Title :
A Technique for Device Stress Relief in CMOS Class-E RF Power Amplifiers
Author :
Wang, Xin ; Kang, Chih-Kai ; Gharpurey, Ranjit
Author_Institution :
Dept. of Electr. & Comput. Eng., Texas Univ., Dallas, TX
Abstract :
Class-E power amplifiers are widely used especially for constant envelope modulation applications due to their high efficiency even for switching signals with slow rise/fall edges. However, they have been rarely used in CMOS process for very high power levels, resulting from their intrinsic poorer power output capability. In this paper, we propose a unique way to control the drain voltage stress of the active switch device when the rise/fall edges of the driving signal occupy a significant portion of the switching cycle. Our approach employs internal signals within a differential amplifier by inserting a transformer between the two active device branches. Depending on specific process and power supply levels, the stress can be relieved up to more than 20%, which gives significant room for either higher power level and efficiency or using faster (and therefore easier to breakdown) devices
Keywords :
CMOS integrated circuits; differential amplifiers; power amplifiers; radiofrequency amplifiers; voltage control; CMOS class-E RF power amplifiers; active switch device; device stress control; device stress relief; differential amplifier; drain voltage stress control; transformer action; voltage clamp; CMOS process; Differential amplifiers; High power amplifiers; Power amplifiers; Power supplies; Radio frequency; Radiofrequency amplifiers; Stress control; Switches; Voltage control; Class-E; RF power amplifier; device stress control; transformer action; voltage clamp;
Conference_Titel :
Design, Applications, Integration and Software, 2006 IEEE Dallas/CAS Workshop on
Conference_Location :
Richardson, TX
Print_ISBN :
1-4244-0670-6
Electronic_ISBN :
1-4244-0670-6
DOI :
10.1109/DCAS.2006.321046
