Analysis of microstrip spiral inductor by using iterative method

## Abstract In this paper, a direct 3D finite‐difference time‐domain (FDTD) approach is implemented to investigate the electromagnetic behavior of arbitrary conformal microstrip filters and spiral inductors. To this end, the frequency dependence of the scattering‐matrix parameters of these microstr

A microstrip antenna with fractal multilayer substrates is studied by using an iterative method based on the concept of waves. A two-dimensional fast Fourier transformation algorithm is introduced to simplify calculations and accelerate the convergence with reduced central processing unit time. Good

## Abstract An iterative method based on the wave concept is used to analyse a defect ground structure (DGS). In this case two applications are given. Firstly, we studied a __λ__/4 bias transmission line maintaining high impedance that is added dumbbell‐shaped DGS on ground plane of the conventiona

## Abstract The metal loss of multiturn spiral inductors is known to increase dramatically under current‐crowding effects at high frequencies. An equivalent circuit is derived to simulate this current crowding, including skin and proximity effects. An efficient formula is derived to calculate self‐

## Abstract The accurate time‐domain simulation of the nonlinear dynamics of circuits containing distributed elements is of great interest. Specially at high frequencies, it is essential to consider phenomena, such as crosstalk, packaging effects, and electromagnetic interaction between active and

This article presents an efficient implementation of an iterative method that includes a fast-mode transformation (FMT). The method has the advantages of simplicity and not involving basis functions and inversion of matrices, as used in other calculation methods. Therefore, this approach has the pot