Wideband printed dipole antenna using a novel PBG structure

Yuan, Hong; Gong, Shuxi; Wang, X.; Wang, W.‐T.

doi:10.1002/mop.24466

Cited by 10 publications

(11 citation statements)

References 5 publications

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“…Abedin et al have proposed a dipole antenna on a smaller planar EBG structure to improve more than 3% bandwidth. Wideband printed dipole antenna with PBG, and mushroom‐like EBG have been investigated to get larger bandwidth. A dipole antenna with a nonuniform aperiodic EBG‐structure operating between 430‐620 MHz frequency band, has produced 40% bandwidth .…”

Section: Bandwidth Improvement Using Ebg Structuresmentioning

confidence: 99%

Electromagnetic band-gap structured printed antennas: A feature-oriented survey

Peddakrishna

Khan

Де

2017

Int J RF Microw Comput Aided Eng

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Wireless communication systems are playing an important role in different sectors of human society. Printed antennas are considered as the critical enabling technologies for these systems. The technology related to the design and development of printed antennas have been continuously improved from the structural view of configuration to antenna features improvement. Electromagnetic bandgap (EBG) structures have played a significant role in improving the features of printed antennas. In this paper, authors have restricted a feature–oriented comprehensive survey on EBG‐structured printed antennas. This type of survey is primarily required for the beginner working on EBG structures/EBG‐structured printed antennas. Such a survey process is rarely carried out in the open literature to the best of authors' knowledge. The proposed survey process is confined only to five different feature classifications; bandwidth improvement, gain improvement, dual‐band/multi‐band characteristics, band‐notch characteristics, and compact and low profile, respectively.

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Section: Bandwidth Improvement Using Ebg Structuresmentioning

confidence: 99%

Electromagnetic band-gap structured printed antennas: A feature-oriented survey

Peddakrishna

Khan

Де

2017

Int J RF Microw Comput Aided Eng

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“…The authors proposed a wideband printed dipole antenna in [18], which will be used as the antenna array element in this paper. An 1 × 4 dipole antenna array with a solid ground plane is designed to work at 3.9 GHz.…”

Section: Antenna Radar Cross Section Reductionmentioning

confidence: 99%

Application of Bionics in Frequency Selective Surface Design and Antenna Radar Cross Section Reduction

Jiang¹,

Hong²,

Gong³

2013

PIER C

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Abstract-Bionics principle is applied to frequency selective surface (FSS) design in this paper. To authenticate the method, a novel bionic and miniaturized FSS is proposed by use of a model of alternate phyllotaxis. The simulated and measured results show that the proposed FSS has a much smaller size and maintains other FSSrelated performances. To study the applications of the novel bionic FSS in practice, it is used for the ground plane of an antenna array to reduce the antenna radar cross section (RCS). Compared to a reference antenna, the antenna with bionic FSS has lower RCS and favorable radiation performance. Hence, applying bionics principle to FSS design and antenna RCS reduction is proved feasible, which will serve as a good candidate for the future design of FSS and antennas with or without a requirement of RCS control.

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“…However, a common drawback of the printed dipole antennas is that the bandwidth of those antennas is generally narrow and insufficient for many applications. Many attempts have been made to widen the bandwidth of the printed dipole antennas, including usage of doublesided printed dipoles [9], printed dipoles with PBG structure [10] and integrated with balun [11,12]. By using the V-shaped ground, a miniaturized wideband printed dipole antenna in [13] achieve an enhanced bandwidth of 36%.…”

Section: Introductionmentioning

confidence: 99%

Wideband Omnidirectional Printed Dipole Antenna With Coupling Feed for Wireless Communication Applications

Zhang¹,

Zhang²

2013

PIER C

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Abstract-The wideband and omnidirectional performance of a printed dipole antenna with a novel coupling feed structure is presented. Besides using printed dipole for omnidirectional radiation patterns, the coupling feed structure, which includes the transmission line coupling to a slot line to effectively improve the impedance matching, can be used for bandwidth enhancement. A wideband impedance characteristic of about 45.6% for VSWR ≤ 2 ranging from 1.54 to 2.45 GHz is obtained. The omnidirectional radiation patterns in the whole operation bands are achieved which the un-roundness in H-plane is less than 1.6 dB. It is sufficient for accommodating recent wireless communication services such as DCS1800, PCS1900, UMTS, IMT2000, Wibro, etc. Furthermore, the proposed antenna should be a good candidate as a unit of the omnidirectional array. A prototype has been fabricated and tested, and the experimental results validate the design procedure.

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Wideband printed dipole antenna using a novel PBG structure

Cited by 10 publications

References 5 publications

Electromagnetic band-gap structured printed antennas: A feature-oriented survey

Electromagnetic band-gap structured printed antennas: A feature-oriented survey

Application of Bionics in Frequency Selective Surface Design and Antenna Radar Cross Section Reduction

Wideband Omnidirectional Printed Dipole Antenna With Coupling Feed for Wireless Communication Applications

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