Effects of the FR 4 Substrate Realized in a Circularly Polarized UHF-RFID Reader Antenna with Fractal Geometry for Enhancing Parameters

Effects of the FR 4 Substrate Realized in a Circularly Polarized UHF-RFID Reader Antenna with Fractal Geometry for Enhancing Parameters

The proposed RFID reader antenna progressed with perfect electric conductor (PEC) as the radiating element and FR 4 as the substrate to achieve circular polarization, enhancement in bandwidth, and read range. The design presents a CPW feed RFID antenna for near-field reading applications, between th...

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Main Authors: Chitra Varadhan, S. Arulselvi, Fekadu Ashine Chamatu
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:Advances in Materials Science and Engineering
Online Access:http://dx.doi.org/10.1155/2021/8475621
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spelling doaj-6e2db42d5f4f43de9d5e9f1ddda7ae022021-08-09T00:00:48ZengHindawi LimitedAdvances in Materials Science and Engineering1687-84422021-01-01202110.1155/2021/8475621Effects of the FR 4 Substrate Realized in a Circularly Polarized UHF-RFID Reader Antenna with Fractal Geometry for Enhancing ParametersChitra Varadhan0S. Arulselvi1Fekadu Ashine Chamatu2Department of ECEDepartment of ECEDepartment of Chemical EngineeringThe proposed RFID reader antenna progressed with perfect electric conductor (PEC) as the radiating element and FR 4 as the substrate to achieve circular polarization, enhancement in bandwidth, and read range. The design presents a CPW feed RFID antenna for near-field reading applications, between the range of 903 MHz to 929 MHz. The operating frequency of the proposed design is 900 MHz, axial ratio of the model is less than 3 dB, impedance bandwidth is 256 MHz, and axial bandwidth is 36 MHz, proving to be adequate for near-field RFID reader applications such as item-level tagging and smart shelf. The proposed antenna model is realized with fractal structure to achieve miniaturization. The developed antenna is optimized using EM software for numerical analysis. The designed antenna is fabricated, and the prototype is characterized in terms of dielectric constant and loss tangent. The obtained results indicate high correlation with simulation results.http://dx.doi.org/10.1155/2021/8475621
collection DOAJ
language English
format Article
sources DOAJ
author Chitra Varadhan
S. Arulselvi
Fekadu Ashine Chamatu
spellingShingle Chitra Varadhan
S. Arulselvi
Fekadu Ashine Chamatu
Effects of the FR 4 Substrate Realized in a Circularly Polarized UHF-RFID Reader Antenna with Fractal Geometry for Enhancing Parameters
Advances in Materials Science and Engineering
author_facet Chitra Varadhan
S. Arulselvi
Fekadu Ashine Chamatu
author_sort Chitra Varadhan
title Effects of the FR 4 Substrate Realized in a Circularly Polarized UHF-RFID Reader Antenna with Fractal Geometry for Enhancing Parameters
title_short Effects of the FR 4 Substrate Realized in a Circularly Polarized UHF-RFID Reader Antenna with Fractal Geometry for Enhancing Parameters
title_full Effects of the FR 4 Substrate Realized in a Circularly Polarized UHF-RFID Reader Antenna with Fractal Geometry for Enhancing Parameters
title_fullStr Effects of the FR 4 Substrate Realized in a Circularly Polarized UHF-RFID Reader Antenna with Fractal Geometry for Enhancing Parameters
title_full_unstemmed Effects of the FR 4 Substrate Realized in a Circularly Polarized UHF-RFID Reader Antenna with Fractal Geometry for Enhancing Parameters
title_sort effects of the fr 4 substrate realized in a circularly polarized uhf-rfid reader antenna with fractal geometry for enhancing parameters
publisher Hindawi Limited
series Advances in Materials Science and Engineering
issn 1687-8442
publishDate 2021-01-01
description The proposed RFID reader antenna progressed with perfect electric conductor (PEC) as the radiating element and FR 4 as the substrate to achieve circular polarization, enhancement in bandwidth, and read range. The design presents a CPW feed RFID antenna for near-field reading applications, between the range of 903 MHz to 929 MHz. The operating frequency of the proposed design is 900 MHz, axial ratio of the model is less than 3 dB, impedance bandwidth is 256 MHz, and axial bandwidth is 36 MHz, proving to be adequate for near-field RFID reader applications such as item-level tagging and smart shelf. The proposed antenna model is realized with fractal structure to achieve miniaturization. The developed antenna is optimized using EM software for numerical analysis. The designed antenna is fabricated, and the prototype is characterized in terms of dielectric constant and loss tangent. The obtained results indicate high correlation with simulation results.
url http://dx.doi.org/10.1155/2021/8475621
work_keys_str_mv AT chitravaradhan effectsofthefr4substraterealizedinacircularlypolarizeduhfrfidreaderantennawithfractalgeometryforenhancingparameters
AT sarulselvi effectsofthefr4substraterealizedinacircularlypolarizeduhfrfidreaderantennawithfractalgeometryforenhancingparameters
AT fekaduashinechamatu effectsofthefr4substraterealizedinacircularlypolarizeduhfrfidreaderantennawithfractalgeometryforenhancingparameters
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