Jiajia Zhu scite author profile

A compact multiband rectangular dielectric resonator antenna (RDRA) is proposed in this study for worldwide interoperability for microwave access, wireless local area network, and fifth‐generation applications. The dielectric resonator antenna is fed by a 2‐slot etched coplanar waveguide with a conformal strip feed, a dielectric resonator with a dielectric constant of 37 is used and embedded into the substrate, and a foam substrate is used as a holder. The RDRA exhibits multiband and omnidirectional radiation patterns by generating a monopole mode as well as the typical and modes, which provides impedance bandwidths (|S11| < −10 dB) of 29.0% at the first band, 15.1% at the second band, and 6.2% at the third band. Additionally, the RDRA achieves a maximum total efficiency of 94.4% at 4.8 GHz and an overall total efficiency of 70% at the desired frequency bands.

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Design and Analysis of Chipless RFID Tags Based on Retro-Radiators

Wang

et al. 2019

IEEE Access

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Chipless RFID tag is a promising technique for future RFID systems due to its low cost and high reliability. In this paper, three chipless RFID tags are designed based on retro-reflective structures, in order to increase the reading range and enhance the tag's robustness to the direction of the interrogating signals. The three tags include two linearly polarized tags with non-symmetric and symmetric filters and a circularly polarized tag. Before introducing the tag antennas, the design guidelines on how to arrange the filters for higher detection accuracy are provided based on standing wave analysis. Following the rules, retro-radiating tags with filters are designed. Since the E fields from the retro-radiating antennas add constructively in the direction of the incoming signal automatically, the reading distance is greatly increased compared with the conventional tags with orthogonally placed antennas. The tag with symmetric filters and arrangements can further enhance the detection robustness regardless of the reader's positions. Moreover, the circularly polarized tag is insensitive to the polarization of the incoming signals. The experimental results measured in the anechoic chamber show that the retro-radiator based tag can reach a reading distance of 60 cm, which is longer than most of the existing chipless tags. In the measurement, the proposed tag was well detected even when the reader antennas were not at the boresight. INDEX TERMS Chipless RFID, tag antennas, retro-radiator, RFID systems, van-atta array.

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Jiajia Zhu

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A compact multiband dielectric resonator antenna for wireless communications

Design and Analysis of Chipless RFID Tags Based on Retro-Radiators

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