Impact of Cu diffusion from Cu through-silicon via (TSV) on device reliability in 3-D LSIs evaluated by transient capacitance measurement

2012 IEEE International Reliability Physics Symposium (IRPS) Pub Date : 2012-04-15 DOI:10.1109/IRPS.2012.6241777

Kang-wook Lee, J. Bea, Y. Ohara, T. Fukushima, T. Tanaka, M. Koyanagi

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引用次数: 17

Abstract

The influence of Cu contamination from Cu through-silicon via (TSV) on device reliability in the 3-D LSI was electrically evaluated by capacitance-time (C-t) measurement. The Cu/Ta gate trench capacitors with two types of Ta barrier layers of 10-nm and 100-nm thicknesses (at the wafer surface) were fabricated. The C-t curves of the trench capacitors with 10-nm thick Ta layer were severely degraded even after the initial annealing for 5min. It means that Cu atoms diffuse into the active area from the Cu TSV through scallop portions with extremely thin Ta layer in TSVs, and consequently, the generation lifetime of minority carrier is significantly reduced. Meanwhile, the C-t curves of the trench capacitors with 100-nm thick Ta layer exhibit no change after annealing up to 60min at 300°C, but show significant degradation after the initial annealing for 5min at 400°C. The C-t analysis is a useful method to electrically characterize the influence of Cu contamination from the Cu TSV on device reliability in fabricated LSI wafers.

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用瞬态电容测量方法评估Cu - through-silicon孔(TSV)扩散对三维lsi器件可靠性的影响

采用电容-时间(C-t)测量方法，对Cu - through-silicon孔(TSV)中Cu污染对三维LSI器件可靠性的影响进行了电学评价。制备了两种厚度分别为10nm和100nm的Cu/Ta栅极沟槽电容器。10 nm厚Ta层沟槽电容器的C-t曲线在初始退火5min后也出现了严重退化。这意味着Cu原子通过TSV中Ta层极薄的扇形部分从Cu TSV扩散到有源区，从而显著降低了少数载流子的生成寿命。同时，100 nm厚Ta层沟槽电容器的C-t曲线在300℃退火60min后没有变化，但在400℃初始退火5min后，C-t曲线明显下降。C-t分析是表征Cu TSV中Cu污染对制程LSI晶圆器件可靠性影响的有效方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 IEEE International Reliability Physics Symposium (IRPS)

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