A1 Refereed original research article in a scientific journal
16-bit frequency signatured directly printable tag for organic electronics
Authors: Javeda N, Habib A, Akram A, Amin Y, Tenhunen H
Publisher: IEICE-INST ELECTRONICS INFORMATION COMMUNICATIONS ENG
Publishing place: Tokyo
Publication year: 2016
Journal: Ieice Electronics Express
Journal name in source: IEICE ELECTRONICS EXPRESS
Journal acronym: IEICE ELECTRON EXPR
Article number: ARTN 20160406
Volume: 13
Issue: 11
Number of pages: 6
ISSN: 1349-2543
eISSN: 1349-2543
DOI: https://doi.org/10.1587/elex.13.20160406
Abstract
A compact 16-bit chipless RFID moisture sensor tag with a size of 13.2 x 19.6mm(2) is designed, fabricated and analyzed. The presented moisture sensor tag is realized on a paper substrate with silver nano particle based ink patches as conducting material. The frequency band of operation is 0.5 to 14 GHz having an overall bandwidth of 13.5 GHz. It is loaded with slots of different lengths and widths, etched on the conductive material. The tag exhibits stable sensing characteristic towards moisture in the real environment. The flexible, sensitive and environmental friendly nature of the proposed tag makes it suitable for wider, low-cost and organic electronics applications.
A compact 16-bit chipless RFID moisture sensor tag with a size of 13.2 x 19.6mm(2) is designed, fabricated and analyzed. The presented moisture sensor tag is realized on a paper substrate with silver nano particle based ink patches as conducting material. The frequency band of operation is 0.5 to 14 GHz having an overall bandwidth of 13.5 GHz. It is loaded with slots of different lengths and widths, etched on the conductive material. The tag exhibits stable sensing characteristic towards moisture in the real environment. The flexible, sensitive and environmental friendly nature of the proposed tag makes it suitable for wider, low-cost and organic electronics applications.
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