Bandwidth enhancement of microstrip antennas by staggering effect

## Abstract This paper presents measured results for the improved bandwidth of a microstrip antenna using coupling techniques in conjunction with matching circuits. The proposed technique is applied to probe‐fed and aperture‐coupled microstrip antennas. The measured bandwidth for a probe‐fed and an

## Abstract This article presents a novel ultra‐wideband (UWB) microstrip‐fed planar monopole antenna composed of a rectangular patch and a ground‐plane π‐shape slot structure. Impedance bandwidth of the proposed antenna is ∼147% over an UWB frequency range between 3 and 19.7 GHz satisfying FCC's r

By integrating a microstrip structure of cascaded microstrip-line sections into a bow-tie microstrip path, compact broadband operation of microstrip antennas can be obtained. The cascaded microstrip-line sections ser¨e as a reacti¨e load for the bow-tie patch, and its optimal dimensions for broadban

## Abstract A new stacked microstrip antenna structure that enhances the bandwidth without changing the resonance frequency is proposed and studied in this paper. The effect of the various antenna parameters on the bandwidth is investigated. The resulting antenna, using the proposed structure, has

## Abstract This letter presents a slot‐coupled microstrip patch antenna with harmonics suppression capability within an enhanced bandwidth. Measured return loss result at the operating frequency, second harmonic frequency, and third harmonic frequency were 22.2 dB, 1.77 dB, and 1.93 dB, respective