DocumentCode
1495562
Title
Optimum design of very high-efficiency microwave power amplifiers based on time-domain harmonic load-pull measurements
Author
Barataud, Denis ; Campovecchio, Michel ; Nebus, Jean-Michel
Author_Institution
Inst. de Recherche en Commun. Opt. et Microondes, Limoges, France
Volume
49
Issue
6
fYear
2001
fDate
6/1/2001 12:00:00 AM
Firstpage
1107
Lastpage
1112
Abstract
Due to the large expansion of wireless communications, the need for high-efficiency power amplifiers has emerged. In mobile communication systems, power amplifiers are the most critical elements for the power-dissipation budget. Thus, the operating conditions of active devices have to be optimized using accurate and complementary computer-aided design (CAD) and experimental tools. This paper reports two design methods of high-efficiency power amplifiers. The first one is CAD oriented and based on the substitute generator technique using the nonlinear model of transistors. The second one is based on a specific measurement system of time-domain waveforms using a modified vector network analyzer, coupled with harmonic active load-pull techniques (three active loops). This new setup enables the measurement and optimization of time-domain waveforms at both ports of transistors driven by constant-wave test signals. These two design methodologies are applied to the optimization of an S-band 1-W class-F GaInP/GaAs heterojunction-bipolar-transistor power amplifier
Keywords
circuit CAD; microwave measurement; microwave power amplifiers; network analysers; 1 W; GaInP-GaAs; GaInP/GaAs heterojunction bipolar transistor; S-band; active device; class-F amplifier; computer aided design; design optimization; microwave power amplifier; nonlinear model; power added efficiency; substitute generator technique; time-domain harmonic load-pull measurement; vector network analyzer; Design automation; Design methodology; Design optimization; High power amplifiers; Microwave amplifiers; Microwave devices; Mobile communication; Power amplifiers; Time domain analysis; Wireless communication;
fLanguage
English
Journal_Title
Microwave Theory and Techniques, IEEE Transactions on
Publisher
ieee
ISSN
0018-9480
Type
jour
DOI
10.1109/22.925498
Filename
925498
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