4.6 Article

Design of an Analog RFID-Based Tag Antenna with Opened Circuited L-Shaped Stubs for Applications in Localization

Journal

ELECTRONICS
Volume 11, Issue 7, Pages -

Publisher

MDPI
DOI: 10.3390/electronics11071027

Keywords

RFID; read range; UHF antenna; RFID

Funding

  1. British Council 2019 UK-China-BRI Countries Partnership Initiative program, with project titled Adapting to Industry 4.0 oriented International Education and Research Collaboration

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This paper presents a new analog design for a long-read range RFID tag antenna aimed at localization applications. The design focuses on characterizing the antenna impedance through the study of capacitive effects created by gaps and the introduction of open circuited L-shaped stubs. The results show that the proposed antenna design significantly improves performance through the introduction of gaps and stub structures with optimized dimensions. The proposed antenna operates in two frequency bands and is mainly composed of three split rectangular resonators.
This paper presents a new analog design for a radio-frequency identification (RFID) tag antenna with a long-read range oriented to localization applications. The actual work focuses on the analog input characterization of antenna impedance by studying the capacitive effect, created by the gaps, and the effect of the introduced opened circuited L-shaped stubs, on the RFID tag characteristics. Numerical and measured results confirm that proposed tag antenna performances are significantly improved by introducing gaps and stub structures and after optimizing their dimensions, such as length and width. The introduced stubs with optimum dimensions provide good impedance matching, and improved return loss values. Furthermore, two operating frequency bands have been created when the antenna is excited by a 50 Omega port: a low-frequency band around 837 MHz and a higher one around 927 MHz. These results have been validated by measured ones. The proposed RFID antenna is mainly composed of three split rectangular resonators (SRR) where introduced structures concern only the larger SRR. The optimized antenna has an area of 76 x 24.6 mm(2) and is printed on the Taconic RF-60A substrate with a dielectric constant of 6.12, a thickness of 1.6 mm, and a loss tangent of 0.025. Simulation results show interesting communication performances, of the proposed tag antenna, with a return loss of -22.3 dB around 916 MHz and a long-read range up to 25 m when it is fed by an industrial Mping M730 chip with a power sensitivity of -24 dB and an output impedance Z(chip) = 16 - j194 (Omega) at 916 MHz

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