受高频连续波和脉冲调制正弦信号影响的分立低频晶体管

2013 9th International Workshop on Electromagnetic Compatibility of Integrated Circuits (EMC Compo) Pub Date : 2013-12-01 DOI:10.1109/EMCCOMPO.2013.6735204

S. Jarrix, J. Raoult, A. Doridant, C. Pouant, P. Hoffmann

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引用次数: 1

摘要

离散的低频双极晶体管受到两种类型的干扰:连续波和脉冲调制正弦信号。为了研究集成电路的电磁抗扰度，器件在低电流水平上存在偏置。特定的干扰频带会引起晶体管输出电压的变化，即使频率值超出器件的工作频带。在连续波信号注入下得到的分析结果强调了整流和交流电流拥挤的物理现象的存在。脉冲调制正弦表明，干扰平均功率的幅值影响输出电压偏置的值。可以改变脉冲干扰的参数来修改晶体管的瞬态响应。

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Discrete low-frequency transistors subjected to high-frequency CW and pulse-modulated sine signals

Discrete low-frequency bipolar transistors are subjected to two types of interferences: CW (continuous wave) and pulsed modulated sine signal. In the goal to study the electromagnetic immunity of integrated circuits, devices are biased at low current level. Specific interference frequency bands induce changes in the transistor output voltage, even with frequency values out of band of operation of the devices. Analysis of results obtained under CW signal injection highlights the presence of physical phenomena of rectification and ac current crowding. Pulse-modulated sines show that the amplitude of the interference mean power influences the value of the output voltage offset. Parameters of the pulse interference can be changed to modify the transient response of the transistor.

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2013 9th International Workshop on Electromagnetic Compatibility of Integrated Circuits (EMC Compo)

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