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A Conformal Tri-Band Antenna for Flexible Devices and Body-Centric Wireless Communications

Wahaj Abbas Awan, Anees Abbas, Syeda Iffat Naqvi, Dalia H. Elkamchouchi, Muhammad Aslam, Niamat Hussain

2023Micromachines20 citationsDOIOpen Access PDF

Abstract

A conformal tri-band antenna tailored for flexible devices and body-centric wireless communications operating at the key frequency bands is proposed. The antenna is printed on a thin Rogers RT 5880 substrate, merely 0.254 mm thick, with an overall geometrical dimension of 15 × 20 × 0.254 mm3. This inventive design features a truncated corner monopole accompanied by branched stubs fed by a coplanar waveguide. The stubs, varying in length, serve as quarter-wavelength monopoles, facilitating multi-band functionality at 2.45, 3.5, and 5.8 GHz. Given the antenna’s intended applications in flexible devices and body-centric networks, the conformability of the proposed design is investigated. Furthermore, an in-depth analysis of the Specific Absorption Rate (SAR) is conducted using a four-layered human tissue model. Notably, the SAR values for the proposed geometry at 2.45, 3.5, and 5.8 GHz stand at 1.48, 1.26, and 1.1 W/kg for 1 g of tissue, and 1.52, 1.41, and 0.62 W/kg for 10 g of tissue, respectively. Remarkably, these values comfortably adhere to both FCC and European Union standards, as they remain substantially beneath the threshold values of 1.6 W/kg and 2 W/kg for 1 g and 10 g tissues, respectively. The radiation characteristics and performance of the antenna in flat and different bending configurations validate the suitability of the antenna for flexible devices and body-centric wireless communications.

Topics & Concepts

Specific absorption rateAntenna (radio)WirelessMonopole antennaDimension (graph theory)Substrate (aquarium)Electrical engineeringComputer scienceTelecommunicationsMaterials sciencePhysicsElectronic engineeringEngineeringMathematicsGeologyPure mathematicsOceanographyAntenna Design and AnalysisWireless Body Area NetworksEnergy Harvesting in Wireless Networks