IEEE Journal of Microwaves (Jan 2023)

A Novel Design Methodology to Realize a Single Byte Chipless RFID Tag by Loading a Square Open-Loop Resonator With Micro-Metallic Cells

  • Muhammad Noman,
  • Usman A. Haider,
  • Anas M. Hashmi,
  • Hidayat Ullah,
  • Ali I. Najam,
  • Farooq A. Tahir

DOI
https://doi.org/10.1109/JMW.2022.3226878
Journal volume & issue
Vol. 3, no. 1
pp. 43 – 51

Abstract

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In this paper, a unique structural design methodology for chipless radio-frequency identification (RFID) tags in frequency domain is presented. The tag geometry is developed by loading an open-loop resonator with micro-metallic-cells (MMC). The realization give rise to a checkerboard resonator type with electromagnetic signatures in its radar cross section that are extremely efficient to manipulate. The resonators layout is distributed on either side of a Rogers substrate to double its coding density. The proposed chipless RFID tag has a memory of 8-bits in total. The operating band of the tag is 6.5-10.5 GHz. The tag has a high bit coding density of 10.94 bits/cm2 and spectral efficiency of 2 bits/GHz. The tag has a very compact size of 17.4 × 4.2 mm2. The simple structuring methodology and efficient resonators layout will give RFID system designers the flexibility to apply the proposed tag in a wide range of modern applications.

Keywords