Design of Dual-Band UHF RFID Tag Antenna Using Even and Odd Modes of Asymmetric Split Ring for Anti-Metal Applications

IF 4.6 1区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Antennas and Propagation Pub Date : 2024-11-15 DOI:10.1109/TAP.2024.3495220

Gene-Jinhan Ng;Eng-Hock Lim;Pei-Song Chee;Muthukannan Murugesh

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引用次数: 0

Abstract

For the first time, an asymmetric split-ring resonator (SRR) is employed for designing a dual-band anti-metal tag antenna that can cover both the lower European (LEu) and North American (NA) UHF radio frequency identification (RFID) frequency ranges. It is intended to be applied on small metallic objects. The two frequency ranges are generated by concurrently exciting the even and odd modes of the asymmetric SRR, which has a shorting post at the middle of the split ring. Each operating frequency can be tuned independently without affecting the other much by adjusting the asymmetricity of the SRR as well as the lengths of the loading open stubs. Design equations have been derived for calculating the two operating frequencies. The proposed tag has a miniature size (

$40\times 30\times 1.653$

mm or

$0.1224\lambda \times 0.0916\lambda \times 0.00504\lambda $

$\lambda _{o} = 916$

MHz), and it can be effectively read in the range of ~5 m (4 W effective isotropic radiated power—EIRP) on metal and ~2.5 m in air and on small metallic objects in the boresight direction (

$\theta = 0^{\circ }$

) for both the frequency ranges, showing a stable frequency performance.

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来源期刊

IEEE Transactions on Antennas and Propagation 工程技术-电信学

CiteScore

10.40

自引率

28.10%

发文量

968

审稿时长

4.7 months

期刊介绍： IEEE Transactions on Antennas and Propagation includes theoretical and experimental advances in antennas, including design and development, and in the propagation of electromagnetic waves, including scattering, diffraction, and interaction with continuous media; and applications pertaining to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques