Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
541093 | Microelectronic Engineering | 2016 | 8 Pages |
•The hot-carrier degradation of nanoscale UTBB FD-SOI n-MOSFETs has been investigated under different drain and gate bias stress conditions.•The degradation mechanisms have been identified by studying the static current-voltage characteristics measurements.•The impact of the HC degradation on the device parameters has been expressed with semi-empirical models in terms of the stress time, channel length, drain bias and gate bias.•Based on our analytical compact model, HC aging model is proposed enabling to predict the device degradation stressed under different bias conditions, using a unique set of few model parameters determined for each technology through measurements.
A detailed study of the hot-carrier degradation in nano-scale fully depleted ultra-thin body and buried oxide n-MOSFETs is presented. The degradation mechanisms were identified based on static current–voltage measurements. The degradation of the transistor was explained by considering generation of traps at the gate dielectric/Si interface and traps located within a tunneling distance of the interface. All stress parameters are considered describing with semi-empirical relations their impact on the transistor parameters. Based on our analytical compact model, we propose an aging hot-carrier model predicting with good accuracy the device degradation stressed under different bias conditions using a unique set of model parameters.
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