Title :
A highly efficient 1.95-GHz, 18-W asymmetric multilevel outphasing transmitter for wideband applications
Author :
Godoy, Philip A. ; Chung, SungWon ; Barton, Taylor W. ; Perreault, David J. ; Dawson, Joel L.
Author_Institution :
Microsyst. Technol. Labs., Massachusetts Inst. of Technol., Cambridge, MA, USA
Abstract :
A 1.95-GHz asymmetric multilevel outphasing (AMO) transmitter with class-E GaN power amplifiers (PAs) and discrete supply modulators is presented. AMO transmitters achieve improved efficiency over envelope tracking (ET) transmitters by replacing the continuous supply modulator with a discrete supply modulator implemented with a fast digital switching network. Outphasing modulation is used to provide the required fine output envelope control. A 4-level supply modulator is implemented that allows for fast and efficient discrete envelope modulation with up to 28-V supply voltages using low-voltage gate drivers and time-alignment logic. With two class-E GaN PAs that achieve 62.5% power-added efficiency (PAE) at 40- dBm peak output power, the AMO transmitter delivers 42.6- dBm peak output power at 1.95-GHz. For a 16-QAM signal at 36-dBm output power, the transmitter achieves 44.2/42.8/41.4% average system efficiency and 2.0/2.1/3.1% EVM for 10/20/40-MHz channel bandwidth, respectively.
Keywords :
broadband networks; channel allocation; driver circuits; low-power electronics; modulation; modulators; power amplifiers; power supply circuits; radio transmitters; 4-level supply modulator; AMO transmitter; ET transmitters; EVM; PAE; asymmetric multilevel outphasing transmitter; average system efficiency; channel bandwidth; class-E power amplifiers; continuous supply modulator; digital switching network; discrete envelope modulation; discrete supply modulators; envelope tracking transmitters; fine output envelope control; frequency 1.95 GHz; low-voltage gate drivers; outphasing modulation; peak output power; power 18 W; power-added efficiency; supply voltages; time-alignment logic; wideband applications; Bandwidth; Delay; Gallium nitride; Phase modulation; Power generation; Transmitters; LINC; base station; digital predistortion; discrete supply modulator; outphasing; power amplifier;
Conference_Titel :
Microwave Symposium Digest (MTT), 2011 IEEE MTT-S International
Conference_Location :
Baltimore, MD
Print_ISBN :
978-1-61284-754-2
Electronic_ISBN :
0149-645X
DOI :
10.1109/MWSYM.2011.5972660
