晶闸管雷电浪涌保护装置浪涌响应的二维分析

8th International Symposium on Power Semiconductor Devices and ICs. ISPSD '96. Proceedings Pub Date : 1996-05-20 DOI:10.1109/ISPSD.1996.509496

H. Satoh, Y. Shimoda

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引用次数: 7

摘要

采用二维数值模拟方法，研究了影响晶闸管雷电浪涌保护装置处理浪涌能力的浪涌响应动力学。最大的功耗出现在开基极雪崩晶体管的导通时。功率耗散随着输入浪涌的增大而增加几个数量级。另一方面，由于场辅助效应，导通时间较短，变化小于一个数量级。因此，随着输入浪涌的增加，能量耗散增加，能量耗散转化为自热，影响浪涌处理能力。对于基极宽度窄、基片薄、载流子寿命长的开基极雪崩晶体管而言，快速开关时间是提高处理浪涌能力的有效方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Two-dimensional analysis of surge response in thyristor lightning surge protection devices

The dynamics of surge response, which influences surge-handling capability, for thyristor lightning surge protection devices were investigated by a two-dimensional numerical device simulation. Maximum power dissipation appears in the open-base avalanche transistor operation at turn-on. The power dissipation increases by a few orders of magnitude with increase in the input surge. On the other hand, turn-on time is shorter and changes by less than one order of magnitude, caused by the field-aiding effect. As a result, the energy dissipation, which converts to self-heating and influences surge-handling capability, increases with increase in the input surge. To improve surge-handling capability by designing for low energy dissipation, fast switching time is effective for the open-base avalanche transistor which has narrow base width and uses a thin substrate with large carrier lifetime.

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8th International Symposium on Power Semiconductor Devices and ICs. ISPSD '96. Proceedings

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