Modeling and characterization of hot-carrier stress degradation in power MOSFETs (invited)

Author

Reggiani, S. ; Gnani, Elena ; Gnudi, A. ; Baccarani, G. ; Poli, S. ; Wise, R. ; Chuang, M.Y. ; Tian, Wei ; Denison, M.

Author_Institution

DEI, Univ. of Bologna, Bologna, Italy

fYear

2013

fDate

16-20 Sept. 2013

Firstpage

91

Lastpage

94

Abstract

Power device reliability is one of the key challenges of next generation Smart-Power technologies. As a consequence, device performance needs to be optimized accounting for hot-carrier stress degradation issues. To this purpose, numerical simulation tools are commonly used, but the TCAD modeling of performance drifts due to electrical stress is still an open issue. Physics-based analytical models and TCAD based approaches have been proposed and devised for the investigation of the parameter degradation in the linear transport regime and its localization in STI-based LDMOS devices. A thorough investigation of the degradation under high-gate stress biases, corresponding to impact-ionization regimes, is carried out to gain an insight on the overall bias and temperature dependence of the parameter drifts.

Keywords

hot carriers; impact ionisation; power MOSFET; semiconductor device models; semiconductor device reliability; technology CAD (electronics); STI-based LDMOS devices; TCAD based approaches; TCAD modeling; electrical stress; high-gate stress biases; hot-carrier stress degradation; impact-ionization regimes; linear transport regime; next generation smart-power technologies; numerical simulation tools; parameter degradation; parameter drifts; physics-based analytical models; power MOSFETs; power device reliability; temperature dependence; Analytical models; Degradation; Hot carriers; MOSFET; Numerical models; Stress;

fLanguage

English

Publisher

ieee

Conference_Titel

Solid-State Device Research Conference (ESSDERC), 2013 Proceedings of the European

Conference_Location

Bucharest

Type

conf

DOI

10.1109/ESSDERC.2013.6818826

Filename

6818826