Chip-Package Interaction in 3D stacked IC packages using Finite Element Modelling

•Analytical modelling, FEM simulations and 4 point bending for BEOL strength analysis.•Reduced low-k stiffness results in exponential growth of stress in Cu via’s.•Keep-out-zones around copper through silicon via’s are defined.

Chip Package Interaction (CPI) gained a lot of importance in the last years. The reason is twofold. First, advanced node IC technologies requires dielectrics in the BEOL (back-end-of-line) with a decreasing value for the dielectric constant k. These so-called (ultra) low-k materials have a reduced stiffness and reduced adhesion strength to the barrier materials, making the BEOL much more vulnerable to externally applied mechanical stress due to packaging. Secondly, advanced packaging technologies such as 3D stacked IC’s use thinned dies (down to 25 μm) which can cause much higher stresses at transistor level, resulting in electron mobility shifts of the transistors. Also the copper TSV (through-silicon-via) generates local stress which affects the device performance. This paper considers both the packaging impact on BEOL integrity and transistor mobility shifts for 3D stacked IC (integrated circuit) technologies.