Voltage dependence of hard breakdown growth and the reliability implication in thin dielectrics

Hard breakdown (HBD) is shown to be a gradual process with the gate current increasing at a predictable rate exponentially dependent on the instantaneous stress voltage and oxide thickness. This is contrary to conventional wisdom that maintains that HBD is a fast thermally driven process. The HBD degradation rate (DR) for a 15 /spl Aring/ oxide scales from >1 mA/s at 4 V to <1 nA/s at 2 V, extrapolating to <10 fA/s at use voltage. Adding the HBD evolution time to the standard time-to-breakdown potentially reduces the projected fail rate of gate dielectrics by orders of magnitude.

[1]  Salvatore Lombardo,et al.  Reduction of thermal damage in ultrathin gate oxides after intrinsic dielectric breakdown , 2001 .

[2]  Kenji Okada,et al.  New Dielectric Breakdown Model of Local Wearout in Ultra Thin Silicon Dioxides , 1995 .

[3]  M. Kerber,et al.  Soft breakdown and hard breakdown in ultra-thin oxides , 2001, Microelectron. Reliab..

[4]  D. Jimenez,et al.  Understanding soft and hard breakdown statistics, prevalence ratios and energy dissipation during breakdown runaway , 2001, International Electron Devices Meeting. Technical Digest (Cat. No.01CH37224).

[5]  D. Frank,et al.  Transistor-limited constant voltage stress of gate dielectrics , 2001, 2001 Symposium on VLSI Technology. Digest of Technical Papers (IEEE Cat. No.01 CH37184).

[6]  D. Hwang,et al.  Ultra-thin gate dielectrics: they break down, but do they fail? , 1997, International Electron Devices Meeting. IEDM Technical Digest.

[7]  Kenji Okada,et al.  Extended Time Dependent Dielectric Breakdown Model Based on Anomalous Gate Area Dependence of Lifetime in Ultra Thin Silicon Dioxides , 1997 .

[8]  R. Degraeve,et al.  Reliability: a possible showstopper for oxide thickness scaling? , 2000 .

[9]  E. Vandamme,et al.  Impact of MOSFET gate oxide breakdown on digital circuit operation and reliability , 2000 .

[10]  G. Pananakakis,et al.  Wear-out, breakdown occurrence and failure detection in 18-25 Å ultrathin oxides , 2001, Microelectron. Reliab..

[11]  K. Okada The gate oxide lifetime limited by `B-mode' stress induced leakage current and the scaling limit of silicon dioxides in the direct tunnelling regime , 2000 .

[12]  J. Stathis,et al.  Reliability projection for ultra-thin oxides at low voltage , 1998, International Electron Devices Meeting 1998. Technical Digest (Cat. No.98CH36217).

[13]  E. Vandamme,et al.  Impact of MOSFET oxide breakdown on digital circuit operation and reliability , 2000, International Electron Devices Meeting 2000. Technical Digest. IEDM (Cat. No.00CH37138).

[14]  Stephan A. Cohen,et al.  Gate oxide breakdown under Current Limited Constant Voltage Stress , 2000, 2000 Symposium on VLSI Technology. Digest of Technical Papers (Cat. No.00CH37104).

[15]  Okada A New Dielectric Breakdown Mechanism In Silicon Dioxides , 1997, 1997 Symposium on VLSI Technology.