Title :
RF energy scavenging system utilising switched capacitor DC-DC converter
Author :
Salter, Tamie ; Choi, Kwonhue ; Peckerar, M. ; Metze, G. ; Goldsman, N.
Author_Institution :
Lab. for Phys. Sci., College Park, MD
Abstract :
An RF energy scavenging circuit implementing a power matched Villard voltage doubler followed by a switched capacitor DC-DC converter for scavenging ultra-low RF power levels (20 dBm) is presented. Measurement results for the circuit, fabricated in a 130 nm CMOS process, show that 1 V can be generated across a 5 M load from as little as 25.5 Bm of input RF energy at 2.2 GHz. This represents a 9.5 dB improvement, over the measured sensitivity of our RF energy scavenging circuit without the use of a switched capacitor DC-DC converter stage.
Keywords :
CMOS integrated circuits; DC-DC power convertors; UHF integrated circuits; energy harvesting; switched capacitor networks; voltage multipliers; CMOS process; RF energy scavenging system; frequency 2.2 GHz; power matched Villard voltage doubler; resistance 5 Mohm; size 130 nm; switched capacitor DC-DC converter; ultra-low RF power levels; voltage 1 V;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2009.0153
