLR formulation, a unified conductor loss model for the multilayer microstrip line is presented. The model has a de¨iation of around 5% against the field-theoretic results from se¨eral sources for the important structures

Using the single-layer reduction SLR formulation, the slow wa¨e on a multilayer microstrip is analyzed. New results on a suspended, shielded, and dielectric-co¨ered slow-wa¨e microstrip line are presented. The accuracy of the model has been tested against the ( ) spectral-domain analysis SDA and the

## Abstract By modifying and adopting the incremental inductance rule, in association with the variational method in the Fourier domain, and using the single layer (SLR) formulation, we present a fast and accurate method to compute the conductor loss of a multilayer‐coupled microstrip line with and