Oxide reliability of drain engineered I/O NMOS from hot carrier injection

The impact of hot carrier stress on the breakdown properties of I/O NMOS gate oxide is reported. I/O NMOS devices with drain structures using standard LDD with pocket (S-LDD) and graded LDD without pocket (G-LDD) are used. Time-dependent (TDDB) and voltage-ramp (VRDB) dielectric breakdown tests are performed for devices with and without hot-carrier-injection. It is demonstrated that both I/O structures show similar oxide integrity after hot carrier injection (HCI) when the Idsat degradation is small (<5%), but show significantly different oxide lifetimes when the Idsat degradation is high (>5%). At 10% I/sub dsat/ degradation, the oxide lifetime for the G-LDD structure is reduced by about a factor of 10 compared to that of the S-LDD structure. The correlation between oxide integrity and leakage current indicates that the oxide charge introduced by HCI stress is the reason for oxide degradation. This work clearly demonstrates that the effect of hot carrier induced oxide damage must be included when predicting the oxide lifetimes of advanced I/O NMOS devices.