Title :
Substrate-triggered GGNMOS in 65 nm CMOS process for ESD application
Author :
Song, Bo ; Han, Yi ; Li, Meng ; Dong, Shuai ; Guo, Wenyong ; Huang, Dijiang ; Ma, Fa-Jun ; Miao, Meng
Author_Institution :
Dept. of ISEE, Zhejiang Univ., Hangzhou, China
Abstract :
A novel substrate-triggered grounded-gate NMOS (GGNMOS) is verified in 65 nm CMOS silicide process. The trigger element is a PMOS controlled by the VDD bus line and no other detection circuit is needed. Compared to traditional GGNMOS, with a 50 m trigger PMOS, the trigger voltage of the single finger structure can be reduced from 7.15 to 4.97 V and it also has lower overshoot voltage. Also the ultrathin gate oxide can be effectively protected, which is very important in nanometre circuits. For the multi-finger structure, with a 30 m trigger PMOS the proposed structure showed a 15.9 reduction in trigger voltage and a 13.5 increment as to failure current compared to traditional GGNMOS.
Keywords :
MOS integrated circuits; electrostatic discharge; CMOS process; CMOS silicide process; ESD application; VDD bus line; nanometre circuits; single finger structure; size 30 mum; size 50 mum; size 65 nm; substrate-triggered GGNMOS; substrate-triggered grounded-gate NMOS; trigger PMOS; trigger voltage; ultrathin gate oxide;
Journal_Title :
Electronics Letters
DOI :
10.1049/el.2010.0205
