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Multiband and Low-Specific-Absorption-Rate Wearable Antenna With Low Profile Based on Highly Conductive Graphene Assembled Film

Yang Xiao, Haoran Zu, Rongguo Song, Yitong Xin, Yueyue Xi, Guan‐Long Huang, Bian Wu, Daping He

2023IEEE Antennas and Wireless Propagation Letters46 citationsDOI

Abstract

A flexible tri-band antenna with low profile and low specific absorption rate (SAR) based on highly conductive graphene assembled film (GAF) is proposed. The antenna incorporates GAF with polydimethylsiloxane to provide the flexibility for wearable applications. To reduce the effect of backward radiation on human body, a new multiband artificial magnetic conductor (AMC) reflector is proposed, which consists of several circular patches. The measured operating bandwidths of GAF antenna include 2.26–2.46 GHz (WiFi band), 3.52–3.68 GHz (5G n77 band), and 4.94–5.26 GHz (5G WLAN band). Correspondingly, the realized gain varies from 5.7–7.9 dBi. The proposed GAF antenna shows good flexibility and radiation stability when loaded on human body. The simulated SAR peak value is 0.51 W/kg at 2.36 GHz, 0.61 W/kg at 3.6 GHz, and 0.562 W/kg at 5.1 GHz when the tissue is 1 g, which meets the international standard. All results demonstrate that the proposed flexible GAF tri-band antenna is suitable for integrating in wireless wearable communication system.

Topics & Concepts

Specific absorption rateAntenna (radio)Wearable computerOptoelectronicsReflector (photography)Materials scienceOmnidirectional antennaPolydimethylsiloxaneDipole antennaElectrical engineeringComputer scienceOpticsTelecommunicationsPhysicsEngineeringEmbedded systemNanotechnologyLight sourceWireless Body Area NetworksAntenna Design and AnalysisEnergy Harvesting in Wireless Networks
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