Effects of dimension parameters and defect on TSV thermal behavior for 3D IC packaging

Abstract

Through Silicon Via (TSV) technology is a promising and preferred way to realize the reliable interconnection for 3D IC integration. The temperature changed in the processes of TSV manufacturing and chip using, due to the mismatch in the Coefficient of Thermal Expansion (CTE) of the materials used in TSV structure, significant thermal stress will be induced under the thermal load. These stresses may lead to various reliability issues. Dimension parameters and defects are the two factors affecting the thermal behavior of TSV. In order to optimize TSV design and the quality of via filling, a numerical model of Cu-filled TSV was established to simulate and analyze the effect of diameter, aspect ratio (AR) and defects on TSV thermal stress and deformation in this paper. Simulation results show that the equivalent stress and total deformation of TSV increases as the increase of the diameter of TSV. The effect of aspect ratio on equivalent stress is very little; however, it has a great impact on total deformation, especially for the large diameter of the TSV. Additionally, the effects of shape, size and location of defect on thermal stress were also investigated.