Title :
Transmission-Line Class-E Power Amplifier With Extended Maximum Operating Frequency
Author :
Thian, Mury ; Fusco, Vincent F.
Author_Institution :
ECIT Inst., Queen´´s Univ. Belfast, Belfast, UK
fDate :
4/1/2011 12:00:00 AM
Abstract :
A novel Class-E power amplifier (PA) topology with transmission-line load network is presented in this brief. When compared with the classic Class-E topology, the new circuit can increase the maximum operating frequency up to 50% higher without trading the other Class-E figures of merit. Neither quarterwave line/massive radio-frequency choke for collector/drain biasing nor additional fundamental-frequency output matching circuit are needed in the proposed PA, thus resulting in a compact design. Closed-form formulations are derived and verified by simulations with practical design limitations carefully taken into consideration and good agreement achieved.
Keywords :
inductors; network topology; power amplifiers; radiofrequency integrated circuits; transmission lines; Class-E topology; closed-form formulations; collector biasing; compact design; design limitations; drain biasing; extended maximum operating frequency; fundamental-frequency output matching circuit; massive radio-frequency choke; power amplifier topology; quarterwave line; transmission-line Class-E power amplifier; transmission-line load network; Capacitance; Gallium nitride; Inductance; Power generation; Radio frequency; Switches; Transistors; Class E; harmonic tuning; high efficiency; high frequency; impedance matching; power amplifier (PA); switching amplifier; transistor circuits; transmission line;
Journal_Title :
Circuits and Systems II: Express Briefs, IEEE Transactions on
DOI :
10.1109/TCSII.2011.2124570
