Interconnect Quality and Reliability of 3D Packaging

Yaodong Wang; Yingxia Liu; Menglu Li; K. N. Tu; Luhua Xu

doi:10.1007/978-981-15-7090-2_17

Interconnect Quality and Reliability of 3D Packaging

Yaodong Wang
, Yingxia Liu
, Menglu Li
, K. N. Tu
, Luhua Xu^*

^*Corresponding author for this work

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 12 - Chapter in an edited book (Author) › peer-review

8 Citations (Scopus)

Abstract

Quality and reliability aspects of 3D IC and packages are discussed in this chapter. The main focuses are interconnects related quality and reliability issues. For the 3D packages, interconnects may include microbump, TSV, UBM and copper traces etc. We compare them to the quality and reliability concerns observed in the existing interconnects, as well as eh methodology to predict the field performances. We shall cover microstructure changes and failures driven by mechanical stressing, electromigration (EM), and thermomigration (TM). This way we can see how the transition, for example, from C-4 joints to microbumps, may affect the failure modes. On mechanical stressing, we emphasize the brittle nature as well as micro-void formation, especially Kirkendall void formation in microbumps. A string of voids in a brittle material can easily lead to fracture damage. The interest in mechanical failures is because for mobile and wearable devices, the frequency of impact and dropping to the ground is high. On EM and TM in microbumps and TSV, we emphasize the enhanced failure mode due to Joule heating.

Original language	English
Title of host publication	3D Microelectronic Packaging
Subtitle of host publication	From Architectures to Applications
Editors	Yan Li, Deepak Goyal
Place of Publication	Singapore
Publisher	Springer
Chapter	17
Pages	527-573
Edition	2nd
ISBN (Electronic)	978-981-15-7090-2
ISBN (Print)	978-981-15-7089-6
DOIs	https://doi.org/10.1007/978-981-15-7090-2_17
Publication status	Published - 2021
Externally published	Yes

Publication series

Name	Springer Series in Advanced Microelectronics
Volume	64
ISSN (Print)	1437-0387
ISSN (Electronic)	2197-6643

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abstract = "Quality and reliability aspects of 3D IC and packages are discussed in this chapter. The main focuses are interconnects related quality and reliability issues. For the 3D packages, interconnects may include microbump, TSV, UBM and copper traces etc. We compare them to the quality and reliability concerns observed in the existing interconnects, as well as eh methodology to predict the field performances. We shall cover microstructure changes and failures driven by mechanical stressing, electromigration (EM), and thermomigration (TM). This way we can see how the transition, for example, from C-4 joints to microbumps, may affect the failure modes. On mechanical stressing, we emphasize the brittle nature as well as micro-void formation, especially Kirkendall void formation in microbumps. A string of voids in a brittle material can easily lead to fracture damage. The interest in mechanical failures is because for mobile and wearable devices, the frequency of impact and dropping to the ground is high. On EM and TM in microbumps and TSV, we emphasize the enhanced failure mode due to Joule heating.",

author = "Yaodong Wang and Yingxia Liu and Menglu Li and Tu, \{K. N.\} and Luhua Xu",

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Interconnect Quality and Reliability of 3D Packaging. / Wang, Yaodong; Liu, Yingxia; Li, Menglu et al.
3D Microelectronic Packaging: From Architectures to Applications. ed. / Yan Li; Deepak Goyal. 2nd. ed. Singapore: Springer , 2021. p. 527-573 (Springer Series in Advanced Microelectronics; Vol. 64).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 12 - Chapter in an edited book (Author) › peer-review

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PY - 2021

Y1 - 2021

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AB - Quality and reliability aspects of 3D IC and packages are discussed in this chapter. The main focuses are interconnects related quality and reliability issues. For the 3D packages, interconnects may include microbump, TSV, UBM and copper traces etc. We compare them to the quality and reliability concerns observed in the existing interconnects, as well as eh methodology to predict the field performances. We shall cover microstructure changes and failures driven by mechanical stressing, electromigration (EM), and thermomigration (TM). This way we can see how the transition, for example, from C-4 joints to microbumps, may affect the failure modes. On mechanical stressing, we emphasize the brittle nature as well as micro-void formation, especially Kirkendall void formation in microbumps. A string of voids in a brittle material can easily lead to fracture damage. The interest in mechanical failures is because for mobile and wearable devices, the frequency of impact and dropping to the ground is high. On EM and TM in microbumps and TSV, we emphasize the enhanced failure mode due to Joule heating.

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Interconnect Quality and Reliability of 3D Packaging

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