| Nombre | apoyo | Revisión | Disponibilidad | Fecha de emisión | Precio | ||
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PDF sécurisé |
Inglés |
Vigente |
1/6/2019 |
204,00 € |
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Detalles
In order to speed up volume production of 3DS-IC products, a generic middle-end process flow is needed to communicate the frontend and backend processes. The quality criteria and metrology methodology of the key modules such as TSV, chemical mechanical planarization (CMP), and micro-bump are developed to ensure high-yield of the middle-end process. Therefore, this guide provides a generic middle-end process flow to define acceptable TSV and CMP quality criteria as well as to develop methodology and measuring procedures for micro-bump. The guide will provide criteria and common baselines of the middle-end process for related upstream and downstream manufacturers in fabricating 3DS-IC products.
This Guide proposes a frontside TSV integration scheme as one of the generic middle-end process flow. The flow includes steps such as TSV formation, RDL formation, CMP, temporary carrier bonding, wafer thinning, micro-bump formation, and carrier debonding.
This Guide define acceptable CMP criteria of TSV in terms of dishing, erosion, and voids. CMP criteria can be determined by metrology technology in both contact methods such as: micro profilometer, 4-points resistivity probes, or non-contact methods (e.g., ultrasonic scan mapping, Coherence Interferometry, or other laser-based light scattering detection schemes). TSV formation and reveal are significantly dependent on the performance of CMP process. The outcome of the high CMP quality yields better TSV connectivity.
This Guide provides criteria for measurement methodology for micro-bump dimensions, including sampling rate, sampling sites and mapping, reference datum, and survey available metrology tools. The outcome will be an important bridge communication among IC design firms, fabs, and packaging houses. The assumption of wafer-to-wafer (W2W), chip-to-wafer (C2W) and chip-to-chip (C2C) are that testing data is available for known test good die.
Información adicional
| Autor | Semiconductor Equipment and Materials Institute (SEMI) |
|---|---|
| Publicado por | SEMI |
| Tipo de Documento | Norma |
