3D chip package interaction thermo-mechanical challenges: Proximity effects of Through Silicon vias and μ-bumps

3D chip package interaction thermo-mechanical challenges: Proximity effects of Through Silicon vias and μ-bumps

The 3D IC stacking technology with Through Silicon via (TSV) approach promises lower cost, smaller footprint and higher performance for heterogeneous system integration. 3D integration technology needs key components to be enabled: Like TSV technology, Wafer thinning, thin wafer carrier and handling...

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Bibliographische Detailangaben
Hauptverfasser: Guo, W., Van Der Plas, G., Ivankovic, A., Eneman, G., Cherman, V., De Wachter, B., Mercha, A., Gonzalez, M., Civale, Y., Redolfi, A., Buisson, T., Jourdan, A., Vandevelde, B., Rebibis, K. J., De Wolf, I., La Manna, A., Beyer, G., Beyne, E., Swinnen, B.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
3D IC
CMOS
keep out zone
mechnical stress
Performance evaluation
Proximity effects
Silicon
Stress
Through-silicon vias
TSV
μBump
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Beschreibung
Zusammenfassung:The 3D IC stacking technology with Through Silicon via (TSV) approach promises lower cost, smaller footprint and higher performance for heterogeneous system integration. 3D integration technology needs key components to be enabled: Like TSV technology, Wafer thinning, thin wafer carrier and handling technology and μbumps interconnects. In the via-middle 3D-Stacked IC approach, Cu filled TSVs are integrated after device fabrication and before metal 1. The stress patterns around TSV's and μbumps are considered as important concerns for 3D integration, as this leads to additional variability in MOSFET mobility, threshold voltage, and drivability. This contribution reviews the assessment of TSV and μbumps proximity effects on FEOL device performance.
ISSN:2381-3555
2691-0462
DOI:10.1109/ICICDT.2012.6232855