Title :
A photo-patternable stress relief material for plastic packaged integrated circuits
Author :
Cagan, Myron ; Ridley, Doug
Author_Institution :
Signetics/Philips Res. Lab., Sunnyvale, CA, USA
Abstract :
Reports the use of a photo-patternable silicone as an integrated-circuit package stress-relief material. This material is implemented as a final wafer-fabrication masking step over the previously patterned passivation layer. The process uses standard wafer-fabrication equipment and passivation layer masks. The wafers are processed following usual procedures. Results indicate that plastic-packaged circuits which are coated with the photosensitive silicone elastometer exhibit thermal stress test lifetimes that significantly exceed those of non-silicone-coated controls. It is proposed that this technology offers both a potential economy in the assembly process and the potential of overcoming thermal-shock-induced integrated-circuit failures.<>
Keywords :
life testing; masks; packaging; silicones; thermal stresses; assembly; elastometer; final wafer-fabrication masking step; integrated-circuit failures; passivation; photo-patternable stress relief material; plastic packaged integrated circuits; plastic-packaged circuits; silicone; thermal stress test lifetimes; thermal-shock-induced; Circuit testing; Fabrication; Packaging machines; Passivation; Plastic integrated circuit packaging; Plastic packaging; Resins; Temperature; Thermal stresses; Wire;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
