Novel Pseudo-Drain (PD) RF power cell in 0.13 um CMOS technology

This paper proposes a cost-effective RF power cell manufactured in an advanced 0.13 um CMOS technology. Without adding additional masks, cost, and process, the power performance can be improved just by using the standard N-well and shallow-trench-isolation processes to form a higher resistive region. This ldquoPseudo-Drainrdquo structure increases the breakdown voltage to more than 4.3V and is higher than the value of 2.5V of the standard 0.13 um core-MOS transistor. This transistor exhibits a high f_TtimesBV_DS product of 352 for CMOS power FETs. Cutoff frequency and maximum oscillation frequency of 83 GHz and 124 GHz were achieved at a drain bias of 1.2V, respectively; while the maximum power gain, output power and power-added efficiency were 25.6 dB, 19 dBm, and 55%, respectively. Good RF linearity and noise figure were also obtained, as demonstrated by an OIP3 and NF_min of 28.32 dBm and 0.4 dB. The presented RF power transistor is cost effective and can be used for power amplifier integration in RF-CMOS SOC.