Finite element analysis of 2.5D packaging processes based on multi-physics field coupling for predicting the reliability of IC components

The 2.5D packaging technology is a high–performance method for electronic packaging. This study addresses the reliability issues of 2.5D packaging during the manufacturing process. A multi–physics field coupling Finite Element Method (FEM) has been developed, combined with sub–modeling techniques, t...

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Published inMicroelectronics and reliability Vol. 163; p. 115530
Main Authors Li, Wenqian, Wang, Xinda, Zheng, Ruiqian, Zhao, Xiaohui, Zheng, Hao, Zhao, Zhiyan, Cheng, Mengxuan, Jiang, Yong, Jia, Yuxi
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2024
Subjects
2.5D packaging
Curing
Finite element analysis
Integrated circuit
Reflow soldering
Curing
Finite element analysis
2.5D packaging
Integrated circuit
Reflow soldering
Online AccessGet full text
ISSN0026-2714
DOI10.1016/j.microrel.2024.115530

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Abstract The 2.5D packaging technology is a high–performance method for electronic packaging. This study addresses the reliability issues of 2.5D packaging during the manufacturing process. A multi–physics field coupling Finite Element Method (FEM) has been developed, combined with sub–modeling techniques, to investigate the curing of underfill adhesive, the curing of Epoxy Molding Compound (EMC), and the reflow soldering between the interposer and substrate in a 2.5D packaging entity during various manufacturing procedures. The focus is on the thermo–mechanical–chemical behavior of viscoelastic components within the packaging structure, as well as the viscoplastic characteristics of the micro solder balls and microbumps. A systematic analysis is conducted on the warpage deformation and stress distribution of the 2.5D packaging at crucial time points. The results demonstrate that after curing, the overall warpage of the packaging exhibits a ‘concave’ warpage profile. Additionally, as the thickness of the EMC above the chip increases, the warpage value of the packaging also increases. The warpage value defined by linear elasticity is larger than that defined by viscoelasticity. The maximum Von Mises stress value in the key areas of the submodel is greater than the maximum Von Mises stress value in the corresponding key areas of the global model. After reflow soldering, the stress concentration in the micro solder balls occurs at the edge of the micro solder ball array. The maximum stress values for each component of the packaging are observed in the interface areas between the components. Packaging components that undergo the curing process have notably higher warpage and Von Mises stress values than those that do not undergo the curing process. The simulation method established in this study can accurately predict the warpage deformation and stress distribution state of 2.5D packaging, providing significant engineering application value for process optimization and reliability enhancement of 2.5D packaging in the production process. •Developed a multi-physics FEA for packaging reliability assessment.•Optimized viscoelastic model improves EMC and underfill warpage and stress.•Thicker EMC layers on chips lead to increased warpage and stress.•Stress concentrates at edge micro solder balls and microbumps.•Cured components show increased warpage and stress in reflow soldering.
AbstractList The 2.5D packaging technology is a high–performance method for electronic packaging. This study addresses the reliability issues of 2.5D packaging during the manufacturing process. A multi–physics field coupling Finite Element Method (FEM) has been developed, combined with sub–modeling techniques, to investigate the curing of underfill adhesive, the curing of Epoxy Molding Compound (EMC), and the reflow soldering between the interposer and substrate in a 2.5D packaging entity during various manufacturing procedures. The focus is on the thermo–mechanical–chemical behavior of viscoelastic components within the packaging structure, as well as the viscoplastic characteristics of the micro solder balls and microbumps. A systematic analysis is conducted on the warpage deformation and stress distribution of the 2.5D packaging at crucial time points. The results demonstrate that after curing, the overall warpage of the packaging exhibits a ‘concave’ warpage profile. Additionally, as the thickness of the EMC above the chip increases, the warpage value of the packaging also increases. The warpage value defined by linear elasticity is larger than that defined by viscoelasticity. The maximum Von Mises stress value in the key areas of the submodel is greater than the maximum Von Mises stress value in the corresponding key areas of the global model. After reflow soldering, the stress concentration in the micro solder balls occurs at the edge of the micro solder ball array. The maximum stress values for each component of the packaging are observed in the interface areas between the components. Packaging components that undergo the curing process have notably higher warpage and Von Mises stress values than those that do not undergo the curing process. The simulation method established in this study can accurately predict the warpage deformation and stress distribution state of 2.5D packaging, providing significant engineering application value for process optimization and reliability enhancement of 2.5D packaging in the production process. •Developed a multi-physics FEA for packaging reliability assessment.•Optimized viscoelastic model improves EMC and underfill warpage and stress.•Thicker EMC layers on chips lead to increased warpage and stress.•Stress concentrates at edge micro solder balls and microbumps.•Cured components show increased warpage and stress in reflow soldering.
ArticleNumber 115530
Author Jiang, Yong
Zheng, Ruiqian
Jia, Yuxi
Li, Wenqian
Zheng, Hao
Wang, Xinda
Zhao, Zhiyan
Zhao, Xiaohui
Cheng, Mengxuan
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Keywords Curing
Finite element analysis
2.5D packaging
Integrated circuit
Reflow soldering
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Snippet The 2.5D packaging technology is a high–performance method for electronic packaging. This study addresses the reliability issues of 2.5D packaging during the...
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elsevier
SourceType Enrichment Source
Index Database
Publisher
StartPage 115530
SubjectTerms 2.5D packaging
Curing
Finite element analysis
Integrated circuit
Reflow soldering
Title Finite element analysis of 2.5D packaging processes based on multi-physics field coupling for predicting the reliability of IC components
URI https://dx.doi.org/10.1016/j.microrel.2024.115530
Volume 163
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