Thermal-mechanical reliability assessment of TSV structure for 3D IC integration

Huan Liu; Qinghua Zeng; Yong Guan; Runiu Fang; Xin Sun; Fei Su; Jing Chen; Min Miao; Yufeng Jin

doi:10.1109/EPTC.2016.7861584

Thermal-mechanical reliability assessment of TSV structure for 3D IC integration

Huan Liu
, Qinghua Zeng
, Yong Guan
, Runiu Fang
, Xin Sun
, Fei Su
, Jing Chen
, Min Miao
, Yufeng Jin

School of Aeronautic Science and Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

6 Scopus citations

Abstract

In this paper, thermal-mechanical reliability of TSV structure was investigated with thermal shock test and finite element method. The fine pitch TSV samples were subjected to thermal load, failure samples were identified by resistance measurement, the calculated characteristic life was about 340 cycles. It is revealed that thermal-mechanical stress is concentrated around TSV, the ends of TSV are susceptible to failure. FEA results indicate maximum value of maximum principal stress appears at chip area near the ends of TSV, scallop side wall induces larger shear stress than smooth side wall thus more easily leads to interfacial failure. The warpage of chips and fatigue life of solder balls under different thermal load conditions were investigated in global simulation.

Original language	English
Title of host publication	Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	758-764
Number of pages	7
ISBN (Electronic)	9781509043682
DOIs	https://doi.org/10.1109/EPTC.2016.7861584
State	Published - 21 Feb 2017
Event	18th IEEE Electronics Packaging Technology Conference, EPTC 2016 - Singapore, Singapore Duration: 30 Nov 2016 → 3 Dec 2016

Publication series

Name	Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016

Conference

Conference	18th IEEE Electronics Packaging Technology Conference, EPTC 2016
Country/Territory	Singapore
City	Singapore
Period	30/11/16 → 3/12/16

Access to Document

10.1109/EPTC.2016.7861584

Cite this

Liu, H., Zeng, Q., Guan, Y., Fang, R., Sun, X., Su, F., Chen, J., Miao, M., & Jin, Y. (2017). Thermal-mechanical reliability assessment of TSV structure for 3D IC integration. In Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016 (pp. 758-764). Article 7861584 (Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/EPTC.2016.7861584

Liu, Huan ; Zeng, Qinghua ; Guan, Yong et al. / Thermal-mechanical reliability assessment of TSV structure for 3D IC integration. Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 758-764 (Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016).

@inproceedings{2c4303df6af8464c924edfd61aba828c,

title = "Thermal-mechanical reliability assessment of TSV structure for 3D IC integration",

abstract = "In this paper, thermal-mechanical reliability of TSV structure was investigated with thermal shock test and finite element method. The fine pitch TSV samples were subjected to thermal load, failure samples were identified by resistance measurement, the calculated characteristic life was about 340 cycles. It is revealed that thermal-mechanical stress is concentrated around TSV, the ends of TSV are susceptible to failure. FEA results indicate maximum value of maximum principal stress appears at chip area near the ends of TSV, scallop side wall induces larger shear stress than smooth side wall thus more easily leads to interfacial failure. The warpage of chips and fatigue life of solder balls under different thermal load conditions were investigated in global simulation.",

author = "Huan Liu and Qinghua Zeng and Yong Guan and Runiu Fang and Xin Sun and Fei Su and Jing Chen and Min Miao and Yufeng Jin",

note = "Publisher Copyright: {\textcopyright} 2016 IEEE.; 18th IEEE Electronics Packaging Technology Conference, EPTC 2016 ; Conference date: 30-11-2016 Through 03-12-2016",

year = "2017",

month = feb,

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doi = "10.1109/EPTC.2016.7861584",

language = "英语",

series = "Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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Liu, H, Zeng, Q, Guan, Y, Fang, R, Sun, X, Su, F, Chen, J, Miao, M & Jin, Y 2017, Thermal-mechanical reliability assessment of TSV structure for 3D IC integration. in Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016., 7861584, Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016, Institute of Electrical and Electronics Engineers Inc., pp. 758-764, 18th IEEE Electronics Packaging Technology Conference, EPTC 2016, Singapore, Singapore, 30/11/16. https://doi.org/10.1109/EPTC.2016.7861584

Thermal-mechanical reliability assessment of TSV structure for 3D IC integration. / Liu, Huan; Zeng, Qinghua; Guan, Yong et al.
Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016. Institute of Electrical and Electronics Engineers Inc., 2017. p. 758-764 7861584 (Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Thermal-mechanical reliability assessment of TSV structure for 3D IC integration

AU - Liu, Huan

AU - Zeng, Qinghua

AU - Guan, Yong

AU - Fang, Runiu

AU - Sun, Xin

AU - Su, Fei

AU - Chen, Jing

AU - Miao, Min

AU - Jin, Yufeng

PY - 2017/2/21

Y1 - 2017/2/21

N2 - In this paper, thermal-mechanical reliability of TSV structure was investigated with thermal shock test and finite element method. The fine pitch TSV samples were subjected to thermal load, failure samples were identified by resistance measurement, the calculated characteristic life was about 340 cycles. It is revealed that thermal-mechanical stress is concentrated around TSV, the ends of TSV are susceptible to failure. FEA results indicate maximum value of maximum principal stress appears at chip area near the ends of TSV, scallop side wall induces larger shear stress than smooth side wall thus more easily leads to interfacial failure. The warpage of chips and fatigue life of solder balls under different thermal load conditions were investigated in global simulation.

AB - In this paper, thermal-mechanical reliability of TSV structure was investigated with thermal shock test and finite element method. The fine pitch TSV samples were subjected to thermal load, failure samples were identified by resistance measurement, the calculated characteristic life was about 340 cycles. It is revealed that thermal-mechanical stress is concentrated around TSV, the ends of TSV are susceptible to failure. FEA results indicate maximum value of maximum principal stress appears at chip area near the ends of TSV, scallop side wall induces larger shear stress than smooth side wall thus more easily leads to interfacial failure. The warpage of chips and fatigue life of solder balls under different thermal load conditions were investigated in global simulation.

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BT - Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 18th IEEE Electronics Packaging Technology Conference, EPTC 2016

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ER -

Liu H, Zeng Q, Guan Y, Fang R, Sun X, Su F et al. Thermal-mechanical reliability assessment of TSV structure for 3D IC integration. In Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016. Institute of Electrical and Electronics Engineers Inc. 2017. p. 758-764. 7861584. (Proceedings of the 2016 IEEE 18th Electronics Packaging Technology Conference, EPTC 2016). doi: 10.1109/EPTC.2016.7861584

Thermal-mechanical reliability assessment of TSV structure for 3D IC integration

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