標題: | Fracture prediction of dissimilar thin film materials in Cu/low-k packaging |
作者: | Lee, Chang-Chun Lee, Chien-Chen Yang, Ya-Wen 生物科技學系 Department of Biological Science and Technology |
公開日期: | 1-Aug-2010 |
摘要: | For current semiconductor technology, interfacial crack in stacked thin films of Cu/low-k damascene integration is a critical reliability issue that needs to be urgently resolved. In addition to the measurement of 4-point bending test, how to precisely estimate the adhesion energy between dissimilar films through simulation, based on fracture mechanics is important while designing robust interconnect structures as well as developing next-generation low-k materials. Distinct from the former studies, this research proposes a novel tie-release crack prediction technique based on finite element calculations in order to consider the stress-induced impacts on the thermo-mechanical reliability of the microelectronic package with a low-k chip during the different cracking length of film interfaces. To ensure the correctness and feasibility of the presented technique, a plastic ball array (PBGA) package with stacked Cu/low-k interconnects is implemented as test vehicle to validate actual testing data of experiments and evaluate the variation of interfacial cracking energy while silicon chip becomes thinner. Through the combination of J-integral approach with the technique of global-local sub-modeling, all the predicted results for the forgoing referred cases reveal a good agreement with the physical behaviors of devices. Therefore, it can be concluded that the proposed methodology is highly reliable in estimating the occurrence opportunities of interfacial crack. |
URI: | http://dx.doi.org/10.1007/s10854-009-9994-0 http://hdl.handle.net/11536/32382 |
ISSN: | 0957-4522 |
DOI: | 10.1007/s10854-009-9994-0 |
期刊: | JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS |
Volume: | 21 |
Issue: | 8 |
起始頁: | 787 |
結束頁: | 795 |
Appears in Collections: | Articles |
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