A Broadband UHF Tag Antenna For Near-Field and Far-Field RFID Communications

A Broadband UHF Tag Antenna For Near-Field and Far-Field RFID Communications

The paper deals with the design of passive broadband tag antenna for Ultra-High Frequency (UHF) band. The antenna is intended for both near and far fields Radio Frequency Identification (RFID) applications. The meander dipole tag antenna geometry modification is designed for frequency bandwidth incr...

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Bibliographic Details
Main Authors: M. Dhaouadi, M. Mabrouk, T. P. Vuong, A. C. de Souza, A. Ghazel
Format: Article
Language:English
Published: Spolecnost pro radioelektronicke inzenyrstvi 2014-12-01
Series:Radioengineering
Subjects:
Chip
tag antenna
far-field
near-field
Ultra High Frequency (UHF)
RF identification (RFID)
Online Access:http://www.radioeng.cz/fulltexts/2014/14_04_1026_1032.pdf
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spelling doaj-100230fef4714e1281e49d4d47640dd02020-11-24T21:03:56ZengSpolecnost pro radioelektronicke inzenyrstviRadioengineering1210-25122014-12-0123410261032A Broadband UHF Tag Antenna For Near-Field and Far-Field RFID CommunicationsM. DhaouadiM. MabroukT. P. VuongA. C. de SouzaA. GhazelThe paper deals with the design of passive broadband tag antenna for Ultra-High Frequency (UHF) band. The antenna is intended for both near and far fields Radio Frequency Identification (RFID) applications. The meander dipole tag antenna geometry modification is designed for frequency bandwidth increasing. The measured bandwidth of the proposed broadband Tag antenna is more than 140 MHz (820–960 MHz), which can cover the entire UHF RFID band. A comparison between chip impedance of datasheet and the measured chip impedance has been used in our simulations. The proposed progressive meandered antenna structure, with an overall size of 77 mm × 14 mm × 0.787 mm, produces strong and uniform magnetic field distribution in the near-field zone. The antenna impedance is matched to common UHF chips in market simply by tuning its capacitive and inductive values since a perfect matching is required in the antenna design in order to enhance the near and the far field communications. Measurements confirm that the designed antenna exhibits good performance of Tag identification for both near-field and far-field UHF RFID applications.www.radioeng.cz/fulltexts/2014/14_04_1026_1032.pdfChiptag antennafar-fieldnear-fieldUltra High Frequency (UHF)RF identification (RFID)
collection DOAJ
language English
format Article
sources DOAJ
author M. Dhaouadi
M. Mabrouk
T. P. Vuong
A. C. de Souza
A. Ghazel
spellingShingle M. Dhaouadi
M. Mabrouk
T. P. Vuong
A. C. de Souza
A. Ghazel
A Broadband UHF Tag Antenna For Near-Field and Far-Field RFID Communications
Radioengineering
Chip
tag antenna
far-field
near-field
Ultra High Frequency (UHF)
RF identification (RFID)
author_facet M. Dhaouadi
M. Mabrouk
T. P. Vuong
A. C. de Souza
A. Ghazel
author_sort M. Dhaouadi
title A Broadband UHF Tag Antenna For Near-Field and Far-Field RFID Communications
title_short A Broadband UHF Tag Antenna For Near-Field and Far-Field RFID Communications
title_full A Broadband UHF Tag Antenna For Near-Field and Far-Field RFID Communications
title_fullStr A Broadband UHF Tag Antenna For Near-Field and Far-Field RFID Communications
title_full_unstemmed A Broadband UHF Tag Antenna For Near-Field and Far-Field RFID Communications
title_sort broadband uhf tag antenna for near-field and far-field rfid communications
publisher Spolecnost pro radioelektronicke inzenyrstvi
series Radioengineering
issn 1210-2512
publishDate 2014-12-01
description The paper deals with the design of passive broadband tag antenna for Ultra-High Frequency (UHF) band. The antenna is intended for both near and far fields Radio Frequency Identification (RFID) applications. The meander dipole tag antenna geometry modification is designed for frequency bandwidth increasing. The measured bandwidth of the proposed broadband Tag antenna is more than 140 MHz (820–960 MHz), which can cover the entire UHF RFID band. A comparison between chip impedance of datasheet and the measured chip impedance has been used in our simulations. The proposed progressive meandered antenna structure, with an overall size of 77 mm × 14 mm × 0.787 mm, produces strong and uniform magnetic field distribution in the near-field zone. The antenna impedance is matched to common UHF chips in market simply by tuning its capacitive and inductive values since a perfect matching is required in the antenna design in order to enhance the near and the far field communications. Measurements confirm that the designed antenna exhibits good performance of Tag identification for both near-field and far-field UHF RFID applications.
topic Chip
tag antenna
far-field
near-field
Ultra High Frequency (UHF)
RF identification (RFID)
url http://www.radioeng.cz/fulltexts/2014/14_04_1026_1032.pdf
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