Litcius/Paper detail

Low-Profile All-Textile Multiband Microstrip Circular Patch Antenna for WBAN Applications

Haiyan Li, Jinxin Du, Xue‐Xia Yang, Steven Gao

2022IEEE Antennas and Wireless Propagation Letters106 citationsDOI

Abstract

A compact low-profile all-textile multiband antenna operating in the 2.45&#x002F;5.8 GHz ISM bands, mobile WiMAX IEEE 802.16 2005 (3.3&#x2013;3.4 GHz), and 5G sub-6 NR frequency band n77 (3.85&#x2013;4.0 GHz) is proposed for wireless body-area network (WBAN) applications. Good broadside radiations are achieved by properly activating the inherent TM<sub>11</sub>, TM<sub>21,</sub> and TM<sub>31</sub> modes of a circular patch antenna. An elliptical slot and a C-shaped slot are employed to tune the three modes to the desired operating frequencies. A rectangular slot is used to reduce undesirable depression in the 5.8 GHz radiation pattern. The proposed antenna is fabricated from a conductive fabric layer integrated onto a single layer of denim, making it extremely low-profile and suitable for wearable applications. It has an overall size of 60 &#x00D7; 60 &#x00D7; 1.17 mm (0.64 <i>&#x03BB;<sub>g</sub></i> &#x00D7; 0.64 <i>&#x03BB;<sub>g</sub></i> &#x00D7; 0.0125 <i>&#x03BB;<sub>g</sub></i> at 2.45 GHz). The measured maximum realized gains and bandwidth at the four frequencies are &#x2212;0.81, &#x2212;2.81, &#x2212;1.16, 2.83 dBi, and 90, 190, 230, 570 MHz, respectively. Test results show that when the antenna is placed on and bent around a human arm model, the reflection coefficient has only slight influence. Since the antenna adopts full ground plane structure, the SAR values are far below the EU standard of 2 W&#x002F;kg limit. With merit characteristics, the proposed design indicates a promising candidate for WBAN applications.

Topics & Concepts

Ground planePatch antennaMicrostrip antennaBody area networkSlot antennaPhysicsAntenna (radio)Bandwidth (computing)MicrostripAcousticsElectrical engineeringOpticsMaterials scienceComputer scienceWirelessTelecommunicationsEngineeringAntenna Design and AnalysisWireless Body Area NetworksEnergy Harvesting in Wireless Networks