AC hot carrier lifetimes in oxide and ROXNOX N-channel MOSFET´s

Author

Mistry, K.R. ; Doyle, B.S. ; Philipossian, A. ; Jackson, D.B.

Author_Institution

Digital Equipment Corp., Hudson, MA, USA

fYear

1991

fDate

8-11 Dec. 1991

Firstpage

727

Lastpage

730

Abstract

A recently developed model for AC hot carrier degradation is extended to low-temperature operation as well as to ROXNOX (reoxidized nitrided oxide) dielectrics. Three hot carrier damage mechanisms are incorporated into the model: interface states and oxide electron traps created at low gate voltages, interface states created at medium gate voltages, and oxide electron traps created at high gate voltages. It is shown that the quasi-static contributions of these three mechanisms fully account for hot-carrier degradation under AC stress. The model is shown to be valid at 173 K and 295 K for both typical and worst-case AC stress waveforms found in CMOS circuits. It is also shown to be valid for ROXNOX MOSFETs.<>

Keywords

CMOS integrated circuits; dielectric thin films; hot carriers; insulated gate field effect transistors; reliability; 173 K; 295 K; AC hot carrier degradation; AC hot carrier lifetimes; AC stress; AC stress waveforms; CMOS circuits; ROXNOX MOSFETs; high gate voltages; hot carrier damage mechanisms; interface states; low gate voltages; low-temperature operation; medium gate voltages; model; nMOSFETs; oxide electron traps; quasi-static contributions; reoxidized nitrided oxide; Circuits; Degradation; Dielectrics; Electron traps; Hot carriers; Interface states; Low voltage; Medium voltage; Semiconductor device modeling; Stress;

fLanguage

English

Publisher

ieee

Conference_Titel

Electron Devices Meeting, 1991. IEDM '91. Technical Digest., International

Conference_Location

Washington, DC, USA

ISSN

0163-1918

Print_ISBN

0-7803-0243-5

Type

conf

DOI

10.1109/IEDM.1991.235320

Filename

235320