Dependence of HCI mechanism on temperature for 0.18 μm technology and beyond

Author

Wang, Weizhong ; Tao, Jiang ; Fang, Peng

Author_Institution

Technol. Dev. Group, AMD, Sunnyvale, CA, USA

fYear

1999

fDate

6/21/1905 12:00:00 AM

Firstpage

66

Lastpage

68

Abstract

We have studied the temperature impact on the substrate current. For both NMOS and PMOS, the peak substrate current increases with the temperature at low drain bias. An analytical model was proposed to explain this result. More important, the HCI degradation under different temperatures was studied. The NMOS HCI degradation mechanism still follows the lucky electron model, while PMOS HCI degradation is faster at higher temperature for the same peak substrate current. The RO AC HCI test shows little change due to temperature impact. This is because NMOS degrades much faster than PMOS

Keywords

MOS integrated circuits; MOSFET; carrier lifetime; hot carriers; integrated circuit reliability; 125 degC; 25 degC; 85 degC; NMOS; PMOS; analytical model; drain bias; hot carrier injection; lucky electron model; substrate current; Analytical models; Degradation; Human computer interaction; Kinetic energy; Life estimation; MOS devices; Ocean temperature; Stress; Temperature dependence; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Integrated Reliability Workshop Final Report, 1999. IEEE International

Conference_Location

Lake Tahoe, CA

Print_ISBN

0-7803-5649-7

Type

conf

DOI

10.1109/IRWS.1999.830560

Filename

830560