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引用次数: 6
摘要
SiC VDMOSFET是航天器供电系统中一种重要的功率器件。然而,它很容易受到空间辐射粒子的影响,造成灾难性的单次烧毁(SEB)。本文给出了SiC VDMOSFET中SEB失效机理、影响因素和SEB最敏感区域的二维数值模拟结果。结果表明,当碰撞电离产生的瞬态电流足够大时,就会发生SEB。瞬态电流的大小与入射点、线性能量转移(LET)和漏极电压有关。SEB的发生随着LET和漏极电压的增加而增加。栅极中间是4H-SiC VDMOSFET中对SEB最敏感的区域。
Study on single-event burnout of SiC VDMOSFET: failure mechanism and influence factors
SiC VDMOSFET is a kind of significant power device in the supply system of spacecraft. However, it is very susceptible to space radiation particles causing catastrophic single-event burnout (SEB) occurred. In this paper, we present the 2D numerical simulation results of the SEB failure mechanism, influence factors and the most sensitive region to SEB in SiC VDMOSFET. The results show that when the transient current generated by collision ionization is large enough the SEB will occur. The magnitude of the transient current is related to the incident point, linear energy transfer (LET) and drain voltage. The occurrence of SEB increases with the LET and the drain voltage. The middle of the gate is the most sensitive region to SEB in 4H-SiC VDMOSFET.
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