Planar Pyramid Shaped UHF RFID Tag Antenna With Polarisation Diversity for IoT Applications Using Characteristics Mode Analysis

Turke Althobaiti; Abubakar Sharif; Jun Ouyang; Naeem Ramzan; Qammer H. Abbasi

doi:10.1109/ACCESS.2020.2999256

IEEE Access (Jan 2020)

Planar Pyramid Shaped UHF RFID Tag Antenna With Polarisation Diversity for IoT Applications Using Characteristics Mode Analysis

Turke Althobaiti,
Abubakar Sharif,
Jun Ouyang,
Naeem Ramzan,
Qammer H. Abbasi

Affiliations

Turke Althobaiti: ORCiD; Faculty of Science, Northern Border University, Arar, Saudi Arabia
Abubakar Sharif: ORCiD; School of Electronic Science and Engineering, University of Electronic Science and Technology of China, Chengdu, China
Jun Ouyang: ORCiD; School of Electronic Science and Engineering, University of Electronic Science and Technology of China, Chengdu, China
Naeem Ramzan: ORCiD; School of Computing, Engineering, and Physical Sciences, University of the West of Scotland, Paisley, U.K.
Qammer H. Abbasi: ORCiD; James Watt School of Engineering, University of Glasgow, Glasgow, U.K.

DOI: https://doi.org/10.1109/ACCESS.2020.2999256
Journal volume & issue: Vol. 8
pp. 103684 – 103696

Abstract

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This paper presents a novel dual polarised tag antenna design for ultra-high frequency radio frequency identification (UHF RFID) featuring polarisation or frequency band diversity using characteristic mode analysis. The proposed tag design consists of two meandered line bowtie or dipole-like structure (resembles with planar pyramid), shorting stubs, and a ground plane. The initial design comprises of an upper patch wrapped around FR 4 substrate and shorted from all side to ground plane using shorting stubs. After running the characteristic mode analysis of the initial design, the diagonal slots are created to transform the resonant behavior of corresponding characteristic modes towards lower frequency band. However, the characteristics modes of diagonal slots-based structure still shows inductive behavior in US RFID band (902 - 928 MHz). Therefore, the parallel slots having capacitive performance are etched to realise the resonance behaviour of modes in the required RFID band. The positions and dimensions of parallel slots are optimised further to achieve a better conjugate impedance match with RFID chip. Moreover, the frequency band of one or both meandered line dipole-like structures can be tuned to European UHF RFID band by varying the length of the shorting walls. The RFID chip is directly placed at the current minima to run diversity modes. The overall dimensions of the proposed tag antenna are 50×50×2 mm3 hence making this dual polarised tag antenna low-cost and easy to fabricate due to the absence of vias, shorting pins, and any matching circuit. Additionally, the proposed tag design offers 3-dB bandwidth ranging from 900 MHz to 940 MHz (40 MHz) together with orientation insensitive 3D read range pattern. The proposed tag design achieved a read range of 5.5 m and 8.5 m on low permittivity dielectric material and 200 × 200 mm2 metal plate, respectively.

Published in IEEE Access

ISSN: 2169-3536 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6287639

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