应用于封装3D系统的渐缩工艺硅的开发与表征

2007 14th International Symposium on the Physical and Failure Analysis of Integrated Circuits Pub Date : 2007-07-11 DOI:10.1109/IPFA.2007.4378105

N. Ranganathan, L. Ebin, N. Balasubramanian, K. Prasad, K. Pey

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引用次数: 0

摘要

通过硅互连技术被认为是电子和机电系统三维堆叠的关键和使能技术，它被认为是解决传统和固有的长二维芯片对芯片互连相关的性能瓶颈的解决方案。这种体系结构的一个明显优势是，它为便携式和手持应用程序节省了空间。它还为高频应用提供了显着的性能改进，因为互连长度和相关寄生减少了[1,2]。更短的芯片到芯片互连长度和减少高频应用中与线键封装相关的寄生效应进一步推动了三维集成技术的发展。因此，拥有可靠且可制造的通硅互连技术至关重要。

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Development and Characterization of Silicon via Tapering Process for 3D System in Packaging Application

Through-silicon interconnection technology is considered to be a critical and enabling technology for 3-D stacking of electronic and electro-mechanical systems, which is believed to be a solution to the performance bottleneck associated with traditional and inherently long 2-D chip-to-chip interconnections. An obvious advantage in this architecture is that it leads to space saving for portable and hand-held applications. It also offers significant performance improvement for high frequency applications as the interconnection lengths and associated parasitics are reduced [1, 2]. The development of 3-D integration technologies is further motivated by shorter chip-to-chip interconnection lengths and reduced parasitics associated with wire-bonded packages for high frequency application. Hence, it is crucial to have a reliable and manufacturable through-silicon interconnect technology.

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2007 14th International Symposium on the Physical and Failure Analysis of Integrated Circuits

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