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Single-Event Burnout Hardening Method and Evaluation in SiC Power MOSFET Devices

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In this article, a method of single-event burnout (SEB) hardening at high linear energy transfer (LET) value range is proposed and investigated by the 2-D numerical simulations. The improved MOSFET… Click to show full abstract

In this article, a method of single-event burnout (SEB) hardening at high linear energy transfer (LET) value range is proposed and investigated by the 2-D numerical simulations. The improved MOSFET using this method and the conventional MOSFET are analyzed and compared to evaluate the effectiveness of this method. Simulation results show that, compared with the conventional MOSFET, the improved MOSFET using this method can effectively and quickly reduce the internal high electric field, thereby reducing the temperature. Under the condition of a LET value of 0.5 pC/ $\mu \text{m}$ and a drain voltage of 1200 V, the maximum drain current is 0.168 A, and the maximum global device temperature is 1724 K, which is much lower than the melting down temperature of silicon carbide (SiC) (3100 K). The hardening method in this article can be applied to different breakdown voltages by adjusting structure parameters.

Keywords: devices single; hardening method; single event; mosfet; event burnout

Journal Title: IEEE Transactions on Electron Devices
Year Published: 2020

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