Through silicon via technology — processes and reliability for wafer-level 3D system integration

2008 58th Electronic Components and Technology Conference Pub Date : 2008-05-27 DOI:10.1109/ECTC.2008.4550074

P. Ramm, M. J. Wolf, A. Klumpp, R. Wieland, Bernhard Wunderle, Bruno Michel, Herbert Reichl

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引用次数: 100

Abstract

3D integration is a rapidly growing topic in the semiconductor industry that encompasses different types of technologies. The paper addresses one of the most promising technologies which uses through silicon vias (TSV) for interconnecting stacked devices on wafer-level to perform high density interconnects with a good electrical performance at the smallest form factor for 3D architectures. Fraunhofer IZM developed a post frontend 3D integration process, the so- called ICV-SLID technology based on metal bonding using solid-liquid-interdiffusion (SLID) soldering. The SLID metal system provides the mechanical and the electrical connection, both in one single step. The ICV-SLID fabrication process is well suited for the cost-effective production of both, high- performance applications (e.g. 3D microprocessor) and highly miniaturized multi-functional systems. The latter preferably in combination with wafer-level die stacking, as e.g. Thin Chip Integration (TCI) or SnAg-microbump technologies. The fabrication of distributed wireless sensor systems (e. g. e-CUBESreg) is a typical example for the need of such mixed approaches.

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通过硅通孔技术-工艺和可靠性为晶圆级3D系统集成

3D集成是半导体行业中一个快速发展的话题，它涵盖了不同类型的技术。本文讨论了一种最有前途的技术，即通过硅通孔(TSV)在晶圆级上互连堆叠器件，以最小的外形尺寸实现高密度互连，并具有良好的电气性能。Fraunhofer IZM开发了一种前端3D集成工艺，即所谓的icv - slide技术，该技术基于使用固液互扩散(slide)焊接的金属键合。滑动金属系统提供机械和电气连接，两者都在一个步骤中。icv - glide制造工艺非常适合高性能应用(例如3D微处理器)和高度小型化多功能系统的经济高效生产。后者最好与晶圆级芯片堆叠相结合，例如薄芯片集成(TCI)或SnAg-microbump技术。分布式无线传感器系统(如e- cubesregg)的制造是需要这种混合方法的典型例子。

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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2008 58th Electronic Components and Technology Conference

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