PARAMETRIC PERFORMANCE ANALYSIS OF PATCH ANTENNA USING EBG SUBSTRATE

@article{Uddin2012PARAMETRICPA,
  title={PARAMETRIC PERFORMANCE ANALYSIS OF PATCH ANTENNA USING EBG SUBSTRATE},
  author={Muhammad Shahin Uddin and Monir Morshed and Ruhul Amin},
  journal={International Journal of Wireless \& Mobile Networks},
  year={2012},
  volume={4},
  pages={79-88}
}
In recent years, microstrip antennas becomevery popular because of their interesting advantages of low cost, low profile, light weight, easy fabrication andease of analysis. Electromagnetic Band Gap (EBG) substrate is used as a part of antenna structureto improve the performanceof the patch antenna. Usually, the performance of a patch antenna depends on the parameters such as Return Loss (RL) , Bandwidth (BW), Gain, and Directivity. In this paper, we propose a rectangular microstrip patch… Expand
Performance Degradation of Cavity Backed Patch Antenna Due to Dielectric Coating and Its Improvement
TLDR
The proposed electromagnetic bandgap (EBG) structure in the form of via less metallic patches is placed on the surrounding dielectric coating causing improvement in the radiation pattern of antenna and the input impedance matching of antenna is improved. Expand
Microstrip Antenna using EBG Substrate
The Performance of a microstrip antenna integrated with an electromagnetic band gap substrate is described. Electromagnetic Band Gap (EBG) substrate is used as antenna structure to improve theExpand
Radome-covered substrate-integrated cavity-backed patch antenna surrounded by dielectric material
The substrate-integrated cavity-backed patch antenna embedded in dielectric-coated structure is presented. The aperture of antenna is covered with composite radome. The close proximity of radome toExpand

References

SHOWING 1-10 OF 20 REFERENCES
Influence of Side Effect of EBG Structures on the Far-Field Pattern of Patch Antennas
The electromagnetic band gap structure always used as a part of antenna structure in order to improve the performance of the antenna especially for improves the gain and radiation pattern. In thisExpand
Improving microstrip patch antenna performance using EBG substrates
Microstrip patch antennas mounted over a high impedance electromagnetic bandgap (EBG) substrate are studied. The structure is equivalent to a new microstrip antenna, where the conducting ground planeExpand
Enhanced patch-antenna performance by suppressing surface waves using photonic-bandgap substrates
The microstrip patch antenna is a low-profile robust planar structure. A wide range of radiation patterns can be achieved with this type of antenna and, due to the ease of manufacture, is inexpensiveExpand
Parametric analysis of the EBG structure and its application for low profile wire antennas
Electromagnetic band gap (EBG) structures are widely used for improving the electromagnetic performance. Its surface wave forbidden frequency band and in-phase reflection frequency band are referredExpand
Enhancement of Microstrip Monopole Antenna Bandwidth by Using EBG Structures
A novel compact design for UWB planar monopole antenna is presented in this letter. The basis for achieving the UWB operation is through using semicircular microstrip monopole antenna with circularExpand
Performance analysis of the mushroom-like-EBG structure integrated with a microstrip patch antenna
A performance analysis was carried out on the mushroom-like electromagnetic band gap (EBG) structure which is integrated with a microstrip patch antenna. Various configurations of the EBG structureExpand
Novel structural design for compact and broadband patch antenna
In order to meet the miniaturization of portable communication equipment, researchers have given much attention recently to compact microstrip antennas. Conventional microstrip antennas in generalExpand
Micromachined patch antennas
This paper presents the use of selective lateral etching based on micromachining techniques to enhance the performance of rectangular microstrip patch antennas printed on high-index wafers such asExpand
Enhanced EBG Resonator Antenna as Feed of a Reflector Antenna in the Ka Band
Recent studies have shown that a multibeam reflector antenna could be illuminated by a multifeed electromagnetic bandgap (EBG) structure, in order to achieve a high gain multispot coverage with theExpand
Microstrip antennas integrated with electromagnetic band-gap (EBG) structures: a low mutual coupling design for array applications
Utilization of electromagnetic band-gap (EBG) structures is becoming attractive in the electromagnetic and antenna community. In this paper, a mushroom-like EBG structure is analyzed using theExpand
...
1
2
...