Accurate CAD formulas with physical insight on microstrip-line couplers by synthetic asymptote

## Abstract A simple CAD formula is obtained in this paper for microstrip line on lossy substrate of two layers (silicon‐oxide and silicon) by synthetic asymptote. The formulas are simple, accurate (error <2%) and therefore give good physical insights. © 2006 Wiley Periodicals, Inc. Microwave Opt T

## Abstract Accurate CAD formulas of a microstrip line on a ground plane with periodic perforations, closely spaced and at quasistatic frequencies, are derived (error <5%) for applications in multilayer circuits such as an LTCC package. By a novel technique of a synthetic asymptote, the formula has

## Abstract This article derives simple computer‐aided design (CAD) formulas of the components of Silicon, based radio frequency integrated circuits (Si‐RFIC) by synthetic asymptote. The formulas include, those for microstripline, patch capacitor, and spiral inductor. With “bootstrapping”, one can

## Abstract This paper gives simple CAD formulas of the characteristic impedance and propagation constant for a microstrip on a grounded substrate of two layers by synthetic asymptote. Similar to the one‐layer case, based on the derived formula, the equivalent circuit is a fringe capacitor in paral

## Abstract This paper gives simple CAD formulas of the capacitance to ground of square‐spiral inductors on one‐ or two‐layer substrate by synthetic asymptote. From the derived formula, the equivalent capacitor is a fringe capacitor in parallel with an ideal parallel‐plate capacitor. The average er