Abstract: A method of forming a plurality of solid conductive bumps for interconnecting two conductive layers of a circuit board with substantially coplanar upper surfaces. The method comprises the steps of applying a continuous homogenous metal layer onto a dielectric substrate, applying a first photoresist and exposing and developing said first photoresist to define a pattern of conductive bumps, etching the metal layer exposed by said development to form said plurality of conductive bumps, removing said first photoresist, applying a second photoresist onto the metal layer, exposing and developing said second photoresist to define a pattern of conductive bumps and circuit lines; etching the metal layer exposed by said development to form a pattern of circuit lines in said metal layer; and removing said second photoresist. The methods of the present invention also provides for fabricating a multilayer circuit board and a metallic border for providing rigidity to a panel.

Abstract: The present invention provides a new device and method for enhancing the electrical properties of the thick metal backer/electrically conductive thermoset adhesive/printed circuit board or card assembly. The enhanced electrical properties are obtained by providing a thin bondline of conductive adhesive that is essentially void free.

Abstract: A method of forming a plurality of solid conductive bumps for interconnecting two conductive layers of a circuit board with substantially coplanar upper surfaces. The method comprises the steps of applying a continuous homogenous metal layer onto a dielectric substrate, applying a first photoresist and exposing and developing said first photoresist to define a pattern of conductive bumps; etching the metal layer exposed by said development to form said plurality of conductive bumps; removing said first photoresist; applying a second photoresist onto the metal layer; exposing and developing said second photoresist to define a pattern of conductive bumps and circuit lines; etching the metal layer exposed by said development to form a pattern of circuit lines in said metal layer; and removing said second photoresist. The methods of the present invention also provides for fabricating a multilayer circuit board and a metallic border for providing rigidity to a panel.

Abstract: A method of forming a plurality of solid conductive bumps for interconnecting two conductive layers of a circuit board with substantially coplanar upper surfaces. The method comprises the steps of applying a continuous homogenous metal layer onto a dielectric substrate, applying a first photoresist and exposing and developing said first photoresist to define a pattern of conductive bumps; etching the metal layer exposed by said development to form said plurality of conductive bumps; removing said first photoresist; applying a second photoresist onto the metal layer; exposing and developing said second photoresist to define a pattern of conductive bumps and circuit lines; etching the metal layer exposed by said development to form a pattern of circuit lines in said metal layer; and removing said second photoresist. The methods of the present invention also provides for fabricating a multilayer circuit board and a metallic border for providing rigidity to a panel.

Abstract: A method of forming a printed circuit board comprising a plurality of conductive bumps with substantially coplanar upper surfaces. The method comprises the steps of applying a metal layer onto a dielectric substrate; applying a first photoresist onto said substrate and exposing and developing said first photoresist to define a pattern of conductive bumps; etching the metal layer exposed by said development to form said plurality of conductive bumps; removing said first photoresist; applying a second photoresist onto the metal layer; exposing and developing said second photoresist to define a pattern of conductive bumps and circuit lines; etching the metal layer exposed by said development to form a pattern of circuit lines in said metal layer; and removing said second photoresist. The present invention is also provides a method for preparing a reinforced panel.

Abstract: A platen for use in a laminating press is provided which includes a body of material having first and second faces and spaced first and second ends. Preferably, at least one heating device is disposed in the body of material. First and second spaced cooling channels are formed in the body of material, the first cooling channel being adjacent the first face and having a fluid inlet port adjacent to or in the first end, and a fluid outlet port adjacent to or in the second end, and a second cooling channel being adjacent the second face and having a fluid inlet port adjacent to or in said second end, and a fluid outlet port adjacent to or in the first end. The invention also contemplates using such platens for laminating a book or stack of sheets of material to form a unitary single member having reduced stresses.

Abstract: The present invention provides a new device and method for enhancing the electrical properties of the thick metal backer/electrically conductive thermoset adhesive/printed circuit board or card assembly. The enhanced electrical properties are obtained by providing a thin bondline of conductive adhesive that is essentially void free.

Abstract: The electrical connections of an integrated circuit chip assembly comprised of an integrated circuit chip attached to a substrate are encapsulated and reinforced with a high viscosity encapsulant material by dispensing the encapsulant material through an opening in the substrate into the space between the integrated circuit chip and the substrate. An integrated circuit chin assembly having a reinforced electrical interconnection which is more resistant to weakening as a result of stress created by differences in coefficient of thermal expansion between the integrated circuit chip and the substrate to which the integrated circuit chip is attached is produced.

Abstract: The present invention provides a new device and method for enhancing the electrical properties of the thick metal backer/electrically conductive thermoset adhesive/printed circuit board or card assembly. The enhanced electrical properties are obtained by providing a thin bondline of conductive adhesive that is essentially void free.

