Minimization of the local residual stress in 3DICs by controlling the structures and mechanical properties of 3D interconnections

Abstract

Since the residual stress in a silicon chip mounted in 3D modules causes the degradation of both electrical and mechanical reliability, the dominant factors of the residual stress was investigated by using a finite element method and experiments applying 2-μm long piezoresistance strain gauges. The residual stress and local deformation of the chip were found to vary drastically depending on the mechanical properties of bumps and underfill and bump alignment structures.