DocumentCode
4797
Title
Low-Power Frequency Doubler in Cellulose-Based Materials for Harmonic RFID Applications
Author
Palazzi, Valentina ; Alimenti, F. ; Mezzanotte, P. ; Virili, M. ; Mariotti, Chiara ; Orecchini, G. ; Roselli, Luca
Author_Institution
Dept. of Eng., Univ. of Perugia, Perugia, Italy
Volume
24
Issue
12
fYear
2014
fDate
Dec. 2014
Firstpage
896
Lastpage
898
Abstract
This letter presents the design of a Schottky diode frequency doubler suitable for harmonic RFID tags. A microwave frequency doubler is implemented in a cellulose-based (paper) substrate, i.e., an ultra-low cost, recyclable and biodegradable material. The circuit exploits a distributed microstrip structure that is fabricated using a copper adhesive laminate to have low conductor losses. The measurements show a conversion loss of 13.4 dB at the output frequency of 2.08 GHz. This is achieved with an available input power of -10 dBm only. Finally a harmonic RFID experiment proves a reading range of 50 cm, obtained by transmitting 0 dBm and receiving a second harmonic of -60 dBm, i.e., well above the sensitivity of a typical microwave receiver.
Keywords
Schottky diodes; biodegradable materials; frequency multipliers; laminates; microwave receivers; radiofrequency identification; Schottky diode frequency doubler; biodegradable material; cellulose-based materials; cellulose-based substrate; conductor losses; copper adhesive laminate; distributed microstrip structure; frequency 2.08 GHz; harmonic RFID tags; low-power frequency doubler; microwave frequency doubler; microwave receiver; paper; recyclable material; ultra-low cost material; Harmonic analysis; Impedance; Internet of Things; Microwave circuits; Radiofrequency identification; Schottky diodes; Substrates; Wireless sensor networks; Cellulose materials; Schottky diodes; flexible substrates; frequency multipliers; green electronics; harmonic RFID; internet of things (IoT); paper-based substrates;
fLanguage
English
Journal_Title
Microwave and Wireless Components Letters, IEEE
Publisher
ieee
ISSN
1531-1309
Type
jour
DOI
10.1109/LMWC.2014.2361431
Filename
6930821
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