快速斜坡击穿充电损伤引起的薄氧化物(3.5 nm)介电退化检测

2000 IEEE International Reliability Physics Symposium Proceedings. 38th Annual (Cat. No.00CH37059) Pub Date : 2000-04-10 DOI:10.1109/RELPHY.2000.843943

T. Hook, D. Harmon, Chuan Lin

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引用次数: 20

摘要

结果表明，在薄(6nm)氧化物中，充电损伤的主要表现是阈值电压的移动或热载流子抗扰度的降低。因此，有必要有效地监测电介质完整性和参数位移，以测量栅极氧化物小于4 nm的充电损伤技术的所有后果。我们证明了斜坡击穿方法的有效性，表明简单的电流测量不够灵敏，并且可以获得相当于长时间击穿测试的结果。此外，我们展示了来自生产线的数千个芯片的斜坡数据，这证明了现实栅极和布线天线的稳健充电行为。

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Detection of thin oxide (3.5 nm) dielectric degradation due to charging damage by rapid-ramp breakdown

It is shown that the primary manifestation of charging damage in thin (<4 nm) oxides is a degradation of dielectric integrity, while the primary manifestation of damage in thick (>6 nm) oxides is a shift in threshold voltage or the degradation of hot-carrier immunity. It is therefore necessary to effectively monitor both dielectric integrity and the parametric shifts to measure all of the consequences of charging damage on a technology with gate oxide less than 4 nm. We demonstrate the efficacy of a ramp breakdown methodology for this purpose, showing that a simple measurement of current is not sufficiently sensitive, and that results equivalent to a lengthy time-to-breakdown test may be achieved. Furthermore, we show ramp data on some thousands of chips from a manufacturing line, which demonstrates robust charging behavior for realistic gate and wiring antennas.

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2000 IEEE International Reliability Physics Symposium Proceedings. 38th Annual (Cat. No.00CH37059)

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