A Compact Semi-Circular and Arc-Shaped Slot Antenna for Heterogeneous RF Front-Ends

Zebiri, Chemseddine; Sayad, Djamel; Elfergani, Issa; Iqbal, Amjad; Mshwat, Widad; Kosha, Jamal; Rodrı́guez, Jonathan; Abd‐Alhameed, Raed A.

doi:10.3390/electronics8101123

Cited by 20 publications

(14 citation statements)

References 44 publications

(64 reference statements)

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“…The peak SAR values exceed the standard limits; however, the devices operating near the body use little power. The standard maximum allowable power (EIR) for such devices is set in the mW range [48][49][50]. To restrict the SAR value under the limit for our proposed antenna, the maximum input powers to the antenna are 100 mW, 239.2 mW, and 278.9 mW for the chest, arm, and leg, respectively, which are much greater than the standard radiated limit (in mW range).…”

Section: Antenna On-body Investigationmentioning

confidence: 98%

Low-Profile and Closely Spaced Four-Element MIMO Antenna for Wireless Body Area Networks

et al. 2020

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A compact four-element multiple-input multiple output (MIMO) antenna is proposed for medical applications operating at a 2.4 GHz ISM band. The proposed MIMO design occupies an overall volume of 26 mm × 26 mm × 0.8 mm. This antenna exhibits a good impedance matching at the operating frequency of the ISM band, whose performance attributes include: isolation around 25 dB, envelope correlation coefficient (ECC) less than 0.02, average channel capacity loss (CCL) less than 0.3 bits/s/Hz and diversity gain (DG) of around 10 dB. The average peak realized gain of the four-element MIMO antenna is 2.4 dBi with more than 77 % radiation efficiency at the frequency of interest (ISM 2.4 GHz). The compact volume and adequate bandwidth, as well as the good achieved gain, make this antenna a strong candidate for bio-medical wearable applications.

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Section: Antenna On-body Investigationmentioning

confidence: 98%

Low-Profile and Closely Spaced Four-Element MIMO Antenna for Wireless Body Area Networks

et al. 2020

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“…A gap of 6 mm was kept between the human body and antenna for simulating an SAR. An SAR value of 6.02 W/kg, 5.99 W/kg and 5.95 W/kg, averaged over a 1-g tissue was observed for chest, legs, and arm respectively, for the input power of 1 W. However, there are certain limitation on the input power of the devices operating nearby human body [39], [40]. The proposed antenna is safe for use in wearable devices if the input power is less than 265 mW.…”

Section: B Human Body Loadingmentioning

confidence: 99%

Wideband Wearable Antenna for Biomedical Telemetry Applications

et al. 2020

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This paper presents a wideband, low-profile and semi-flexible antenna for wearable biomedical telemetry applications. The antenna is designed on a semi-flexible material of RT/duroid 5880 (r = 2.2, tanδ = 0.0004) with an overall dimensions of 17 mm × 25 mm × 0.787 mm (0.2λ • × 0.29λ • × 0.009λ •). A conventional rectangular patch is modified by adding rectangular slots to lower the resonant frequency, and the partial ground plane is modified to enhance the operational bandwidth. The final antenna model operates at 2.4 GHz with a 10-dB bandwidth (fractional bandwidth) of 1380 MHz (59.7 % at the centre frequency of 2.4 GHz). The proposed antenna maintains high gain (2.50 dBi at 2.4 GHz) and efficiency (93 % at 2.4 GHz). It is proved from the simulations and experimental results that the antenna has negligible effects in terms of reflection coefficient, bandwidth, gain, and efficiency when it is bent. Moreover, the antenna is simulated and experimentally tested in proximity of the human body, which shows good performance. The proposed wideband antenna is a promising candidate for compact wearable biomedical devices. INDEX TERMS On-body antenna, wideband antenna, wearable antenna, SAR, flexible antenna, biomedical antenna.

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“…Seven articles in this special issue propose novel and efficient antenna designs that employ both single and MIMO synthesis for use in heterogeneous networks [6][7][8][9][10][11][12]. Some of these designs operate on fixed single/multiband and radiations, as in [6][7][8][9][10], while some have the feature of reconfigurability that allows them to operate in a tuned manner in which the resonant frequencies and patterns can be shifted/reconfigured even after the designs have been made [11,12]. The other two articles present recent work on a highly efficient power amplifier which will provide hardware solutions to the growing RF front-end integration challenges with additional design requirements towards energy efficiency for Pas [13,14].…”

Section: The Present Issuementioning

confidence: 99%

Recent Technical Developments in Energy-Efficient 5G Mobile Cells: Present and Future

2020

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A Compact Semi-Circular and Arc-Shaped Slot Antenna for Heterogeneous RF Front-Ends

Cited by 20 publications

References 44 publications

Low-Profile and Closely Spaced Four-Element MIMO Antenna for Wireless Body Area Networks

Low-Profile and Closely Spaced Four-Element MIMO Antenna for Wireless Body Area Networks

Wideband Wearable Antenna for Biomedical Telemetry Applications

Recent Technical Developments in Energy-Efficient 5G Mobile Cells: Present and Future

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