Title :
A 1.8-GHz high-efficiency 34-dBm silicon bipolar power amplifier
Author :
Carrara, Francesco ; Scuderi, Antonino ; Biondi, Tonio ; Palmisano, Giuseppe
Author_Institution :
Ist. di Elettrotecnica ed Elettronica, Catania Univ., Italy
fDate :
12/1/2002 12:00:00 AM
Abstract :
The low-voltage power capabilities of a low-cost high-performance silicon bipolar process were investigated. By optimizing the emitter finger layout, epilayer thickness, and collector doping level, efficiency values up to 83% were achieved by on-wafer load-pull measurements on a single-cell test device operating at 1.8 GHz and 2.7-V power supply. The detrimental effect of the emitter distributed resistance on the current capability of long-emitter bipolar transistors was also considered.. An analytical model for a proper device design was derived and experimentally validated. Using the optimized unit power device, a 1.8-GHz 2.7-V three-stage monolithic power amplifier was implemented, which provides a 57% power-added efficiency and a 33-dB gain while delivering a 34-dBm output power to the load.
Keywords :
UHF power amplifiers; bipolar transistors; elemental semiconductors; low-power electronics; silicon; 1.8 GHz; 2.7 V; 33 dB; 57 percent; 83 percent; DC current capability; Si; emitter distributed resistance; low-voltage operation; on-wafer load-pull measurement; power-added efficiency; silicon bipolar power amplifier; three-stage monolithic RF power amplifier; Doping; Electrical resistance measurement; Fingers; High power amplifiers; Power amplifiers; Power measurement; Power supplies; Silicon; Testing; Thickness measurement;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2002.805189
