Title :
Reverse-order source/drain formation with double offset spacer (RODOS) for low-power and high-speed application
Author :
Choi, Woo Young ; Choi, Byung-Yong ; Woo, Dong-Soo ; Lee, Jong Duk ; Park, Byung-Gook
Author_Institution :
Inter-Univ. Semicond. Res. Center, Seoul Nat. Univ., South Korea
Abstract :
We proposed "reverse-order source/drain formation with double offset spacer" (RODOS) structure for low-power and high-speed applications. Both simulation and experimental data were used to evaluate the potential of the structure. It showed improved performance in terms of poly-depletion effect, dc characteristics, gate delay (CV/I), switching energy (CV2) and linearity (VIP3). It satisfied all the requirements of LOP and LSTP for 90 nm technology node in ITRS 2002. Simulation predicted 794 μA/μm in on-current, 0.1 nA/μm in off-current, 65 mV/V in DIBL, 80 mV/dec in SS, 1.29 ps in gate delay, 198 GHz in fT and 0.151 fJ in switching energy in addition to enhanced linearity. Finally, we confirmed the high feasibility and potential of the RODOS MOSFET\´s for low-power and high-speed applications such as an LNA in portable communication appliances.
Keywords :
MOSFET; semiconductor device models; 1.29 ps; 198 GHz; 90 nm; 90 nm technology node; LNA; RODOS structure; dc characteristics; double offset spacer; gate delay; high-speed application; linearity; low-power; poly-depletion effect; portable communication appliances; reverse-order source/drain formation; switching energy; CMOS technology; Communication switching; Degradation; Delay effects; Doping profiles; Ion implantation; Linearity; MOSFET circuits; Predictive models; Silicon;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2003.820805
