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Modeling of Classical Channel Hot Electron Degradation in n-MOSFETs Using TCAD
Journal
IEEE Transactions on Electron Devices
ISSN
00189383
Date Issued
2022-07-01
Author(s)
Diwakar, Himanshu
Thakor, Karansingh
Mahapatra, Souvik
Abstract
A technology CAD (TCAD) setup is used to calculate the channel hot electron (CHE) induced parametric drift in n-MOSFETs. The setup uses reaction-diffusion-drift model and utilizes carrier energy, vertical electric field, and lattice temperature effects, to calculate the time kinetics of trap generation and its impact on the device parametric drift. Experimental data from published reports, measured using different probes, for midgate bias stress under varying drain bias ( \sim 3 -8 V) and temperature (0 °C-100 °C) are modeled, in classical devices having different channel lengths (2.0- 0.3~\mu \text{m} ) and oxide thicknesses (35-5 nm). The impact of device dimension scaling on the spatial distribution of generated traps and their impact on the device parametric drift are discussed.
Subjects