论文信息 - Secondary generated holes as a crucial component for modeling of HC degradation in high-voltage n-MOSFET

Secondary generated holes as a crucial component for modeling of HC degradation in high-voltage n-MOSFET

We propose a physics-based model for hot-carrier degradation (HCD), which is able to represent HCD observed in n-channel high-voltage MOSFETs with different channel length with a single set of physical parameters. Our approach considers not only damage produced by channel electrons but also by secondary generated channel holes. Although the contribution of the holes to the total defect creation is smaller compared to that of electrons, their impact on the linear drain current is comparable with the electronic one. The reason behind this trend is that hole-induced traps are shifted towards the source, thereby more severely affecting the device behavior.

[1] W. Marsden. I and J , 2012 .

[2] Tibor Grasser,et al. Interface traps density-of-states as a vital component for hot-carrier degradation modeling , 2010, Microelectronics and reliability.

[3] V. Huard,et al. Hot-Carrier acceleration factors for low power management in DC-AC stressed 40nm NMOS node at high temperature , 2009, 2009 IEEE International Reliability Physics Symposium.

[4] Christoph Jungemann,et al. Hierarchical Device Simulation , 2003 .

[5] Karl Hess,et al. The effects of a multiple carrier model of interface trap generation on lifetime extraction for MOSFETs , 2002 .

[6] Tibor Grasser,et al. Hot-carrier degradation caused interface state profile—Simulation versus experiment , 2011 .