Threshold voltage instability in 4H-SiC MOSFETs was investigated by means of combined cyclic gate bias stress measurements and single gate bias point measurements. This allowed to separate the contributions of interface states (Nit) and near interface oxide traps (NIOTs) in the nitridated deposited gate oxides. Nanoscale chemical analyses by electron energy loss spectroscopy allowed to correlate these trapping states to the presence of a sub-stoichiometric silicon oxide (~1 nm) and carbon-related defects (<1 nm) on different SiO2/4H-SiC interfaces In particular, the sub-stoichiometric silicon oxide was correlated to the interface states and the carbon-related defects have been correlated to the NIOTs.
SiO2/4H-SiC interfacial chemistry as origin of the threshold voltage instability in power MOSFETs
Fiorenza, P.;Bongiorno, C.;Giannazzo, F.;Roccaforte, F.
2022
Abstract
Threshold voltage instability in 4H-SiC MOSFETs was investigated by means of combined cyclic gate bias stress measurements and single gate bias point measurements. This allowed to separate the contributions of interface states (Nit) and near interface oxide traps (NIOTs) in the nitridated deposited gate oxides. Nanoscale chemical analyses by electron energy loss spectroscopy allowed to correlate these trapping states to the presence of a sub-stoichiometric silicon oxide (~1 nm) and carbon-related defects (<1 nm) on different SiO2/4H-SiC interfaces In particular, the sub-stoichiometric silicon oxide was correlated to the interface states and the carbon-related defects have been correlated to the NIOTs.| File | Dimensione | Formato | |
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