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

Volume

2

Issue

4

fYear

2003

Firstpage

210

Lastpage

216

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 (V_IP3). 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 f_T 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;

fLanguage

English

Journal_Title

Nanotechnology, IEEE Transactions on

Publisher

ieee

ISSN

1536-125X

Type

jour

DOI

10.1109/TNANO.2003.820805

Filename

1264871