强激光与粒子束, 2018, 30 (8): 083008, 网络出版: 2018-08-21   

强电磁干扰对达林顿管的损伤效应与机理

Damage effect and mechanism of Darlington tubes caused by intense electromagnetic interference
作者单位
西安电子科技大学 微电子学院, 教育部宽禁带半导体材料与器件重点实验室, 西安 710071
摘要
建立了PNP型达林顿管的二维电热模型,对处于有源放大区的达林顿管的集电极注入高功率微波(HPM)和强电磁脉冲(EMP)时的瞬态响应进行了仿真。结果表明:HPM注入下,器件内部的峰值温度呈周期性的“下降-上升”,温度升高过程发生在信号的正半周,靠近达林顿管发射极的晶体管发射结边缘是最易毁伤处;EMP注入下,其损伤机理与HPM注入时的正半周时相似,器件内部峰值温度一直上升,易毁伤部位与HPM注入时相同。得到了损伤功率阈值和损伤能量阈值与损伤脉宽的关系,这两种干扰注入下的损伤能量阈值-脉宽关系和损伤功率阈值-脉宽关系公式相似,并且在相同脉宽下,HPM注入下的损伤能量阈值大于EMP注入下的损伤能量阈值。
Abstract
A two-dimensional electron-thermal model of the PNP type Darlington tube is established, and the transient behaviors of the Darlington tube in the forward-active region are simulated with the injection of high power microwaves (HPMs) and electromagnetic pulses (EMPs) from the collector. A discussion and a comparison of the damage effects and the mechanism of the device under the injection of HPMs and EMPs are performed. The results show that temperature variation has a periodic rule of “decrease-increase” and temperature elevation occurs in the positive half-period, and the cylindrical region of base-emitter junction of the second transistor (near the emitter of the Darlington tube) is susceptible to damage when HPM signals are injected. While temperature keeps rising and the rate of increase presents a tendency of “rapid-slow” until the device burns out under the injection of EMP signals, and the damage location is the same as the damage area of HPM injection. In addition, the damage mechanism during the positive half-period of HPM injection is similar to that of EPM injection. Finally, the dependence relations of damage energy and damage power of EMPs and HPMs on pulse-width are obtained in a nanosecond range. It is demonstrated that energy threshold increase slowly while power threshold decrease with the increasing of pulse-width.

王乾坤, 柴常春, 席晓文, 杨银堂. 强电磁干扰对达林顿管的损伤效应与机理[J]. 强激光与粒子束, 2018, 30(8): 083008. Wang Qiankun, Chai Changchun, Xi Xiaowen, Yang Yintang. Damage effect and mechanism of Darlington tubes caused by intense electromagnetic interference[J]. High Power Laser and Particle Beams, 2018, 30(8): 083008.

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