FET arrays as CPI sensors for 3D stacking and packaging characterization

Abstract

FET arrays are investigated from the viewpoint of Chip-Package Interaction (CPI) sensor suitability and presented as a possible solution for experimental characterization of CPI effects during 3D assembly steps: Stacking and packaging. The study presents a methodology consisting of an experimental approach with the support of FEM modeling. The use of the transistors as stress sensors covering in-plane stress components is justified, after which the applicability of the transistors to the actual stacking and packaging stress states is discussed. Calibration to in-plane stress of long and short channel transistors, p and n type, is performed to obtain sensor sensitivities and link stress to current shift by according calculated piezocoefficients. Testing the FET arrays as sensors is firstly done by means of a simple structure where a die is glued to a plastic substrate. The electrical measurements are compared to FEM models and profilometric scans. The sensors are next utilized to obtain first results from 3D stacking and packaging. The underfill - microbump mechanism in a 2-die stack is quantified and initial results on overmould impact are discussed.