A Study of 3D Packaging Interconnection Performance Affected by Thermal Diffusivity and Pressure Transmission

3D packaging technology has been considered as one of the best candidates to improve the system performance by implementing high I/O density as well as providing shortest signal channel path with given package form factor. However, it is difficult to uniformly control the bonding thickness and the p...

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Bibliographic Details
Main Authors: Jung, Jin-San, Lee, Hyeong Gi, Kim, Ji-Min, Park, Yong-Jin, Yu, Ji-In, Park, Yong Sung, Lim, Jun Su, Choi, Hyun-Seok, Cho, Sung-Il, Kim, Dong wook, An, Sang-Ho
Format: Conference Proceeding
Language:English
Subjects:
Bonding
Conferences
Heat Flow
Heating systems
Multi Chip Stack Bonding
Multi Post Bonding
NCF properies
Temperature
Temperature measurement
Thermo-compresssion bonding
Three-dimensional displays
Viscosity
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Summary:3D packaging technology has been considered as one of the best candidates to improve the system performance by implementing high I/O density as well as providing shortest signal channel path with given package form factor. However, it is difficult to uniformly control the bonding thickness and the precisely align the bumps other than thermo compression (TC) bonding to enable 3D packaging. Moreover, high chip cost and possibly low productivity of TC bonding are main business reasons to prevent this attractive technology from prevailing the mass production environment. To address these well-known technical issues of TC bonding, non-conductive film are proposed for especially high vertical stack with small bump pitch and also minimum chip to chip distance required packages such as high bandwidth memory. In this article, we investigated key process parameters to understand how to optimize bonding process to ensure excellent joint quality for highly dense 3D packages products.
ISSN:2377-5726
DOI:10.1109/ECTC.2019.00038