3D chip stacking & reliability using TSV-micro C4 solder interconnection

Autor: C. H. Toh, W.H. Zhu, K. Y. Au, X.R. Zhang, S. L. Kriangsak
Rok vydání: 2010
Předmět:
Zdroj: 2010 Proceedings 60th Electronic Components and Technology Conference (ECTC).
DOI: 10.1109/ectc.2010.5490636
Popis: Multi silicon dies stack using through silicon via (TSV) is required for higher performance, greater package miniaturization and more functionality electronic device. A through silicon interposer (TSI) enables interconnect pitch matching between a high I/Os top chip and a low cost organic substrate. TSI also mitigates the risk of extreme low-K (ELK) layers delamiantion. This paper demonstrates the process feasibility and reliability performance for multi thin die stacking on a strip organic substrate using a 1x solder re-flow process flow. Inline pressurized spray system with and without force flow were shown to be an effective flux cleaning method for stacked dies with ~35 um microgap. In a two dies stack fcCSP, the presence of a bottom TSI reduces top chip stress based on finite element simulation. A low CTE TSI results in a lower top chip stress than a high CTE TSI. Also, a reduction of top die thickness and/or an increase of package mold cap thickness result in a significant package warpage reduction. Micro C4 solder bumps joints with TiW/Cu/Ni under bumps metallization (UBM) and TiW/Cu/Ni/Au bond pad were reliable up to 1000 thermal cycles.
Databáze: OpenAIRE