Plastic Encapsulated MCM Technology for High Volume, Low Cost Electronics
Abstract
An innovative embedded chip MCM technology is being developed to address the packaging needs of the high volume, non‐military electronics industries. This development has evolved out of the GE High Density Interconnect (HDI) embedded chip MCM technology that was aimed at very high performance electronics in harsh military environments. In the HDI process, multiple bare chips are placed into cavities formed in a ceramic substrate and interconnected using an overlay polymer film, thin film metallisation and laser formed vias. Multiple levels of fine line (20 to 40 microns) interconnections and reference planes are used to form the circuit. In this new process, a plastic encapsulated substrate is formed by moulding a polymer resin around the bare die after placement on to a flat polymer film pre‐coated with an adhesive layer. After curing of the resin, the circuit is formed by patterning via holes through the polymer film to the components, metallising the polymer film and patterning the metal into the desired interconnect pattern. Feature sizes are readily scaled to the complexity needed by the circuit, permitting the use of lower cost and higher yield board photopatterning processes and equipment. This paper will cover the development of this low cost technology and will describe the process. It will also describe the thermal, mechanical and electrical features of this process and show actual working prototype modules.
Citation
Fillion, R., Wojnarowski, R., Gorcyzca, T., Wildi, E. and Cole, H. (1995), "Plastic Encapsulated MCM Technology for High Volume, Low Cost Electronics", Circuit World, Vol. 21 No. 2, pp. 28-31. https://doi.org/10.1108/eb046302
Publisher
:MCB UP Ltd
Copyright © 1995, MCB UP Limited