Abstract: A packaging platform for interconnecting integrated circuit chips and cards, in which the platform is a circuitized fluoropolymer-based laminate carrier including high purity fluoropolymer protective barriers on its surfaces.

Abstract: An electronic package which includes a rigid support member, e.g., copper sheet, to which is bonded both the package's semiconductor chip and circuitized substrate members. The chip is bonded using a thermally conductive adhesive while the circuitized substrate, preferably a flexible circuit, is bonded using an electrically insulative adhesive. The chip is electrically coupled to designated parts of the circuitry of the substrate, preferably by wire, thermocompression or thermosonic bonding. An encapsulant may be used to cover and protect the connections between the chip and substrate. This package may in turn be electrically coupled to a separate, second substrate such as a PCB.

Abstract: An electronic package which includes a rigid support member, e.g., copper sheet, to which is bonded both the package's semiconductor chip and circuitized substrate members. The chip is bonded using a thermally conductive adhesive while the circuitized substrate, preferably a flexible circuit, is bonded using an electrically insulative adhesive. The chip is electrically coupled to designated parts of the circuitry of the substrate, preferably by wire, thermocompression or thermosonic bonding. An encapsulant may be used to cover and protect the connections between the chip and substrate. This package may in turn be electrically coupled to a separate, second substrate such as a PCB.

Abstract: An electronic package which includes a rigid support member, e.g., copper sheet, to which is bonded both the package's semiconductor chip and circuitized substrate members. The chip is bonded using a thermally conductive adhesive while the circuitized substrate, preferably a flexible circuit, is bonded using an electrically insulative adhesive. The chip is electrically coupled to designated parts of the circuitry of the substrate, preferably by wire, thermocompression or thermosonic bonding. An encapsulant may be used to cover and protect the connections between the chip and substrate. This package may in turn be electrically coupled to a separate, second substrate such as a PCB.

Abstract: Method for electroless plating metals, such as copper, onto non-conductive substrate surfaces. The method comprises bringing the surfaces into contact with an aqueous composition containing H.sub.2 SO.sub.4 and a multifunctional cationic copolymer containing at least two available cationic moieties and then activating the surfaces by treating them with a colloidal solution containing palladium chloride, stannous chloride and HCl.The inventive method is particularly useful in processes for producing metal circuits on substrates of glass, thermoplastics and thermosetting resins, such as epoxy cards and boards. The method is also applied in reworking substrates having already undergone copper plating and having been rejected due to failures.

Abstract: A dielectric surface is conditioned for electroless plating of a conductive metal thereon by contacting the surface with a multifunctional ionic copolymer. The conditioning can be in the holes and/or on the surfaces of the substrate.

Abstract: A method of detecting flaws in a printed circuit board laminate having drilled holes wherein a penetrating solution containing a UV fluorescing dye is applied to the laminate to fill the drilled holes and flaws. Excess penetrating solution is removed from the drilled holes and the surface of the laminate. The penetrating solution remaining in the flaws is cured into an insoluble solid and then the laminate is cross-sectioned to provide at least one sample carrying the cured solution. The sample is encapsulated in a clear epoxy and the encapsulated sample is ground and polished to provide a surface which is examined under UV light.