A stacked suspended plate antenna

## Abstract A single‐layer dual‐fed suspended plate antenna (SPA) with a notched radiator and broad lateral width is presented for high gain and broad coverage applications. Both the impedance and gain bandwidths of the proposed antenna are increased by extending the radiation aperture, while the o

## Abstract This paper presents a new feeding structure for increasing the impedance bandwidth of a suspended plate antenna. A vertical probe‐fed conducting sheet is used to feed the radiating plate instead of a thin probe. The measurements of the impedance and radiation characteristics of the prop

## Abstract This paper presents the probe‐fed center‐slotted suspended plate antennas (CS‐SPAs) with capacitive and resistive loading. The impedance and radiation characteristics of the proposed antennas, such as impedance bandwidth, gain, radiation patterns, and cross‐pol radiation levels are inve

## Abstract A stacked rectangular dielectric resonator antenna (DRA) is studied experimentally. The achieved impedance bandwidth of two DR stacked antenna is about 73%. By stacking two different permittivity DRs, the multi‐band of single element DRA is changed to single wideband giving out improvem

laser (EXFO FLS2600). The transmitted optical power is measured with a powermeter (HP 81532A), working in the 800 -1700-nm range. Both the optical source and detector are connected to a computer by GPIB links. By varying the wavelength of the tunable source laser and measuring the transmitted power,

A stacked dielectric resonator antenna DRA , composed of an annular ring excited by a coaxial probe and two cylindrical ( ) dielectric resonators CDRs , is studied experimentally for three-frequency band operation. A maximum frequency ratio of 1.75 is achie¨ed between higher and lower frequencies, a