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Abstract

This work first investigated the initial location of the possible delamination in a plastic ball grid array (PBGA) package under moisture preconditioning and subsequent solder reflow by applying the modified Tsai-Hill failure criteria. The fracture parameters, such as the stress intensity factor (SIF), the strain energy release rate, and the phase angle at the delamination tip, were calculated to study delamination growth. A two-dimensional PBGA finite element model was considered and the hygrothermal stress at the interfaces was calculated to examine the initiation of delamination. A three-dimensional PBGA finite element model was applied in the study of three-dimensional delamination growth. A global-local finite element analysis and two-dimensional linear interfacial fracture mechanics were used to calculate fracture parameters at the delamination tip for different delamination lengths. The effect of vaporized moisture inside the PBGA package on the growing delamination was examined. A series of popcorn experiments on PBGA packages was carried out to verify the simulation results. The agreement between the predicted and experimental results was good.

Keywords

solder reflow fracture parameters delamination growth global-local finite element analysis two-dimensional linear interfacial fracture mechanics

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References

Ahn

S. H.

Kwon

Y. S.

Popcorn phenomena in ball grid array package

IEEE Trans. on Components Packaging and Mfg Technol., Part B, 1995, 18 (3), 491–495.

Hawkins

Ganesan

Lewis

Berg

The PBGA: A systematic study of moisture resistance

The Int. J. of Microcircuits and Electronic Packaging, 1995, 18 (2), 122–132.

Oota

Iida

Saka

Measurement of water absorption in ball grid array package

IEEE Trans. Components and Packaging Technol., 2002, 25 (1), 164–168.

Mei

Y. H.

Liu

An investigation to popcorning mechanisms for IC plastic packages: Defect initiation

Trans. ASME, Applic. Fract. Mechanics in Electronic Packaging and Mater., 1995, 11, 85–97.

Saitoh

Matsuyama

Toya

Linear fracture mechanics analysis on growth of interfacial delamination in LSI plastic packages under temperature cyclic loading

IEEE Trans. Components, Packaging, and Mfg Technol., Part B, 1998, 21 (4), 422–427.

Teo

Y. C.

Wong

E. H.

Lim

T. B.

Enhancing moisture resistance of PBGA. In Proceedings of the 48th Electronic Components and Technology Conference, IEEE, Seattle, Washington, 25–28 May 1998, pp. 930–935.

Chang

K. C.

Yeh

M. K.

Chiang

K. N.

Hygrothermal stress analysis of plastic ball grid array package during solder reflow

Proc. Instn Mech. Engrs, Part C: J. Mechanical Engineering Science, 2004, 218 (C9), 957–970.

Nguyen

L. T.

Reliability of post-molded IC packages

Trans. ASME, J. Electronic Packaging, 1993, 115, 346–355.

Park

Y. B.

A fracture mechanics analysis of the popcorn cracking in the plastic IC packages. In Proceedings of the Twenty-First IEEE/CPMT International Electronics Manufacturing Technology Symposium, Austin, Texas, 13–15 October 1997, pp. 12–19.

10.

JESD22-A112-A.

Test method A112-A moisture-induced stress sensitivity for plastic surface mount devices. JEDEC Standard, Electronic Industries Association, Arlington, Virginia, 1995, pp. 1–9.

11.

Choi

Y. T.

Y. C.

Analysis of popcorn phenomenon of PBGA by computer simulation (in Chinese)

Ind. Mater., 1998, 141, 145–152.

12.

Lau

J. H.

Lee

S. W. R.

Temperature-dependent popcorning analysis of plastic ball grid array package during solder reflow with fracture mechanics method

Trans. ASME, J. Electronic Packaging, 2000, 122, 34–41.

13.

Saitoh

Matsuyama

Toya

Linear fracture mechanics analysis on growth of interfacial delamination in LSI plastic packages under temperature cyclic loading - Part II: Material properties and package geometry factors

IEEE Trans. Advd Packaging, 2000, 23 (3), 554–560.

14.

Mercado

L. L.

Wieser

Hauck

Multichip package delamination and die fracture analysis

IEEE Trans. Advd Packaging, 2003, 26 (2), 152–159.

15.

Chue

C. H.

Chen

T. H.

Lee

H. T.

Effect of stiffness and thickness ratios on popcorn cracking in IC packages

IEEE Trans. Components and Packaging., 2003, 26 (2), 340–348.

16.

Gibson

R. F.

Principles of Composite Material Mechanics, 1994 (McGraw-Hill, New York).

17.

Voleti

S. R.

Chandra

Miller

J. R.

Global-local analysis of large-scale composite structure using finite element methods

Computers and Structs, 1996, 58 (3), 453–464.

18.

Rice

J. R.

Elastic fracture mechanics concepts for interfacial cracks

Trans. ASME, J. Appl. Mechanics, 1988, 55, 98–103.

19.

Hutchinson

J. W.

Suo

Mixed mode cracking in layered materials

Adv. Appl. Mechanics, 1991, 29, 63–91.

Growth analysis of interfacial delamination in a plastic ball grid array package during solder reflow using the global–local finite element model

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