مرکز منطقه ای اطلاع رساني علوم و فناوري - ESD protection in fully-depleted CMOS/SIMOX with a tungsten-clad source/drain

DocumentCode :

2708225

Title :

ESD protection in fully-depleted CMOS/SIMOX with a tungsten-clad source/drain

Author :

Koizumi, Hiroshi ; Komine, Yukio ; Ohtomo, Yusuke ; Shimaya, Masakazu

Author_Institution :

NTT Telecommun. Energy Labs., Kanagawa, Japan

fYear :

2000

fDate :

26-28 Sept. 2000

Firstpage :

260

Lastpage :

265

Abstract :

The effect of a tungsten (W) clad source/drain on the electrostatic discharge (ESD) protection in fully-depleted CMOS/SIMOX devices was studied. The ESD failure voltage based on the human-body model (HBM) in a CMOS input circuit was measured for three types of clad W-layer layouts. High ESD immunity of 4000 V was obtained for the fully-W-clad layout when the threshold voltage was less than 0.24 V and the threshold voltage dependence was observed. The blocked layout of the clad W layer provided an ESD protection level of over 3500 V at varied threshold voltages. A gapped W-layer layout provided 3000 V level immunity while keeping the resistance of the gate electrode low for high-speed operation in the output buffer. Based on these results, an optimized layout for the W layer in fully-depleted SOI technology is presented.

Keywords :

CMOS integrated circuits; SIMOX; circuit optimisation; electrostatic discharge; failure analysis; integrated circuit interconnections; integrated circuit layout; integrated circuit measurement; integrated circuit metallisation; protection; tungsten; 0.24 V; 3.5 kV; 3000 V; 4 kV; CMOS input circuit; ESD failure voltage; ESD immunity; ESD protection; ESD protection level; HBM; Si-SiO/sub 2/; W; W-clad source/drain; blocked layout; clad W layer; clad W-layer layouts; electrostatic discharge protection; fully-W-clad layout; fully-depleted CMOS/SIMOX; fully-depleted CMOS/SIMOX devices; fully-depleted SOI technology; gapped W-layer layout; gate electrode resistance; high-speed operation; human-body model; optimized W layer layout; output buffer; threshold voltage; threshold voltage dependence; tungsten-clad source/drain; CMOS technology; Circuits; Electrodes; Electrostatic discharge; Protection; Semiconductor device modeling; Silicon; Thermal conductivity; Threshold voltage; Tungsten;

fLanguage :

English

Publisher :

ieee

Conference_Titel :

Electrical Overstress/Electrostatic Discharge Symposium Proceedings 2000

Conference_Location :

Anaheim, CA, USA

Print_ISBN :

1-58537-018-5

Type :

conf

DOI :

10.1109/EOSESD.2000.890085

Filename :

890085

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=2708225