Title :
A mm-Wave Power-Harvesting RFID Tag in 90 nm CMOS
Author :
Pellerano, Stefano ; Alvarado, Javier, Jr. ; Palaskas, Yorgos
Author_Institution :
Intel Labs., Intel Corp., Hillsboro, OR, USA
Abstract :
A mm-wave power-harvesting RFID tag is implemented in 90 nm CMOS. Operation at mm-wave reduces antenna size and could allow antenna integration on-chip. This, together with power harvesting that can be used in lieu of a battery, can result in a pinless, CMOS-only tag with no package and no off-chip components whatsoever. The tag harvests energy from the incoming mm-wave continuous wave (CW) signal transmitted by the reader and then uses a 60 GHz free-running oscillator to transmit back pulse-width modulated bursts. An in-depth treatment of the voltage multiplier and associated matching network and implications on tag range are presented. With 2 dBm mm-wave input power, the tag achieves a rate of 5 kb/s. The RFIC size is 1.3 × 0.95 mm2 including pads.
Keywords :
CMOS integrated circuits; energy harvesting; millimetre wave antennas; radiofrequency identification; radiofrequency oscillators; voltage multipliers; CMOS; antenna integration on-chip; antenna size; associated matching network; back pulse-width modulated bursts; bit rate 5 kbit/s; free-running oscillator; frequency 60 GHz; mm-wave continuous wave signal; mm-wave power-harvesting RFID tag; voltage multiplier; Batteries; Costs; Frequency; Millimeter wave technology; Oscillators; Packaging; RFID tags; Radiofrequency identification; Voltage; Wireless sensor networks; CMOS; millimeter wave oscillator; millimeter wave transmitter; passive RFID tag; radio-frequency identification (RFID); wireless power transmission; wireless transceiver;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2010.2049916
