A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications

A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications

This paper presents a compact microstrip ultra-high frequency (UHF) reader patch antenna with complementary split ring resonator (CSRR) for radio frequency identification (RFID). The total size of the antenna is 208 × 208 × 1.6 mm3. The proposed antenna is designed, fabricated and measured in order...

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Published in:Indonesian Journal of Electrical Engineering and Computer Science
Main Author: Norzeli S.M.; Ismail I.; Din N.M.; Ali M.T.; Almisreb A.A.; Alkahtani A.A.
Format: Article
Language:English
Published: Institute of Advanced Engineering and Science 2019
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075121283&doi=10.11591%2fijeecs.v17.i3.pp1434-1441&partnerID=40&md5=25f5163ac0fb4f15a3c6f1b29995ed17
id 2-s2.0-85075121283
spelling 2-s2.0-85075121283
Norzeli S.M.; Ismail I.; Din N.M.; Ali M.T.; Almisreb A.A.; Alkahtani A.A.
A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications
2019
Indonesian Journal of Electrical Engineering and Computer Science
17
3
10.11591/ijeecs.v17.i3.pp1434-1441
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075121283&doi=10.11591%2fijeecs.v17.i3.pp1434-1441&partnerID=40&md5=25f5163ac0fb4f15a3c6f1b29995ed17
This paper presents a compact microstrip ultra-high frequency (UHF) reader patch antenna with complementary split ring resonator (CSRR) for radio frequency identification (RFID). The total size of the antenna is 208 × 208 × 1.6 mm3. The proposed antenna is designed, fabricated and measured in order to verify the proposed concept. The characterization for radiation parameters, like return loss, radiation pattern and antenna gain have been done experimentally. The proposed antenna is operated at 921 MHz for and achieved a gain of 8.285 dBi. All simulations in this work have been carried out by means of the commercial computer simulation technology (CST) software. In compare to the simulated results, the measured outcomes are promised. Copyright © 2020 Institute of Advanced Engineering and Science. All rights reserved.
Institute of Advanced Engineering and Science
25024752
English
Article
All Open Access; Gold Open Access; Green Open Access
author Norzeli S.M.; Ismail I.; Din N.M.; Ali M.T.; Almisreb A.A.; Alkahtani A.A.
spellingShingle Norzeli S.M.; Ismail I.; Din N.M.; Ali M.T.; Almisreb A.A.; Alkahtani A.A.
A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications
author_facet Norzeli S.M.; Ismail I.; Din N.M.; Ali M.T.; Almisreb A.A.; Alkahtani A.A.
author_sort Norzeli S.M.; Ismail I.; Din N.M.; Ali M.T.; Almisreb A.A.; Alkahtani A.A.
title A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications
title_short A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications
title_full A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications
title_fullStr A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications
title_full_unstemmed A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications
title_sort A rectangular CSRR based microstrip UHF reader patch antenna for RFID applications
publishDate 2019
container_title Indonesian Journal of Electrical Engineering and Computer Science
container_volume 17
container_issue 3
doi_str_mv 10.11591/ijeecs.v17.i3.pp1434-1441
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85075121283&doi=10.11591%2fijeecs.v17.i3.pp1434-1441&partnerID=40&md5=25f5163ac0fb4f15a3c6f1b29995ed17
description This paper presents a compact microstrip ultra-high frequency (UHF) reader patch antenna with complementary split ring resonator (CSRR) for radio frequency identification (RFID). The total size of the antenna is 208 × 208 × 1.6 mm3. The proposed antenna is designed, fabricated and measured in order to verify the proposed concept. The characterization for radiation parameters, like return loss, radiation pattern and antenna gain have been done experimentally. The proposed antenna is operated at 921 MHz for and achieved a gain of 8.285 dBi. All simulations in this work have been carried out by means of the commercial computer simulation technology (CST) software. In compare to the simulated results, the measured outcomes are promised. Copyright © 2020 Institute of Advanced Engineering and Science. All rights reserved.
publisher Institute of Advanced Engineering and Science
issn 25024752
language English
format Article
accesstype All Open Access; Gold Open Access; Green Open Access
record_format scopus
collection Scopus
_version_ 1809677601426374656

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