Linear Pattern Correction in a Small Microstrip Antenna Array

Figure 10 Frequency drift as a function of the dc voltage applied to the active antenna oscillator. Voltage is varied from nominal V s 6 cc V to V s 4.5 V cc network, a standard MPIE technique using the multilayered media Green's functions is implemented. Once the scattering matrices of both compon

## Abstract A wide band, low profile linear microstrip antenna array with cosecant square‐shaped beam pattern is presented. Array synthesis has been done using Orchard Elliott's and genetic algorithm methods. An air‐dielectric U‐slot rectangular patch element has been chosen as an array element for

## Abstract This article presents a novel pattern reconfigurable microstrip antenna that operates in 3 GHz. The antenna pattern can be transformed in between two situations. The two patterns can cover the area from −70° to +70°. Specifically, this radiation pattern reconfigurable microstrip antenna

Calculated and measured radiation patterns for a four-element linear array of in-line fed microstrip patches are presented. The cross section of the antenna is rigorously modeled by the moment method. The analysis includes both the supporting aluminum profile and the plastic radome.

## Abstract This paper presents least squares (LS) and total least squares (TLS) method solutions to compensate mutual coupling effects in a small linear antenna array operating over a narrow frequency band. The validity of the two methods is verified by experimental results performed on a six‐elem