双极晶体管的h/sub FE/不稳定性和1/f噪声

28th Annual Proceedings on Reliability Physics Symposium Pub Date : 1990-03-27 DOI:10.1109/RELPHY.1990.66103

Z. Yiqi, S. Qing

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引用次数: 2

摘要

讨论了NPN硅平面晶体管的一系列高温贮存和电老化加速寿命试验。实验结果表明，在低电流条件下，电流增益h/sub FE/随时间增加，其漂移与晶体管中初始测量的1/f噪声相关。相对漂移δ h/sub FE//h/sub FE/与1/f噪声谱密度Si/sub B/(f)的相关系数远大于δ h/sub FE//h/sub FE/与其他初始直流参数的相关系数。讨论了一种能较好地解释试验中h/sub - FE/漂移特性的定量理论。该模型证明了h/sub FF/漂移和1/f噪声可以归因于同一物理来源。两者都是由Si- sio /sub - 2/界面附近的载流子陷阱调制导致Si表面复合引起的。因此，1/f噪声测量可以作为一种快速、无损的工具来预测双极晶体管的h/sub FE/不稳定性。

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h/sub FE/ instability and 1/f noise in bipolar transistors

A series of accelerated life tests, with high-temperature storage and electric ageing, for NPN silicon planar transistors is discussed. It was found that at low current the current gain h/sub FE/ increases with time during the tests, and its drift is correlated with initial measured 1/f noise in the transistors. The correlation coefficient of relative drift Delta h/sub FE//h/sub FE/ and 1/f noise spectral density Si/sub B/(f) is far larger than that of Delta h/sub FE//h/sub FE/ and other initial DC parameters. A quantitative theory for the h/sub FE/ drift which can satisfactorily explain the h/sub FE/ drift characteristics in the tests is discussed. The model proves that h/sub FF/ drift and 1/f noise can be attributed to the same physical origin. Both are caused by the modulation of carrier traps near the Si-SiO/sub 2/ interface leading to Si surface recombination. 1/f noise measurement, therefore, can be used as a fast and nondestructive tool to predict h/sub FE/ instability of bipolar transistors.<>

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28th Annual Proceedings on Reliability Physics Symposium

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