0.25-/spl mu/m表面沟道pMOSFET器件的热载流子退化分析

1999 International Symposium on VLSI Technology, Systems, and Applications. Proceedings of Technical Papers. (Cat. No.99TH8453) Pub Date : 1900-01-01 DOI:10.1109/VTSA.1999.786005

C.H. Liu, M.G. Chen, S. Huang-Lu, Y.J. Chang, K. Fu

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引用次数: 1

摘要

对四分之一微米级表面沟道pMOSFET器件的三种传统热载流子(HC)应力条件(即Vgs/spl ap/Vth、Vgs/spl ap/Vds//sup 2/和Vgs/spl ap/Vds)进行了研究。结果表明，Vgs/spl ap/Vth处的应力会导致最坏情况的损坏，其中已经观察到器件参数(如Idsat, Vth和gm)的“翻转”行为(据我们所知，在0.35-/spl mu/m或更长的p通道器件中没有看到这种情况)。这种转变行为可以用两步退化模型来解释(即电子捕获和电子捕获与界面状态生成之间的电荷补偿)。此外，与长通道pMOSFET器件类似，虽然主要的退化机制有所不同，但0.25-/spl mu/m pMOSFET器件的直流器件寿命应该使用栅极电流作为预测因子，而不是一些研究人员建议的衬底电流。

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Analysis of hot-carrier degradation in 0.25-/spl mu/m surface-channel pMOSFET devices

Three conventional hot-carrier (HC) stress conditions (i.e. stress at Vgs/spl ap/Vth, Vgs/spl ap/Vds//sup 2/, and Vgs/spl ap/Vds) have been studied for a quarter-micrometer level surface-channel pMOSFET devices. It is shown that stress at Vgs/spl ap/Vth results in the worst-case damage, in which a "turn-around" behavior for device parameters (such as Idsat, Vth, and gm) has been observed (this is not seen in 0.35-/spl mu/m or longer p-channel devices to the best of our knowledge). This turnaround behavior could be explained by a two-step degradation model (i.e. electron trapping and charge compensation between electron trapping and interface-state generation). Moreover, similar to long-channel pMOSFET devices though the dominant degradation mechanism is somewhat different, DC device lifetime for 0.25-/spl mu/m pMOSFET devices should be evaluated using gate current as a predictor rather than substrate current that has been suggested by some researchers.

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1999 International Symposium on VLSI Technology, Systems, and Applications. Proceedings of Technical Papers. (Cat. No.99TH8453)

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