DocumentCode
1458636
Title
Modeling and Digital Predistortion of Class-D Outphasing RF Power Amplifiers
Author
Landin, Per N. ; Fritzin, Jonas ; Van Moer, Wendy ; Isaksson, Magnus ; Alvandpour, Atila
Author_Institution
Dept. of Electron., Math. & Natural Sci., Univ. of Gavle, Gävle, Sweden
Volume
60
Issue
6
fYear
2012
fDate
6/1/2012 12:00:00 AM
Firstpage
1907
Lastpage
1915
Abstract
This paper presents a direct model structure for describing class-D outphasing power amplifiers (PAs) and a method for digitally predistorting these amplifiers. The direct model structure is based on modeling differences in gain and delay, nonlinear interactions between the two paths, and differences in the amplifier behavior. The digital predistortion method is designed to operate only on the input signals´ phases, to correct for both amplitude and phase mismatches. This eliminates the need for additional voltage supplies to compensate for gain mismatch. Model and predistortion performance are evaluated on a 32-dBm peak-output-power class-D outphasing PA in CMOS with on-chip transformers. The excitation signal is a 5-MHz downlink WCDMA signal with peak-to-average power ratio of 9.5 dB. Using the proposed digital predistorter, the 5-MHz adjacent channel leakage power ratio (ACLR) was improved by 13.5 dB, from -32.1 to -45.6 dBc. The 10-MHz ACLR was improved by 6.4 dB, from -44.3 to -50.7 dBc, making the amplifier pass the 3GPP ACLR requirements.
Keywords
CMOS integrated circuits; HF amplifiers; code division multiple access; power amplifiers; transformers; 3GPP ACLR requirements; CMOS integrated circuit; RF power amplifiers; WCDMA signal; adjacent channel leakage power ratio; amplitude mismatch; class-D outphasing power amplifiers; digital predistortion; frequency 5 MHz; nonlinear interactions; on-chip transformers; phase mismatch; Baseband; Delay; Nonlinear distortion; Numerical models; Phase distortion; Polynomials; Predistortion; Behavioral modeling; LINC; digital predistortion; outphasing amplifier; power amplifiers (PAs);
fLanguage
English
Journal_Title
Microwave Theory and Techniques, IEEE Transactions on
Publisher
ieee
ISSN
0018-9480
Type
jour
DOI
10.1109/TMTT.2012.2187532
Filename
6158620
Link To Document