Analysis and design of L-probe proximity fed-patch antennas

## Abstract This contribution shows that the FDTD technique is an effective design tool for producing dual‐polarized circular stacked patch antennas. Computational requirements may be minimized by careful modeling of the coaxial feedline, including the use of mode filtering at the aperture plane of

## Abstract A conducting‐polymer patch antenna is fabricated using a screen‐printing technique. Polyaniline (Pani) film of conductivity 6000 S/m, permittivity 6000, and thickness 100 μm is used as a radiating patch to realize a microstrip‐fed proximity‐coupled Pani‐patch antenna operating at around

## Abstract Simple folded‐patch antennas fed by an L‐shape probe are designed and studied experimentally. This simple antenna structure with thick air substrate attains a projection‐length reduction of about 30% with reference to the conventional half‐wave patch antenna. This antenna attains an imp

## Abstract This contribution shows that the FDTD technique is an effective design tool for producing dual‐polarized circular stacked patch antennas. Computational requirements may be minimized by careful modeling of the coaxial feedline, including the use of mode filtering at the aperture plane of

## Abstract Measured results of a dual‐band shorted patch antenna excited by a combined L‐ and T‐probe feed structure are presented. By using foam layers of thickness ∼0.12λ~1~ and ∼0.06λ~2~ to support the patches that are responsible for the lower and upper bands, impedance bandwidths (SWR ≤ 2) of

## Abstract The feed model is very important for microstrip antenna analysis using FDTD. In this paper, the feed model with coaxial probe is accurately and efficiently analysed in terms of the contour path technique, driving out the magnetic field modified equations and accomplishing the FDTD proce