K. Chui, W. Loh, Xiangy-Yu Wang, Zhaohui Chen, Mingbin Yu
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引用次数: 2
摘要
由于Si和Cu之间的热膨胀系数(CTE)的巨大不匹配,在Cu填充的Through Silicon Via (TSV)周围的晶体Si区域产生了显著的应力。因此,在应力Si区域内制造的CMOS器件将在其电气性能上显示出不希望的变化。本文报道了一种通过形成嵌入式气隙来隔离有源CMOS器件tsv诱导应力的新方法。由于气隙嵌入在硅中,因此可以在不影响可用硅面积的情况下进行应力隔离。气隙的形成已经在脱氧环境中用高温退火实验证明了。在嵌入气隙的情况下,Si晶格中的应力减小将通过热机械应力模拟进行研究。对气隙设计的影响也进行了讨论。
A Novel Method for Air-Gap Formation around Via-Middle (VM) TSVs for Effective Reduction in Keep-Out Zones (KOZ)
Significant stress is induced in the crystalline Si area around a Cu-filled Through Silicon Via (TSV) due to the large mismatch in the co-efficient of thermal expansion (CTE) between Si and Cu. As a result, CMOS devices fabricated within the stressed Si region will show undesired variations in their electrical performance. This paper reports a novel method to isolate the TSV-induced stress from active CMOS devices through the formation of embedded air-gaps. As the air-gaps are embedded in the Si, stress isolation can be done without compromising on the usable Si area. Formation of the air-gaps have been demonstrated experimentally using a high temperature anneal in a de-oxidizing ambient. Stress reduction in the Si lattice, in the presence of the embedded air-gaps, will be studied through thermo-mechanical stress simulation. Effect of the impact of air-gap design will also be discussed.
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