Printed Magnetoinductive-Wave (MIW) Delay Lines for Chipless RFID Applications

A novel fully passive and electromagnetic chipless radiofrequency identification (RFID) system is proposed. The system is based on printed tags implemented with magnetoinductive-wave (MIW) delay lines. Such lines are composed of a periodic array of coupled square split ring resonators (SSRRs) and pr...

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Veröffentlicht in:	IEEE transactions on antennas and propagation 2012-11, Vol.60 (11), p.5075-5082
Hauptverfasser:	Herraiz-Martinez, Francisco Javier, Paredes, Ferran, Zamora Gonzalez, Gerard, Martin, Ferran, Bonache, Jordi
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied classical electromagnetism Applied sciences Arrays Bandwidth Chipless tags Delay Delay lines Electromagnetic wave propagation, radiowave propagation Electromagnetism electron and ion optics Exact sciences and technology Fundamental areas of phenomenology (including applications) magnetoinductive waves (MIWs) Microstrip passive tags Physics radio frequency identification (RFID) Radiofrequency identification Radiolocalization and radionavigation Reflection Telecommunications Telecommunications and information theory
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container_end_page	5082
container_issue	11
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container_title	IEEE transactions on antennas and propagation
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creator	Herraiz-Martinez, Francisco Javier Paredes, Ferran Zamora Gonzalez, Gerard Martin, Ferran Bonache, Jordi
description	A novel fully passive and electromagnetic chipless radiofrequency identification (RFID) system is proposed. The system is based on printed tags implemented with magnetoinductive-wave (MIW) delay lines. Such lines are composed of a periodic array of coupled square split ring resonators (SSRRs) and propagate slow waves. The tag is codified by introducing reflectors (which provide the identification signature) between the elements of the array. When the tags are interrogated with a pulse in time domain, they produce replicas at the positions where the reflectors are placed. Thanks to the slow group velocity of the MIW delay line, the replicas of the original pulse are not overlapped in time domain and can be demodulated, thus providing the identification code of the tag. The design considerations to implement these chipless tags are studied in the present work. Moreover, a complete set of codified MIW lines for a two-bit system is designed, manufactured and measured. The reported experimental results validate the proposed approach.
doi_str_mv	10.1109/TAP.2012.2207681
format	Article
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The system is based on printed tags implemented with magnetoinductive-wave (MIW) delay lines. Such lines are composed of a periodic array of coupled square split ring resonators (SSRRs) and propagate slow waves. The tag is codified by introducing reflectors (which provide the identification signature) between the elements of the array. When the tags are interrogated with a pulse in time domain, they produce replicas at the positions where the reflectors are placed. Thanks to the slow group velocity of the MIW delay line, the replicas of the original pulse are not overlapped in time domain and can be demodulated, thus providing the identification code of the tag. The design considerations to implement these chipless tags are studied in the present work. Moreover, a complete set of codified MIW lines for a two-bit system is designed, manufactured and measured. 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The system is based on printed tags implemented with magnetoinductive-wave (MIW) delay lines. Such lines are composed of a periodic array of coupled square split ring resonators (SSRRs) and propagate slow waves. The tag is codified by introducing reflectors (which provide the identification signature) between the elements of the array. When the tags are interrogated with a pulse in time domain, they produce replicas at the positions where the reflectors are placed. Thanks to the slow group velocity of the MIW delay line, the replicas of the original pulse are not overlapped in time domain and can be demodulated, thus providing the identification code of the tag. The design considerations to implement these chipless tags are studied in the present work. Moreover, a complete set of codified MIW lines for a two-bit system is designed, manufactured and measured. 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The system is based on printed tags implemented with magnetoinductive-wave (MIW) delay lines. Such lines are composed of a periodic array of coupled square split ring resonators (SSRRs) and propagate slow waves. The tag is codified by introducing reflectors (which provide the identification signature) between the elements of the array. When the tags are interrogated with a pulse in time domain, they produce replicas at the positions where the reflectors are placed. Thanks to the slow group velocity of the MIW delay line, the replicas of the original pulse are not overlapped in time domain and can be demodulated, thus providing the identification code of the tag. The design considerations to implement these chipless tags are studied in the present work. Moreover, a complete set of codified MIW lines for a two-bit system is designed, manufactured and measured. 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subjects	Applied classical electromagnetism Applied sciences Arrays Bandwidth Chipless tags Delay Delay lines Electromagnetic wave propagation, radiowave propagation Electromagnetism electron and ion optics Exact sciences and technology Fundamental areas of phenomenology (including applications) magnetoinductive waves (MIWs) Microstrip passive tags Physics radio frequency identification (RFID) Radiofrequency identification Radiolocalization and radionavigation Reflection Telecommunications Telecommunications and information theory
title	Printed Magnetoinductive-Wave (MIW) Delay Lines for Chipless RFID Applications
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