利用衬底热空穴注入技术分别控制注入到薄栅氧化层中的热电子和空穴量,对相关击穿电荷进行了测试和研究。
Charge to breakdown of the thin gate oxides was tested and investigated by controlling the amounts of injected hot electrons and holes separately with substrate hot holes injection method.
结果表明这种结构具有高的击穿电压、低的导通电阻和漂移区中电荷平衡的特点。
The new structure features high breakdown voltage, low on-resistance , and charge balance in the drift region.
根据电流传输机构,本文提出一种考虑了电荷积累、陷阱密度及其重心位置的击穿模型。
According to the mechanism of current transport, we suggest a breakdown model in which charge accumulation, trapping density and position of its center of gravity are all considered.
实验结果表明,空间电荷在固体介质的预击穿过程中起重要作用。
Experimental results show that space charges play an important role in the Pre-breakdown of solid dielectrics.
结果表明,电介质的击穿并不总是发生在电荷的注入过程中,也可以发生在空间电荷的脱阱过程中。
The experimental results show that not only space charge injection but its detrapping also makes samples breakdown.
最后根据树枝化击穿试验结果,分析讨论了空间电荷对发散电场的影响。
On the basis of experiment of electrical tree initiation, the effects of space charges on divergent fields are discussed.
文中对比现象作了,探讨认为它起因于准击穿时跃变空间电荷场的逆压电效应。
It is caused by the strain effect of crystal induced from jumped space change field.
文中对比现象作了,探讨认为它起因于准击穿时跃变空间电荷场的逆压电效应。
It is caused by the strain effect of crystal induced from jumped space change field.
应用推荐