Title :
Design of long-range, powerless RFID sensor at 10 GHz
Author :
Donelli, Massimo
Author_Institution :
Dept. of Inf. Eng. & Comput. Sci., Univ. of Trento, Trento, Italy
fDate :
September 26 2013
Abstract :
The design of a radio frequency identifier (RFID) tag sensor based on the modulated scattering technique (MST) is presented. The tag works in the X band at 10 GHz and achieves an operative range of about 10 m with a limited amount of power. The power supply required by the transponder is obtained from the interogating electromagnetic field with a customised rectifying Chockcroft-Walton multiplier circuit. The communication between the reader and the tag is obtained using the standard EM4102 RFID protocol, the information is carried on by modulating the load of the tag antenna with a suitable switch circuit. The antenna tag, the rectifying circuit and the switch have been optimised to reach the maximum operative range. A tag prototype has been designed, fabricated and experimentally assessed. The obtained experimental results are quite good.
Keywords :
antennas; electromagnetic wave scattering; modulation; multiplying circuits; protocols; radiofrequency identification; rectifying circuits; transponders; Chockcroft-Walton multiplier circuit; EM4102 RFID protocol; MST; RFID tag sensor; X band; antenna tag; frequency 10 GHz; interogating electromagnetic field; load modulation; long range powerless RFID sensor; modulated scattering technique; power supply; radio frequency identifier tag sensor; reader; rectifying circuit; switch circuit; transponder;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2013.2303
