PP-based 24 GHz wearable antenna

de Cos Gómez, María Elena; Fernández Álvarez, Humberto; Las-Heras Andrés, Fernando

doi:10.1007/s11276-023-03533-z

Cited by 2 publications

(1 citation statement)

References 51 publications

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“…• The presented antenna has an improved DG of ∼ 10 dB, which provides benefits such as better signal quality, increased data throughput, extended coverage, better resistance to interference, support for multiple users, and remarkable adaptability to variable environmental conditions. • In addition to mm-wave 5G applications, the presented antenna can be used for body wearable applications covering 24.05-24.25 GHz band [40]. • The incorporation of an EBG configuration within the MIMO antenna effectively mitigates surface wave interference, resulting in a substantial improvement in the isolation between the resonating elements.…”

Section: Surface Current Distributionmentioning

confidence: 99%

Octa-port High Gain MIMO Antenna Backed with EBG for mm-Wave Applications

Suresh Babu,

Ansari,

Kumar

et al. 2023

PIER B

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This article presents a miniaturized octa-port high gain multiple-input-multiple-output (MIMO) antenna loaded with an electromagnetic band gap (EBG) layer for the use in 5G wireless communication applications. Each resonator of the presented antenna consists of a rectangularlike patch with truncated side edges and a partial ground plane. A layer of EBG unit cells is introduced underneath the antenna elements to increase the gain and restrain the surface wave effects, obtaining improved isolation amongst the resonating elements. The −10 dB impedance bandwidth of the prospective antenna with EBG is 12 GHz (21-33 GHz), and it provides isolation of > 28 dB. The peak gain of the EBG-backed antenna is 17 dB. The presented mm-wave MIMO antenna offers decent diversity proficiency metrics like envelope correlation coefficient (< 0.36), diversity gain (∼ 10 dB), and total active reflection coefficient (−24.75 dB). The overall size of the octa-port MIMO antenna is 27.2 mm × 27.2 mm. The presented MIMO antenna could be used for n257/n258/n261 mm-wave bands.

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Section: Surface Current Distributionmentioning

confidence: 99%

Octa-port High Gain MIMO Antenna Backed with EBG for mm-Wave Applications

Suresh Babu,

Ansari,

Kumar

et al. 2023

PIER B

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The effect of feed mechanisms on the structural design of flexible antennas, and research on their material processing and applications

Nan,

Qin,

et al. 2024

Review of Scientific Instruments

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Flexible antennas are widely used in mobile communications, the Internet of Things, personalized medicine, aerospace, and military technologies due to their superior performance in terms of adaptability, impact resistance, high degree of freedom, miniaturization of structures, and cost-effectiveness. With excellent flexibility and portability, these antennas are now being integrated into paper, textiles, and even the human body to withstand the various mechanical stresses of daily life without compromising their performance. The purpose of this paper is to provide a comprehensive overview of the basic principles and current development of flexible antennas, systematically analyze the key performance factors of flexible antennas, such as structure, process, material, and application environment, and then discuss in detail the design structure, material selection, preparation process, and corresponding experimental validation of flexible antennas. Flexible antenna design in mobile communication, wearable devices, biomedical technology, and other fields in recent years has been emphasized. Finally, the development status of flexible antenna technology is summarized, and its future development trend and research direction are proposed.

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PP-based 24 GHz wearable antenna

Cited by 2 publications

References 51 publications

Octa-port High Gain MIMO Antenna Backed with EBG for mm-Wave Applications

Octa-port High Gain MIMO Antenna Backed with EBG for mm-Wave Applications

The effect of feed mechanisms on the structural design of flexible antennas, and research on their material processing and applications

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