Title :
Thin-film silicon multichip technology
Author :
Johnson, R. Wayne ; Phillips, Timothy L. ; Jaeger, Richard C. ; Hahn, Stephen F. ; Burdeaux, David C.
Author_Institution :
Dept. of Electr. Eng., Auburn Univ., AL, USA
Abstract :
A hybrid technique that uses pretested integrated circuits mounted in holes etched in a silicon wafer is presented. The chips are interconnected with planar, thin-film metallization. This approach achieves near wafer-scale-integration (WSI) density, while allowing the use of separately fabricated and tested devices. Test wafers with three monolithic chips and one chip mounted in a hole were fabricated as proof of the concept. The key processes developed include fabrication of metallized and patterned wafers with etched holes, mounting of die in etched holes with planar topside topology, and deposition and patterning of the interlevel dielectric and metal links. A new organic resin derived from benzocyclobutene was evaluated as the interlevel dielectric. Wafers were thermally cycled to evaluate the compatibility of the materials and the process. No cracks or chip movement were observed after 50 cycles from -25°C to +85°C
Keywords :
hybrid integrated circuits; packaging; silicon; substrates; thin film circuits; -25 to 85 C; Si multichip technology; Si wafer substrate; WSI density; benzocyclobutene; etched holes; hybrid IC; hybrid technique; interlevel dielectric; metal links; mounted in holes; mounting of die; organic resin; planar metallisation; planar topside topology; pretested integrated circuits; separately fabricated; temperature cycling; thermally cycled; thin-film metallization; Circuit testing; Dielectrics; Etching; Hybrid integrated circuits; Integrated circuit interconnections; Integrated circuit technology; Metallization; Semiconductor thin films; Silicon; Thin film circuits;
Conference_Titel :
Electronics Components Conference, 1988., Proceedings of the 38th
Conference_Location :
Los Angeles, CA
DOI :
10.1109/ECC.1988.12604
