A Novel RFID  EMSICC-based Chipless Tag

descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 14 Apr 2017 Czech Republic, France English Publisher:Brno University of TechnologyJournal:Radioengineering, volume 26, pages 154-161 (issn: 1210-2512,

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Authors: Sakouhi, Soumaya; Raggad, Hedi; Gharsallam, Ali; Latrach, Mohamed;

doi: 10.13164/re.2017.0154 , 10.60692/h96dc-q1x92 , 10.60692/znbh3-dbh19

handle: 11012/64720

A Novel RFID EMSICC-based Chipless Tag

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Abstract

Une nouvelle étiquette sans chipless d'identification par radiofréquence (RFID) basée sur la technologie du guide d'onde intégré au substrat (SIW) est proposée dans cet article. L'étiquette souligne l'importance d'utiliser de telles technologies permettant une miniaturisation de surface, un facteur Q élevé et une forme originale. Ainsi, la nouvelle conception consiste en une cavité circulaire intégrée au substrat à huit modes (EMSICC) associée à une antenne en forme de nœud papillon ultra large bande (UWB). L'EMSICC est réalisée en divisant la cavité circulaire intégrée au substrat à quart de mode (QMSICC) en deux parties, tout en conservant la même fréquence de résonance et la distribution du champ électrique d'origine. De plus, la bande de fréquence de fonctionnement est de 5 GHz à 8 GHz dans une zone compacte de 4,97 × 1,05 cm 2. La conception proposée est validée expérimentalement dans le domaine des fréquences.

En este documento se propone una nueva etiqueta sin chip de identificación por radiofrecuencia (RFID) basada en la tecnología de guía de onda integrada de sustrato (SIW). La etiqueta destaca la importancia de utilizar tales tecnologías que permitan una miniaturización de la superficie, un factor Q alto y una forma original. Por lo tanto, el diseño novedoso consiste en una cavidad circular integrada de sustrato de ocho modos (EMSICC) asociada a una antena en forma de pajarita de banda ultraancha (UWB). El EMSICC se realiza dividiendo la cavidad circular integrada de sustrato de cuarto de modo (QMSICC) en dos partes, conservando la misma frecuencia resonante y la distribución original del campo eléctrico. Además, la banda de frecuencia operativa es de 5 GHz a 8 GHz dentro de un área compacta de 4,97 × 1,05 cm 2. El diseño propuesto se valida experimentalmente en el dominio de la frecuencia.

A new Radio Frequency Identification (RFID) chipless tag based on the Substrate Integrated Waveguide (SIW) technology is proposed in this paper.The tag highlights the importance of using such technologies allowing a surface miniaturization, a high Q-factor and an original shape.Thus, the novel design consists of an Eight-Mode Substrate Integrated Circular Cavity (EMSICC) associated to an Ultra Wideband (UWB) bowtie-shaped antenna.The EMSICC is realized by bisecting the Quarter Mode Substrate Integrated Circular Cavity (QMSICC) into two parts, while preserving the same resonant frequency and the original electric field distribution.Further, the operating frequency band is from 5 GHz to 8 GHz within a compact area of 4.97 × 1.05 cm 2 .The proposed design is experimentally validated in the frequency domain.

يتم اقتراح علامة جديدة لتحديد الترددات الراديوية (RFID) بدون رقاقة تعتمد على تقنية دليل الموجة المتكامل للركيزة (SIW) في هذه الورقة. تسلط العلامة الضوء على أهمية استخدام هذه التقنيات التي تسمح بتصغير السطح وعامل Q عالي وشكل أصلي. وبالتالي، يتكون التصميم الجديد من تجويف دائري متكامل للركيزة ثماني الأوضاع (EMSICC) مرتبط بهوائي على شكل ربطة عنق فائقة النطاق (UWB). يتم تحقيق EMSICC من خلال تقطيع التجويف الدائري المتكامل للركيزة الربعية (QMSICC) إلى جزأين، مع الحفاظ على نفس التردد الرنان وتوزيع المجال الكهربائي الأصلي. علاوة على ذلك، يتراوح نطاق تردد التشغيل من 5 جيجا هرتز إلى 8 جيجا هرتز داخل منطقة مدمجة تبلغ 4.97 × 1.05 سم 2. يتم التحقق من صحة التصميم المقترح تجريبياً في مجال التردد.

Countries

Czech Republic, France

Related Organizations

École Supérieure d'Electronique de l'Ouest
France
University of Rennes 1
France
The Tech Interactive
United States
Brno University of Technology
Czech Republic
Université de Rennes 1
France

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Keywords

Wireless Energy Harvesting and Information Transfer, Aerospace Engineering, FOS: Mechanical engineering, Chipless RFID, RFID Technology, RFID Technology and Applications, Engineering, Quarter Mode SICC, Radio-frequency identification, Computer security, Media Technology, FOS: Electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, chipless tag, Antenna Design and Applications, RFID, [SPI.ELEC] Engineering Sciences [physics]/Electromagnetism, Computer science, Half Mode SICC, Eight-Mode Substrate Integrated Circular Cavity (EMSICC), [SPI.TRON] Engineering Sciences [physics]/Electronics, [SPI.TRON]Engineering Sciences [physics]/Electronics, TK1-9971, [SPI.ELEC]Engineering Sciences [physics]/Electromagnetism, Substrate Integrated Waveguide (SIW), Mutual Coupling, Physical Sciences, Electrical engineering. Electronics. Nuclear engineering, Substrate Integrated Circular Cavity (SICC), EMS (Electromagnetic Signal)

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