柔性伪soc的晶圆级异构技术集成

2010 IEEE International Solid-State Circuits Conference - (ISSCC) Pub Date : 2010-03-18 DOI:10.1109/ISSCC.2010.5434011

H. Yamada, Yutaka Onozuka, A. Iida, K. Itaya, H. Funaki

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引用次数: 6

摘要

已报道的MEMS-LSI集成技术主要是利用MEMS和CMOS LSI之间的工艺兼容性优势，在单片集成系统(SoC)上实现的[1]。然而，在MEMS和标准CMOS工艺不兼容的情况下，集成它们是不可能的。此外，许多MEMS-LSI集成技术应用系统在封装(SiP)技术与中间层衬底实现电子器件已被报道。然而，使用SiP技术，由于中间基板在SiP中占据了很大的面积，因此无法实现与单片集成SoC相当的高集成密度。因此，需要开发先进的MEMS- lsi集成技术来实现包含MEMS器件的高度集成SoC[2]。

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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A wafer-level heterogeneous technology integration for flexible pseudo-SoC

The MEMS-LSI integration technologies that have been reported are mainly implemented for monolithic integrated System on Chip (SoC) by applying the advantages of process compatibility between MEMS and CMOS LSI [1]. However, it has been impossible to integrate them in the case that MEMS and standard CMOS processes are incompatible. Furthermore, many MEMS-LSI integration technologies applying System in Package (SiP) technology with the interposer substrate to realize electronics devices have been reported. However, using SiP technology, it has not been possible to achieve high integration density comparable to that of monolithic integrated SoC because the interposer substrate occupies a large area in SiP. Accordingly, development of an advanced MEMS-LSI integration technology to realizing highly integrated SoC incorporating MEMS devices is required [2].

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2010 IEEE International Solid-State Circuits Conference - (ISSCC)

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