Title :
Transmission line resistance compression networks for microwave rectifiers
Author :
Barton, Taylor W. ; Gordonson, Joshua ; Perreault, David J.
Abstract :
This work presents a development of multi-way transmission-line resistance compression networks (TLRCNs) and their application to rf-to-dc conversion. We derive analytical expressions for the behavior of TLRCNs, and describe two design methodologies applicable to both single- and multi-stage implementations. A 2.45-GHz 4-way TLRCN network is implemented and applied to create a resistance-compressed rectifier system that has narrow-range resistive input characteristics over a 10-dB power range. It is demonstrated to improve the impedance match to mostly-resistive but variable input impedance class-E rectifiers over a 10-dB power range. The resulting TLRCN plus rectifier system has >50% rf-to-dc conversion efficiency over a >10-dB input power range at 2.45 GHz (peak efficiency 70%), and SWR <;1.1 over a 7.7-dB range.
Keywords :
impedance matching; microwave circuits; rectifiers; transmission lines; 4-way TLRCN network; frequency 2.45 GHz; impedance match; microwave rectifiers; multistage implementation; multiway transmission-line resistance compression networks; narrow-range resistive input characteristics; resistance-compressed rectifier system; rf-to-dc conversion; single-stage implementation; variable input impedance class-E rectifiers; Impedance; Impedance measurement; Length measurement; Power transmission lines; Radio frequency; Rectifiers; Resistance; impedance matching; matching networks; rectennas; resonant rectifiers; transmission lines; wireless power transfer;
Conference_Titel :
Microwave Symposium (IMS), 2014 IEEE MTT-S International
Conference_Location :
Tampa, FL
DOI :
10.1109/MWSYM.2014.6848381
