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Structural design, process, and reliability of a wafer-level 3D integration scheme with Cu TSVs based on micro-bump/adhesive hybrid wafer bonding

机译：基于微凸块/粘合混合晶片键合的Cu TSV与Cu TSV的晶片级3D集成方案的结构设计，过程和可靠性

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In this study, a wafer-level 3D integration scheme with Cu TSVs based on Cu/Sn micro-bump and BCB adhesive hybrid bonding is demonstrated. To realize the signal transmission effects in high speed digital signaling via Cu TSV and Cu/Sn micro-joint interconnection, the insertion loss was investigated by simulation analysis with variable TSV pitches, micro-bump diameters and chip thicknesses. Key technologies include TSV fabrication, micro-bumping, hybrid scheme making, hybrid bonding, wafer thinning and backside RDL formation were well developed and integrated to perform the 3D integration scheme. 5μm TSV, 10μm micro-bump, 20μm pitch, 40μm thin wafer, and 250°C low temperature W2W hybrid bonding have been successfully integrated in the integration platform. The 3D scheme was characterized and assessed to have excellent electrical performance and reliability, and is potentially to be applied for 3D product applications.

机译：在该研究中，证明了基于Cu / Sn微凸块和BCB粘合混合粘合的Cu Tsvs的晶片级3D积分方案。为了通过Cu TSV和Cu / Sn微关节互连实现高速数字信令中的信号传输效果，通过使用可变TSV俯仰，微凸块直径和芯片厚度进行模拟分析来研究插入损耗。关键技术包括TSV制造，微凸突，混合动力车方案制造，混合粘接，晶片稀释和背面RDL形成良好的开发并集成以执行3D集成方案。 5μmTSV，10μm微凸块，20μm间距，40μm薄晶片和250°C的低温W2W混合粘合已成功集成在集成平台中。 3D方案的特征和评估具有优异的电性能和可靠性，并且可能应用于3D产品应用。

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《IEEE Electronic Components and Technology Conference》|2012年||共7页
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Ko C. T.; Hsiao Z. C.; Chang Y. J.; Chen P. S.; Huang J. H.; Fu H. C.; Huang Y. J.; Chiang C. W.; Lee C. K.; Chang H. H.; Tsai W. L.; Chen Y. H.; Lo W. C.; Chen K. N.;
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1. A Wafer-Level Three-Dimensional Integration Scheme With Cu TSVs Based on Microbump/Adhesive Hybrid Bonding for Three-Dimensional Memory Application [J] . Ko C.-T. Device and Materials Reliability, IEEE Transactions on . 2012,第2期

机译：基于微凸点/胶粘混合键合的Cu TSV晶圆级三维集成方案在三维存储中的应用
2. Study of Three-Dimensional Small Chip Stacking Using Low Cost Wafer-Level Micro-bump/B-Stage Adhesive Film Hybrid Bonding and Via-Last TSVs [J] . Yao Mingjun, Zhao Ning, Wang Teng, Journal of Electronic Materials . 2018,第12期

机译：使用低成本晶片级微凸块/ B级粘合膜混合粘接及通过最后TSV研究三维小芯片堆叠的研究
3. A Study on Wafer-Level 3D Integration Including Wafer Bonding using Low-k Polymeric Adhesive [J] . Yongchai Kwon, Jongwon Seok, Jian-Qiang Lu Hwahak konghak . 2007,第5期

机译：基于低k聚合物粘合剂的晶圆级3D集成（包括晶圆键合）的研究
4. Structural design, process, and reliability of a wafer-level 3D integration scheme with Cu TSVs based on micro-bump/adhesive hybrid wafer bonding [C] . Ko C. T., Hsiao Z. C., Chang Y. J., Electronic Components and Technology Conference (ECTC), 2012 IEEE 62nd . 2012

机译：基于微凸点/胶粘剂混合晶圆键合的含铜TSV的晶圆级3D集成方案的结构设计，工艺和可靠性
5. Structural Optimization & Reliability of 3D Package by Studying Crack Behavior on TSV & BEOL & Impact of Power Cycling on Reliability Flip Chip Package [D] . Rahangdale, Unique. 2017

机译：三维封装的结构优化及可靠性研究TSV＆BEOL裂缝行为及功率循环对可靠性倒装芯片封装的影响
6. Bonding-Based Wafer-Level Vacuum Packaging Using Atomic Hydrogen Pre-Treated Cu Bonding Frames [O] . Koki Tanaka, Hideki Hirano, Masafumi Kumano, 2018

机译：基于键合的晶片级真空封装使用原子氢预处理的铜键合框架
7. A 300-mm Wafer-Level Three-Dimensional Integration Scheme Using Tungsten Through-Silicon Via and Hybrid Cu-Adhesive Bonding [O] . K. A. Kelly, S. Purushothaman, S. J. Koester, 2014

机译：采用钨硅通孔和混合铜粘合剂粘合的300毫米晶圆级三维集成方案

Structural design, process, and reliability of a wafer-level 3D integration scheme with Cu TSVs based on micro-bump/adhesive hybrid wafer bonding

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