Study and assessment of defect and trap effects on the current capabilities of a 4h-sic-based power mosfet

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Abstract

A numerical simulation study accounting for trap and defect effects on the current-voltage characteristics of a 4H-SiC-based power metal-oxide-semiconductor field effect transistor (MOSFET) is performed in a wide range of temperatures and bias conditions. In particular, the most penalizing native defects in the starting substrate (i.e., EH6/7 and Z1/2) as well as the fixed oxide trap concentration and the density of states (DoS) at the 4H-SiC/SiO2 interface are carefully taken into account. The temperature-dependent physics of the interface traps are considered in detail. Scattering phenomena related to the joint contribution of defects and traps shift the MOSFET threshold voltage, reduce the channel mobility, and penalize the device current capabilities. However, while the MOSFET on-state resistance (RON) tends to increase with scattering centers, the sensitivity of the drain current to the temperature decreases especially when the device is operating at a high gate voltage (VGS). Assuming the temperature ranges from 300 K to 573 K, RON is about 2.5 MΩ·µm2 for VGS > 16 V with a percentage variation ΔRON lower than 20%. The device is rated to perform a blocking voltage of 650 V.

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Pezzimenti, F., Bencherif, H., De Martino, G., Dehimi, L., Carotenuto, R., Merenda, M., & Della Corte, F. G. (2021). Study and assessment of defect and trap effects on the current capabilities of a 4h-sic-based power mosfet. Electronics (Switzerland), 10(6), 1–17. https://doi.org/10.3390/electronics10060735

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