用于动态刺激下可靠性研究的集成测试结构

2018 IEEE 24th International Symposium on On-Line Testing And Robust System Design (IOLTS) Pub Date : 2018-07-01 DOI:10.1109/IOLTS.2018.8474074

F. Cacho, D. Nouguier, M. Arabi, X. Federspiel, Y. Carminati, M. Saliva

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引用次数: 5

摘要

先进CMOS节点的可靠性正变得非常具有挑战性。在瞬态和频率效应的情况下，静态应力可能不足以理解数字电路的可靠性。对于NBTI机制，已知基于直流应力的投影寿命终止退化是悲观的，因此准确性较差。本文提出了专门的测试结构来评估动态刺激下不同的磨损机制。首先，利用环形振荡器产生的1GHz交流信号研究了氧化物击穿。在静应力和动应力下，击穿后器件的特性有显著差异。然后，通过另一种结构，在不同占空比和频率的数据路径上显示热载流子的影响。最后，建立了一个内置的$\text{V}_{\mathbf {th}}$测量结构来研究负偏置温度的不稳定性。测量结果表明，动态刺激与直流或低频刺激相比，会产生不同的退化幅度。

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Integrated Test Structures for Reliability Investigation under Dynamic Stimuli

Reliability for advanced CMOS nodes is becoming very challenging. Static stress may not be sufficient to understand digital circuit reliability in case of transient and frequency effect. For NBTI mechanism, it is known that projection end-of-life degradation based on DC stress is pessimistic and thus poorly accurate. This paper presents dedicated test structures to evaluate different wear-out mechanisms under dynamic stimuli. Firstly, oxide breakdown is investigated with 1GHz AC signal generated by a ring oscillator. Post-breakdown devices characteristics are significantly different between static and dynamic stress. Then, with another structure, the effect of hot carrier is shown in data path with different duty cycles and frequencies. Finally, a built-in $\text{V}_{\mathbf {th}}$ measurement structure is developed to investigate the negative bias temperature instability. It was measured that dynamic stimuli results in a different degradation magnitude than DC or low frequency one.

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来源期刊

2018 IEEE 24th International Symposium on On-Line Testing And Robust System Design (IOLTS)

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