The effect of materials and design on the reliability of through-glass vias for 2.5 D integrated circuits: a numerical study

Abstract: PurposeThis study aims to investigate the factors responsible for substrate cracking reliability problem in through-glass vias (TGVs), which are critical components for glass-based 2.5 D integration.Design/methodology/approachNumerical models were used to examine the driving force for substrate cracking in glass interposers due to stress coupling during heating. An analytical solution was used to demonstrate how the energy release rate (ERR) for the glass substrate cracking is affected by the via design and th… Show more

“…To study the critical mechanical characteristics of TGV, a novel sample preparation procedure of free-standing TGV pillar was demonstrated, and its mechanical properties were measured by the microcompression technique in [ 22 ]. The interactive influence of material and structural design of TGV architecture on thermal stress and crack driving force were effectively estimated by the FEA simulation in [ 23 ]. Thermal cycling and high-temperature storage test were performed on the glass interposer integrated with polymer-based dielectric material as passivation, and the tested results of the electrical resistance of the vehicle remained at the original value after thermal cycling in [ 24 ].…”

Reliability Assessment of Thermocompressed Epoxy Molding Compound through Glass via Interposer Architecture by the Submodeling Simulation Approach

“…To study the critical mechanical characteristics of TGV, a novel sample preparation procedure of free-standing TGV pillar was demonstrated, and its mechanical properties were measured by the microcompression technique in [ 22 ]. The interactive influence of material and structural design of TGV architecture on thermal stress and crack driving force were effectively estimated by the FEA simulation in [ 23 ]. Thermal cycling and high-temperature storage test were performed on the glass interposer integrated with polymer-based dielectric material as passivation, and the tested results of the electrical resistance of the vehicle remained at the original value after thermal cycling in [ 24 ].…”

Reliability Assessment of Thermocompressed Epoxy Molding Compound through Glass via Interposer Architecture by the Submodeling Simulation Approach

Development of high performance 2.5D packaging using glass interposer with through glass vias

A comprehensive numerical analysis for preventing cracks in 2.5D glass interposer