Low specific absorption rate hexa‐band coplanar waveguide‐fed planar inverted‐F antenna with independent resonant frequency control for wireless communication applications

Elsheakh, Dalia M.; Soliman, Ahmed M.; Abdallah, Esmat A.

doi:10.1049/iet-map.2013.0100

Cited by 17 publications

(4 citation statements)

References 17 publications

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“…The gap distance between the antenna ground plane and the human tissue model is referred to as d. The tissues' dielectric properties of each layer of the human tissue model are listed in Table 5 [46]- [47]. The absence of a backing reflector between the antenna and the human body, can severely affect the antenna's performance [48]. Fig.…”

Section: B Specific Absorption Rate Analysismentioning

confidence: 99%

A Wearable Circularly Polarized Antenna Backed by AMC Reflector for WBAN Communications

et al. 2022

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Section: B Specific Absorption Rate Analysismentioning

confidence: 99%

A Wearable Circularly Polarized Antenna Backed by AMC Reflector for WBAN Communications

et al. 2022

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“…Accordingly, the mutual coupling between the radiating elements and the ground plane is increased, which leads to a higher quality factor and brings more complex challenges to obtain wideband antennas. In this case, PIFA [1][2][3][4] is considered as a promising candidate, since its radiative performances are quite independent of the size of the clearance area on the ground plane. However, PIFA usually covers a narrow bandwidth and occupies a large volume, especially for the lower band.…”

Section: Introductionmentioning

confidence: 99%

Dual-Feed Small-Size Penta-Band PIFA for LTE/WWAN Mobile Handset Applications

Bin

2014

International Journal of Antennas and Propagation

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A dual-feed small-size penta-band PIFA for LTE/WWAN mobile handset applications is presented. The proposed PIFA is composed of a simple U-shaped patch with dual-shorting pins connected to the ground plane. The patch, having a low profile of 5 mm, has dimensions of about 10 × 35 mm2. The antenna is excited at one arm of the U-shaped radiating patch to cover the higher band of GSM1800/1900/UMTS2100/LTE2300/2500, while it is excited at the other arm to realize the GSM900. In this way, the proposed PIFA achieves enhanced bandwidth coverage with no increased dimensions and additional active switches. In addition, the matching networks, employed on both feeds, ensure a high electrical insulation between the low and the high frequency bands, covered by the antenna. The measured antenna efficiency is 45%~50% and over 60% for the lower band and the higher band, respectively. A prototype of the proposed PIFA with dual-feed and dual-shorting pins was fabricated. The measured results including reflection coefficients and radiation characteristics are presented.

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“…The EM absorption limit specified in IEEE C95.1:2005 is 1.6 W/kg in a 1 g averaging mass and 2 W/kg in a 10 g averaging mass of tissue, which is similar to the limit stated in the International Commission on Non-Ionising Radiation Protection guideline. In recent years, several techniques have been studied to reduce electromagnetic radiation; specifically, auxiliary antenna elements [1], material loading, EBG [2,3] and metamaterials [4]. A coplanar waveguide-fed planar inverted-F antenna has been studied [1] for low specific absorption rate.…”

mentioning

confidence: 99%

“…In recent years, several techniques have been studied to reduce electromagnetic radiation; specifically, auxiliary antenna elements [1], material loading, EBG [2,3] and metamaterials [4]. A coplanar waveguide-fed planar inverted-F antenna has been studied [1] for low specific absorption rate. In [2], a printed monopole with an embedding EBG structure has been proposed and reduced SAR values of 61.56% at 1.8 GHz and 50.39% at 2.1 GHz.…”

mentioning

confidence: 99%

Specific absorption rate reduction of multi‐standard mobile antenna with double‐negative metamaterial

Alam

Faruque

Islam³

2015

Electron. lett.

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This paper presents a printed multi-standard mobile wireless antenna loaded with double-negative metamaterial that covers the operating frequency of 1.66 GHz to3.95 GHz and 4.45 GHz to 5.73 GHz. The antenna is assimilated with a semicircular shape radiating patch, metamaterial loaded ground plane and microstrip feed line. The perceptible novelties exhibited in this proposed antenna is reduction of specific absorption rate (SAR) with metamaterial loaded ground plane.The development of the communication system is the result of tremendous efforts of researchers. Now researchers have given their concentration to develop biological friendly, compact, multifunction and low cost wireless devices together with satisfying the strict market demand. In this regard, extensive research efforts are exerted in minimizing antenna size and cost in conjunction with increasing bandwidth to cover multiband. Beside this, biological effect of electromagnetic absorption (SAR) in the human body has drawn great concentration to researchers, which makes more complexity in antenna design. Through the last years, several techniques to reduce electromagnetic radiation by wireless devices were studied-specifically, auxiliary antenna elements, material loading, EBG[1], AMCs and metamaterials [2]. In this paper, a novel metamaterial loaded compact mobile wireless antenna is introduced. The metamaterial structures are introduced to reduce the maximum electromagnetic absorption of the proposed antenna. b b g g a a (a) (b) (c) Fig. 1. (a) Unit cell (b) Real parts of effective permittivity and permeability (c). Refractive index

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Low specific absorption rate hexa‐band coplanar waveguide‐fed planar inverted‐F antenna with independent resonant frequency control for wireless communication applications

Cited by 17 publications

References 17 publications

A Wearable Circularly Polarized Antenna Backed by AMC Reflector for WBAN Communications

A Wearable Circularly Polarized Antenna Backed by AMC Reflector for WBAN Communications

Dual-Feed Small-Size Penta-Band PIFA for LTE/WWAN Mobile Handset Applications

Specific absorption rate reduction of multi‐standard mobile antenna with double‐negative metamaterial

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