A low-resistance self-aligned T-shaped gate for high-performance sub-0.1-μm CMOS

Author

Hisamoto, Digh ; Umeda, Kazunori ; Nakamura, Yoshitaka ; Kimura, Shin Ichiro

Author_Institution

Central Res. Lab., Hitachi Ltd., Tokyo, Japan

Volume

44

Issue

6

fYear

1997

fDate

6/1/1997 12:00:00 AM

Firstpage

951

Lastpage

956

Abstract

This paper describes the high performance of T-shaped-gate CMOS devices with effective channel lengths in the sub-0.1-μm region. These devices were fabricated by using selective W growth, which allows low-resistance gates smaller than 0.1 μm to be made without requiring fine lithography alignment. We used counter-doping to scale down the threshold voltage while still maintaining acceptable short-channel effects. This approach allowed us to make ring oscillators with a gate-delay time as short as 21 ps at 2 V with a gate length of 0.15 μm. Furthermore, we experimentally show that the high circuit speed of a sub-0.1-μm gate length CMOS device is mainly due to the PMOS device performance, especially in terms of its drivability

Keywords

CMOS integrated circuits; MOSFET; delays; integrated circuit measurement; integrated circuit metallisation; ion implantation; tungsten; 0.09 mum; 0.15 mum; 2 V; 21 ps; LOCOS isolation; PMOS device performance; T-shaped-gate CMOS devices; W; counter-doping; drivability; effective channel length; gate length; gate-delay time; high circuit speed; low-resistance gates; low-resistance self-aligned T-shaped gate; ring oscillators; salicide structure; selective W growth; short-channel effects; threshold voltage scaling; Circuit testing; Electrodes; Fabrication; Impurities; Lithography; MOS devices; Parasitic capacitance; Ring oscillators; Silicides; Threshold voltage;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/16.585550

Filename

585550