Title :
Design of ultra-low-cost UHF RFID tags for supply chain applications
Author :
Glidden, Rob ; Bockorick, Cameron ; Cooper, Scott ; Diorio, Chiis ; Dressler, David ; Gutnik, Vadim ; Hagen, Casey ; Hara, Dennis ; Hass, Terry ; Humes, Todd ; Hyde, John ; Oliver, Ron ; Onen, Omer ; Pesavento, Alberto ; Sundstrom, Kurt ; Thomas, Mike
Author_Institution :
Impinj Inc., Seattle, WA, USA
Abstract :
The availability of inexpensive CMOS technologies that perform well at microwave frequencies has created new opportunities for automated material handling within supply chain management (SCM) that in hindsight, be viewed as revolutionary. This article outlines the system architecture and circuit design considerations that influence the development of radio frequency identification (RFID) tags through a case study involving a high-performance implementation that achieves a throughput of nearly 800 tags/s at a range greater than 10 m. The impact of a novel circuit design approach ideally suited to the power and die area challenges is also discussed. Insights gleaned from first-generation efforts are reviewed as an object lesson in how to make RFID technology for SCM, at a cost measured in pennies per tag, reach its full potential through a generation 2 standard.
Keywords :
CMOS integrated circuits; field effect MMIC; identification technology; integrated circuit design; materials handling; radio applications; supply chain management; 10 m; CMOS technology; UHF RFID tag; automated material handling; microwave frequencies; radio frequency identification tags; supply chain management; Availability; CMOS technology; Circuit synthesis; Materials handling; Microwave frequencies; Microwave technology; RFID tags; Radiofrequency identification; Supply chain management; Supply chains;
Journal_Title :
Communications Magazine, IEEE
DOI :
10.1109/MCOM.2004.1321406
