A Directional, Closely Spaced Zero-Phase-Shift-Line Loop Array for UHF Near-Field RFID Reader Antennas

A zero-phase-shift-line (ZPSL) loop array with two closely spaced elements is proposed to achieve a directional distribution for ultrahigh frequency (UHF) near-field radio frequency identification (RFID) applications. The proposed array consists of two coaxially positioned ZPSL loop antenna elements...

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Bibliographic Details
Published in:IEEE transactions on antennas and propagation 2018-10, Vol.66 (10), p.5639-5642
Main Authors: Zeng, Yunjia, Chen, Zhi Ning, Qing, Xianming, Jin, Jian-Ming
Format: Article
Language:English
Subjects:
Antenna array
Antenna arrays
directional antenna
Directive antennas
Interrogation
Loop antennas
Magnetic fields
parasitic array
Parasitic elements (antennas)
Phase current
Phase shift
Radio frequency identification
radio frequency identification (RFID)
Radiofrequency identification
Reflector antennas
UHF antennas
Very high frequencies
zero-phase-shift-line (ZPSL) loop antenna
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Description
Summary:A zero-phase-shift-line (ZPSL) loop array with two closely spaced elements is proposed to achieve a directional distribution for ultrahigh frequency (UHF) near-field radio frequency identification (RFID) applications. The proposed array consists of two coaxially positioned ZPSL loop antenna elements of the same size, with an aperiodic ZPSL loop acting as a driven element and a periodic ZPSL loop functioning as a parasitic element. A directional magnetic field distribution can be achieved when an out-of-phase current along the parasitic loop is induced. A ZPSL loop array prototype with an interelement spacing of 15 mm, or 0.046 of the operating wavelength at 915 MHz, achieves a desired directional magnetic field distribution over a circular interrogation zone with a diameter of 160 mm. As a UHF near-field RFID reader antenna, the proposed array is able to achieve a 100% detection rate of SAG tags up to 120 mm by using an Impinj Speedway reader with an output power of 30 dBm.
ISSN:0018-926X
1558-2221
DOI:10.1109/TAP.2018.2860619