Pattern-Reconfigurable, Circularly Polarized, High-Gain, Archimedean Spiral Antenna Array for Long-Distance, Wide-Coverage RFID Inventorying

A low-cost, pattern-reconfigurable, circularly polarized, high-gain, radio-frequency identification (RFID) reader antenna array is presented. It is a 2\times2 array whose elements are based on an innovative Archimedean spiral design. A 4-way power divider feed network with switchable delay lines i...

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Bibliographic Details
Published in:IEEE journal of radio frequency identification (Online) 2024, Vol.8, p.441-447
Main Authors: Yi, Da, Zhang, Ren-Long, Tang, Ming-Chun, Fu, Jing-Feng, Li, Yao, Li, Xing-Xing, Zhao, Huapeng, Ziolkowski, Richard W.
Format: Article
Language:English
Subjects:
Antenna array
Antenna arrays
Antenna measurements
Antennas
Circular polarization
Delay lines
Dipole antennas
High gain
patternreconfigurable antenna
Phased arrays
Power dividers
Radio frequency identification
Radiofrequency identification
Reconfiguration
RFID read antenna
Spiral antennas
Spirals
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Summary:A low-cost, pattern-reconfigurable, circularly polarized, high-gain, radio-frequency identification (RFID) reader antenna array is presented. It is a 2\times2 array whose elements are based on an innovative Archimedean spiral design. A 4-way power divider feed network with switchable delay lines is designed that enables reconfiguring the radiation patterns of the array. Because of its high realized gain and nine reconfigurable states, the developed reader antenna can be applied in long-distance, wide-coverage RFID inventorying. The fabricated prototype, with dimensions 1.15\times 1.15\times 0.07~\lambda _{L}^{3} at 920 MHz, achieves a measured axial-ratio (AR) fractional bandwidth of 4.6%, and a peak realized gain (RG) of 10.5 dBic (12 dBic without the feed network). The RG of its reconfigurable patterns is greater than 6 dBic within \theta = 0^{\circ }\pm 45^{\circ } for all azimuth angles. It was also tested in an outdoor range as the reader antenna for a practical RFID system. The maximum read distance was 22.3 m.
ISSN:2469-7281
2469-7281
2469-729X
DOI:10.1109/JRFID.2024.3379875