Study on the Manufacturability of X Dimension Fan Out Integration Package with Organic RDLs (XDFOI-O)

Q4 Engineering

Journal of Microelectronics and Electronic Packaging Pub Date : 2024-01-01 DOI:10.4071/001c.115496

Haijie Chen, Ziyao Bian, Tao Liu, Jielei Xie, Jingyu Wu, Yaojian Lin, Choon Heung Lee

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引用次数: 0

Abstract

The concept of chiplet was proposed in the post- Moore era. How to layout the multiple chips with different processes and sizes in the package structure is a problem that needs to be considered as different layouts may significantly affect the manufacturability during the packaging process. XDFOI-O is a 2.5D organic interposer structure with a significant coefficient of thermal expansion mismatch in it. Different layouts may cause excessive stress concentration in the package structure, as well as large wafer warpage, which can affect the normal operations of the production line. Stress accumulation on specific chiplet during the wafer thinning process is another manufacturability problem, leading to chip cracking. Prospective finite element analysis can be applied to evaluate the various layouts. In simulation work, different placement processes of dummy chips as stiffeners, as well as different chiplet thicknesses and underfill coverage, can be used as factors for simulation studies, thereby making a reference for further chiplet package design.

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带有机 RDL 的 X 尺寸扇出集成封装（XDFOI-O）的可制造性研究

芯片的概念是在后摩尔时代提出的。如何在封装结构中布局不同工艺和尺寸的多个芯片是一个需要考虑的问题，因为不同的布局可能会严重影响封装过程中的可制造性。XDFOI-O 是一种 2.5D 有机插层结构，其热膨胀系数存在明显的不匹配。不同的布局可能会导致封装结构中的应力过度集中，以及较大的晶片翘曲，从而影响生产线的正常运行。晶片减薄过程中特定芯片上的应力累积是另一个可制造性问题，会导致芯片开裂。前瞻性有限元分析可用于评估各种布局。在模拟工作中，可将作为加强筋的假芯片的不同放置过程以及不同的芯片厚度和底部填充覆盖率作为模拟研究的因素，从而为进一步的芯片封装设计提供参考。

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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来源期刊

Journal of Microelectronics and Electronic Packaging Engineering-Electrical and Electronic Engineering

CiteScore

1.30

自引率

0.00%

发文量

期刊介绍： The International Microelectronics And Packaging Society (IMAPS) is the largest society dedicated to the advancement and growth of microelectronics and electronics packaging technologies through professional education. The Society’s portfolio of technologies is disseminated through symposia, conferences, workshops, professional development courses and other efforts. IMAPS currently has more than 4,000 members in the United States and more than 4,000 international members around the world.