Analysis of cylindrical conductor-backed coplanar waveguides

## Abstract Simple and accurate formulas are presented for the synthesis of conductor‐backed coplanar waveguide (CPW). These formulas are derived by applying function approximation and curve‐fitting technique to the respective quasi‐static analysis results. The results obtained from these formulas

## Abstract Neural models based on the artificial neural networks (ANNs) for computing the effective permittivities and characteristic impedances of V‐shaped conductor‐backed coplanar waveguides are presented. The proposed neural models can also be used for calculating the characteristic parameters

## Abstract A method based on adaptive‐network‐based fuzzy inference system (ANFIS) is presented for the quasi‐static analysis of conductor‐backed coplanar waveguides. The ANFIS is a class of adaptive networks which are functionally equivalent to fuzzy inference systems. Four optimization algorithm

## Abstract New and accurate synthesis formulas for the asymmetric conductor‐backed coplanar waveguide (ACBCPW) are presented. They are obtained by using a differential evolution and particle swarm optimization algorithms. The synthesis formulas are useful to microwave engineers for accurately calc

This paper evaluates the substrate characteristics allowing the control of ( ) parallel-plate modes PPMs in microstrip antennas fed by conductor-backed coplanar waveguides. The ratio between the radiated power and the power lost in PPMs is correlated with return loss measurements. General rules base

Figure 4 The structure of the Y junction the fundamental mode for the slab of width d , that is, 1 zeroth-order mode. The longitudinal dimensions are h s 1 1 m, h s 8 m, and h s 1 m. The core refractive in-2 3 dex of the slab is n s 5.0; the subtract refractive index is 1 n s 1.5. We choose referenc