Patent application number | Description | Published |
20080223604 | PROCESS FOR PREPARING AN ELECTRICALLY STABLE COPPER FILLED ELECTRICALLY CONDUCTIVE ADHESIVE - A process for preparing an electrically conductive adhesive (ECA) with low and stable contact resistance by mixing at least one melt-processable reactive resin, at least one reactive diluent, at least one rheological additive, at least one curing agent, at least one organic acid catalyst, and copper particles. The ECA is useful for filling vias, and bonding together components of electronic circuit structures. | 09-18-2008 |
20080230262 | ELECTRICALLY STABLE COPPER FILLED ELECTRICALLY CONDUCTIVE ADHESIVE - An electronic device including electronic circuit structures formed with an electrically conductive adhesive (ECA) with low and stable contact resistance including at least one melt-processable reactive resin, at least one reactive diluent, at least one rheological additive, at least one curing agent, at least one organic acid catalyst, and copper particles. The ECA is useful for filling vias, and bonding together components of electronic circuit structures. | 09-25-2008 |
20090035455 | Adhesive bleed prevention method and product produced from same - A method of preventing adhesive bleed onto the metal (e.g., gold) surfaces of a plurality of electrical conductors (e.g., wire-bond pads) positioned on a dielectric substrate when positioning an electronic component onto the dielectric substrate and electrically coupling (e.g., wire-bonding) the component to the metal surfaces. The method includes contacting the metal surfaces with a chemical composition which comprises a minor amount of a surface active agent (e.g., a thiol) and the remainder substantially being a non-reactive solvent (e.g., methanol). A circuitized substrate produced using this method is also provided. | 02-05-2009 |
20110139364 | Chemical modification of chromate conversion coated aluminum work pieces - A method and assembly for chemically modifying chromate converted aluminum work pieces to improve adhesion. The chromate converted aluminum work pieces are treated with oxygen plasma within the range of 500 W to 1500 W for approximately 5 to 30 minutes to chemically modify the free cyanide in the chromate coating. The free cyanide is modified into functional groups that chemically bond with silicone based adhesives. Adhesion strength of at least 100% improvement is observed. An aluminum heat sink is attached to modules with a silicone based elastomer containing a thermally enhanced additive. The thermally enhanced adhesive is dispensed onto application specific integrated circuit (ASIC) chips, memory chips, or laminates of the modules. Subsequently, the assembled device is cured at 150° C. for approximately one hour. | 06-16-2011 |
20110260299 | METHOD FOR VIA PLATING IN ELECTRONIC PACKAGES CONTAINING FLUOROPOLYMER DIELECTRIC LAYERS - A semiconductor printed circuit board assembly (PCBA) and method for making same for use in electronic packages having a core layer of copper-invar-copper (CIC) with a layer of dielectric substrate placed on the core layer. A second layer of dielectric substrate is placed on the lower surface of the core layer of CIC. The layers are laminated together. Blind vias are laser drilled into the layers of dielectric substrate. The partially completed PCBA is subjected to a reactive ion etch (RIE) plasma as a first step to clean blind vias in the PCBA. After the plasma etch, an acidic etchant liquid solution is used on the blind vias. Pre-plating cleaning of blind vias removes a majority of oxides from the blind vias. Seed copper layers are then applied to the PCBA, followed by a layer of copper plating that can be etched to meet the requirements of the PCBA. | 10-27-2011 |
20120228013 | DEFECTIVE CONDUCTIVE SURFACE PAD REPAIR FOR MICROELECTRONIC CIRCUIT CARDS - An electrically conductive adhesive (ECA) for repairing electrically conductive pad and trace interconnects and a method of repairing interconnect locations. The method of repairing at least one defect within the area of electrically conductive circuitized substrate traces and pads outside of a pristine center area incorporates an ECA and a forming gas plasma. The ECA contains a mixture of components that allow the adhesive to be adapted to specific requirements. Curing the adhesive results in effective electrical connections being formed between the adhesive and the base pad so that the metallurgies of the conductors and of the ECA are effectively combined to engage and repair the conductor defect. | 09-13-2012 |
20120243155 | CONDUCTIVE METAL NUB FOR ENHANCED ELECTRICAL INTERCONNECTION, AND INFORMATION HANDLING SYSTEM UTILIZING SAME - A method of forming a circuitized substrate utilizing a conductive nub structure for enhanced interconnection integrity by using a joining core layer with copper outer layer on it, and forming thru-holes in the joining layer. Placing conductive adhesive in the thru-hole prior to removing the copper outer layers from the joining core layer creates an adhesive bump on joining core layer that engages a conductive secondary metal nub placed on the circuitized substrate-to-joining layer contact points, thus creating an enhanced connection between the layers. | 09-27-2012 |
20130033671 | LIQUID CRYSTAL POLYMER (LCP) SURFACE LAYER ADHESION ENHANCEMENT - A method of conditioning a liquid crystal polymer (LCP) substrate for enhanced surface adhesion accomplished by exposing an LCP substrate to oxygen plasma. The plasma will chemically alter and modify the LCP substrate surface to promote increased adhesion of metal and subsequent LCP layers during lamination. Lamination is accomplished while dwelling under the melt temperature of the LCP substrate itself. A further method is disclosed of detecting impurities modified or deposited onto the LCP surface during plasma treatment. | 02-07-2013 |