A low-cost L-probe patch antenna array

## Abstract Using L‐probe patch antennas as elements, a dual‐polarized antenna array is designed and tested. The antenna is designed for operation at 900 MHz, and is built as a two‐element linear array with a coaxial feed. The feeding network is an air transmission line which is made of aluminum. A

## Abstract A two‐element hexagonal‐shape stacked‐patch antenna array fed by an L‐shaped probe is designed and measured. Experimental results show that the array achieves an impedance bandwidth of 34% (SWR < 1.5)/44% (SWR < 2) and a gain of 11.5 dBi. The far‐field radiation pattern is stable across

A new low-cost dual-polarized microstrip antenna array with a single layer is proposed. Its element is the parallel corner-fed square patch with two ports. The design, analysis, and experimental results of a 12 GHz 16-element array on a 0.8 mm thick substrate are presented. Its measured isolation is

The L-shaped probe is shown to be an excellent feed for the thick circular patch antenna. The substrate used is a foam layer of thickness about 10% of the operating wa¨elength. An impedance bandwidth of 24% and an a¨erage gain of 7.5 dBi are achie¨ed.

## Abstract In this paper, the characteristics of a bent meander‐line probe fed patch antenna are investigated. The air‐filled patches are designed at a height of about 9% of the wavelength and the bent meander‐line probe fed antenna is able to achieve an impedance bandwidth of about 31% for a VSWR

## Abstract The radiation pattern of an L‐probe coupled patch‐antenna array mounted on a finite conducting cylinder is accurately and efficiently computed by the electric‐field integral equation (EFIE) in conjunction with the method of moments (MoM) and Galerkin's testing procedure. The effects of