Title :
Linearization of CMOS Broadband Power Amplifiers Through Combined Multigated Transistors and Capacitance Compensation
Author :
Lu, Chao ; Pham, Anh-Vu H. ; Shaw, Michael ; Saint, Christopher
Author_Institution :
NXP Semicond. USA Inc., San Jose
Abstract :
We present the development of a device-level linearization technique and its applications in broadband power amplifiers (PAs). The proposed topology firstly combines derivative transconductance superposition method and gate capacitance compensation technique, and creates a "sweet region" for suppressing third-order intermodulation (IM3) without the penalty of large power consumption. The effectiveness of the proposed technique has been demonstrated through a fully integrated distributed amplifier. The experimental results in 0.18-mum RF CMOS technology show that IM3 is improved by 11 dB. The achievable power-added efficiency is up to 25%, which is the highest among the broadband CMOS PAs reported thus far. The amplifier achieves a measured 3-dB bandwidth of 3.7-8.8 GHz, and a gain of 8.24 dB. The amplifier only consumes 154-mW dc power, and the measured saturation power (Psat) is 19 dBm.
Keywords :
CMOS analogue integrated circuits; distributed amplifiers; linearisation techniques; microwave power amplifiers; wideband amplifiers; CMOS analog integrated circuits; CMOS broadband power amplifiers; RF CMOS technology; derivative transconductance superposition; device-level linearization; distributed amplifier; gain 8.24 dB; gate capacitance compensation; linearization techniques; multigated transistors; power 154 mW; size 0.18 mum; third-order intermodulation suppression; CMOS analog integrated circuits; distributed amplifiers; linearization techniques; power amplifiers (PAs);
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2007.907734
