论文信息 - Investigation of the delamination mechanism of the thin film dielectric structure in flip chip packages

Investigation of the delamination mechanism of the thin film dielectric structure in flip chip packages

As the electronics industry continues its efforts in miniaturizing the integrated circuit (IC), an IC chip with copper/low-k stacked Back End of Line (BEoL) structures has been developed for reducing R-C delay in order to obtain high-speed signal communication. However, its reliability might become a concern owing to the considerably lower adhesive strength, as well as the greater coefficient of thermal expansion (CTE) of the low-k materials. In this paper, the global-local finite element method, specified boundary condition (SBC) method, is employed as a bridge to estimate the impact from package level to the deep submicron BEoL structure of the flip chip package. The results show that the defect in the stacking structure at the center of the silicon has a lower tendency to crack than that at the corner region. In addition, the higher underfill CTE shows the disadvantage of the defect.

Kuo-Ning Chiang | Shin-Yueh Yang | C. C. Chiu | Chang-Chun Lee | Chin-Hsiu Huang

[1] Xinwei Wang,et al. Multi-scale Analyses of 3D Woven Composite Based On Periodicity Boundary Conditions , 2007 .

[2] Chih-Tang Peng,et al. Reliability analysis and design for the fine-pitch flip chip BGA packaging , 2004 .

[3] V. Fiori,et al. Reliability issues in Cu/low-k structures regarding the initiation of stress-voiding or crack failure , 2006 .

[4] Chang-Chun Lee,et al. Cracking energy estimation of ultra low-k package using novel prediction approach combined with global-local modeling technique , 2008 .

[5] C. Chiu,et al. Analysis of Cu/Low-k structure under back end of line process , 2008 .

[6] Kuo-Ning Chiang,et al. Reliability of interfacial adhesion in a multi-level copper/low-k interconnect structure , 2007, Microelectron. Reliab..

[7] K. M. Chen,et al. Effects of underfill materials on the reliability of low-K flip-chip packaging , 2006, Microelectron. Reliab..

[8] Dielectric Integrity Test for Flip-Chip Devices with Cu/Low-k Interconnects , 2005, Proceedings Electronic Components and Technology, 2005. ECTC '05..

[9] V. Fiori,et al. A multi scale finite element methodology to evaluate wire bond pad architectures , 2005, EuroSimE 2005. Proceedings of the 6th International Conference on Thermal, Mechanial and Multi-Physics Simulation and Experiments in Micro-Electronics and Micro-Systems, 2005..

[10] S. Pozder,et al. Analysis of flip-chip packaging challenges on copper/low-k interconnects , 2003 .