2022
DOI: 10.32604/csse.2022.022313
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Novel Design of UWB Jeans Based Textile Antenna for Body-Centric Communications

Abstract: This research presents an ultra-wideband (UWB) textile antenna design for body-centric applications. The antenna is printed on a 1 mm thick denim substrate with a 1.7 relative permittivity. The jeans substrate is sandwiched between a partial ground plane and a radiating patch with a Q-shaped slot. The slotted radiating patch is placed above the substrate and measures 27.8 mm × 23.8 mm. In free space, the antenna covers the ultra-wideband spectrum designated by the Federal Communication Commission (FCC). Variou… Show more

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Cited by 6 publications
(1 citation statement)
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“…The mode purity parameter is crucial for OAM-based antennae to maintain it's orthogonality. In general, lower relative permittivity results in improved impedance bandwidth due to lower surface waves losses [30]. Next, thickness has major influence for the matching of the radiating elements with feedline [31].…”
Section: Specific Absorption Rate (Sar)mentioning
confidence: 99%
“…The mode purity parameter is crucial for OAM-based antennae to maintain it's orthogonality. In general, lower relative permittivity results in improved impedance bandwidth due to lower surface waves losses [30]. Next, thickness has major influence for the matching of the radiating elements with feedline [31].…”
Section: Specific Absorption Rate (Sar)mentioning
confidence: 99%