Abstract
Abstract
In this study, a novel, cost-effective miniaturized tag antenna was developed for applications on the human body. To achieve impedance matching with the complex conjugate impedance of the Monza-4 tag chip (7.17–j74.22 Ω at 915 MHz), the proposed structure was configured by coarsely tuning the positions of vias and fine-tuning the small gaps of its coupled patches. For further reducing the profile and dimensions of the antenna, a design technique based on the three-dimensional dipole antenna current distribution was used. The proposed antenna configuration was not only miniaturized but also achieved a long stable reading distance (>5.0 m) and a wide impedance bandwidth of 71 MHz or 7.65% (covering the ultrahigh frequency radio frequency identification ranges in most regions), regardless of the location of the tag on the human body. Experiments were conducted to validate the simulated results, and adequate agreement was found between the simulated results and the measured results.
Publisher
Cambridge University Press (CUP)
Subject
Electrical and Electronic Engineering
Reference41 articles.
1. Design of a Small-Size, Low-Profile, and Low-Cost Normal-Mode Helical Antenna for UHF RFID Wristbands
2. Circularly polarized tag antenna on an AMC substrate for wearable UHF RFID applications
3. Experimental comparison of three electro-textile interfaces for textile UHF-RFID tags on clothes (22);Luo;AEU-International Journal of Electronics and Communications,2022
4. 31. (2021) Impinj Monza® 4 Datasheet, Impinj, Inc., ver. 11.0. https://support.impinj.com/hc/en-us/articles/202756908-Monza-4-Datasheet (accessed 15 December 2021 ).
5. A Novel Metal-Mountable Electrically Small Antenna for RFID Tag Applications With Practical Guidelines for the Antenna Design
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