Compact High Gain Resonant Cavity Antenna With via Hole Feed Patch and Hybrid Parasitic Ring Superstrate

Dang, Duy-Ninh; Seo, Chulhun

doi:10.1109/access.2019.2950726

Cited by 5 publications

(7 citation statements)

References 30 publications

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“…The antenna gain of 10.8 dB is attained. Again, in [8], An FR4 di-electric superstrate is placed on top of a compact micro-strip antenna resulting in a gain of 15.8 dB at 5.8 GHz.…”

Section: Introductionmentioning

confidence: 99%

A Novel Compact Rectangular Microstrip Patch Antenna with a Superstrate Element for 2.4GHz WLAN Applications

Sener¹

2020

acperpro

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This paper presents a new compact rectangular microstrip patch antenna with a superstrate element. This antenna operates at 2.4 GHz TM01 fundamental mode, which is suitable for WLAN applications. The patch area is reduced by 50% by placing three rectangular slots on the ground plane. In order to compensate for the decreased gain due to the size reduction, a high permittivity superstrate is used with 4mm thickness and 5mm height from the antenna surface. The proposed antenna offers the advantage of occupying half the area of the non-modified rectangular patch while it possesses the same broadside gain of 6-7dB. The trade-off is the additional antenna height due to the placement of the superstrate element.

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“…The antenna gain of 10.8 dB is attained. Again, in [8], An FR4 di-electric superstrate is placed on top of a compact micro-strip antenna resulting in a gain of 15.8 dB at 5.8 GHz.…”

Section: Introductionmentioning

confidence: 99%

A Novel Compact Rectangular Microstrip Patch Antenna with a Superstrate Element for 2.4GHz WLAN Applications

Sener¹

2020

acperpro

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“…The multi-function of proposed superstrate leads to the need of a non-periodic microstrip structure. For the RCA, the hybrid-parasitic superstrate has been introduced with high gain and compact size [28]. This structure is also much simpler than others such as frequency selective surface or metamaterial that is valid to reduce cost and design time.…”

Section: A Model Of Lens Antenna With Compact Superstratementioning

confidence: 99%

“…The parasitic elements are etched on both sides of the superstrate with one rectangular ring on the bottom and 7 hybrid elements on top. The categorization of elements (E0, E1, E2, and E3) and the arrangement of the hybrid structure are inherited the RCA as in [28], but the configuration is different. Both source and superstrate use the same substrate of Taconic TLY with the dielectric constant of 2.2 and the thickness of 1.2 mm (0.02λ 0 ).…”

Section: Proposed Parasitic Lens Antennamentioning

confidence: 99%

“…Resonant cavity and lens structures are two common types of high gain spatially distributed antenna which all use the superstrate to enhance the directivity of an excited source. In the case of resonant cavity antenna (RCA), the superstrate is configured as a partially reflecting surface [23]- [28] while the ground of the feed source is a perfectly reflecting surface. The gain enhancement is proportional to the reflection between two reflecting surfaces.…”

Section: Introductionmentioning

confidence: 99%

“…Consequently, the dimension of the sourced antenna must be as large as the superstrate, which prevents it from many applications. Compact and high gain structures have been proposed but not enough for miniatured applications [28]. On another hand, the lens antenna installs the superstrate as a high focusing lens in front of a small antenna element as a focal point [29]- [31].…”

Section: Introductionmentioning

confidence: 99%

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High Gain Antenna Miniaturization With Parasitic Lens

Dang

Seo

2020

IEEE Access

Self Cite

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The scenario of using a spatially distributed antenna for miniaturized applications is presented in this work. A model of lens antenna with a low profile, compact, and high focusing superstrate, which exquisitely combines the conventional lens and resonant cavity superstrates, is proposed. Based on this model, the parasitic lens superstrate is introduced with high performance and simple configuration. The parasitic lens includes a low dielectric substrate and high resonant parasitic elements. By manipulating the surface currents of parasitic elements concentrating at center region of superstrate, the focusing effect is obtained. A prototype of the parasitic lens antenna was implemented with the source and parasitic superstrate's lateral dimensions of 0.5λ 0 × 0.5λ 0 and λ 0 × λ 0 , respectively, and the profile of 0.54λ 0. The peak gain is 10 dBi, corresponding to the enhancement of 5 dB. The measured results perspicuously demonstrate the efficiency of the compact parasitic lens. INDEX TERMS Antenna miniaturization, compact, gain enhancement, high focusing, parasitic lens.

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Optimization techniques for analog and RF circuit designs: an overview

Kouhalvandi

Ceylan²,

Özoğuz

2020

Analog Integr Circ Sig Process

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Optimizations have gained much consideration from the researchers working in the domains of analog and radio frequency (RF), recently. Dealing with highly nonlinear behavior of active components and aiming to meet design specifications are common issues in all nonlinear circuit designs. As a consequence and accordingly, many studies have been conducted on diverse optimization methods and algorithms for tackling the design problems and meeting optimal solutions with high accuracy. The main purpose of this article is to provide a comprehensive and systematic literature review for the optimization approaches applied by the researchers for designing various analog and microwave circuits. We focus on considering the existing optimization methods from the newly published optimization methods in the last decade. Thus, this study can guide and enlighten complementary metal-oxide-semiconductor analog and RF microwave circuit designers to consider optimization methods commonly used in both areas and to expand conventional performance figures used in their area.

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Compact High Gain Resonant Cavity Antenna With via Hole Feed Patch and Hybrid Parasitic Ring Superstrate

Cited by 5 publications

References 30 publications

A Novel Compact Rectangular Microstrip Patch Antenna with a Superstrate Element for 2.4GHz WLAN Applications

A Novel Compact Rectangular Microstrip Patch Antenna with a Superstrate Element for 2.4GHz WLAN Applications

High Gain Antenna Miniaturization With Parasitic Lens

Optimization techniques for analog and RF circuit designs: an overview

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