Abstract: An integrated circuit chip carrier assembly is provided by joining a substrate having electrically conductive regions on at least one major surface thereof to a stiffener by a bonding film. The bonding film comprises a dielectric substrate having a thermoset adhesive on both of its major surfaces. The thermoset adhesive prior to the bonding is a B-stage adhesive, is tack-free at normal room temperatures and is solvent free.

Abstract: A platen for use in a laminating press is provided which includes a body of material having first and second faces and spaced first and second ends. Preferably, at least one heating device is disposed in the body of material. First and second spaced cooling channels are formed in the body of material, the first cooling channel being adjacent the first face and having a fluid inlet port adjacent to or in the first end, and a fluid outlet port adjacent to or in the second end, and a second cooling channel being adjacent the second face and having a fluid inlet port adjacent to or in said second end, and a fluid outlet port adjacent to or in the first end. The invention also contemplates using such platens for laminating a book or stack of sheets of material to form a unitary single member having reduced stresses.

Abstract: The electrical connections of an integrated circuit chip assembly comprised of an integrated circuit chip attached to a substrate are encapsulated and reinforced with a high viscosity encapsulant material by dispensing the encapsulant material through an opening in the substrate into the space between the integrated circuit chip and the substrate. An integrated circuit chin assembly having a reinforced electrical interconnection which is more resistant to weakening as a result of stress created by differences in coefficient of thermal expansion between the integrated circuit chip and the substrate to which the integrated circuit chip is attached is produced.

Abstract: The electrical connections of an integrated circuit chip assembly comprised of an integrated circuit chip attached to a substrate are encapsulated and reinforced with a high viscosity encapsulant material by dispensing the encapsulant material through an opening in the substrate into the space between the integrated circuit chip and the substrate. An integrated circuit chip assembly having a reinforced electrical interconnection which is more resistant to weakening as a result of stress created by differences in coefficient of thermal expansion between the integrated circuit chip and the substrate to which the integrated circuit chip is attached is produced.

Abstract: An integrated circuit chip carrier assembly is provided by joining a substrate having electrically conductive regions on at least one major surface thereof to a stiffener by a bonding film. The bonding film comprises a dielectric substrate having a thermoset adhesive on both of its major surfaces. The thermoset adhesive prior to the bonding is a B-stage adhesive, is tack-free at normal room temperatures and is solvent free.

Abstract: The electrical connections of an integrated circuit chip assembly comprised of an integrated circuit chip attached to a substrate are encapsulated and reinforced with a high viscosity encapsulant material by dispensing the encapsulant material through an opening in the substrate into the space between the integrated circuit chip and the substrate. An integrated circuit chip assembly having a reinforced electrical interconnection which is more resistant to weakening as a result of stress created by differences in coefficient of thermal expansion between the integrated circuit chip and the substrate to which the integrated circuit chip is attached is produced.

Abstract: A method for forming a printed circuit board comprising a plurality of conductive bumps having substantially coplanar upper surfaces is provided. The method comprises: forming a substantially planar metallic layer having a first thickness on at least one surface of the dielectric; applying a first photoresist on the metal layer; imaging the first photoresist to define a pattern of conductive bumps; etching the exposed portions of the metal layer to a second thickness to form the conductive bumps; removing the first photoresist; applying a second photoresist to the metal layer; imaging the second photoresist to define a pattern of circuitry; etching the exposed portions of the metal layer to provide the electrical circuitry; and removing the second photoresist. The present invention also provides a method for preparing printed circuit boards wherein two conductive layers that are disposed on opposing sides of a dielectric layer are inter-connected by at least one of the substantially coplanar conductive bumps.

Abstract: A printed circuit board comprising a plurality of conductive bumps having substantially coplanar upper surfaces is provided. The circuit board is formed by providing: a substantially planar metallic layer having a first thickness on at least one surface of the dielectric; applying a first photoresist on the metal layer; imaging the first photoresist to define a pattern of conductive bumps; etching the exposed portions of the metal layer to a second thickness to form the conductive bumps; removing the first photoresist; applying a second photoresist to the metal layer; imaging the second photoresist to define a pattern of circuitry; etching the exposed portions of the metal layer to provide the electrical circuitry; and removing the second photoresist. The present invention also provides a method for preparing printed circuit boards wherein two conductive layers that are disposed on opposing sides of a dielectric layer are inter-connected by at least one of the substantially coplanar conductive bumps.

Abstract: The invention relates to subtractive and additive processes for creating a circuitized cavity in a printed circuit board. Additionally, the invention includes a circuitized cavity and a printed circuit board with a circuitized cavity. The circuitized cavity provides for a variety of advantages over wire bonds.

Abstract: A method for making a printed circuit with a cavity is disclosed. The method comprises the step of laying a sticker sheet on a first, metallized dielectric layer and laying a second, metallized dielectric layer on the sticker sheet. The second metallized dielectric layer and the sticker sheet each have a window which is registered with the other window forming a cavity. Next, a flexible release layer is laid above the second metallized dielectric layer and a thermosetting visco-plastic material is laid on the release layer over the cavity. Next the first and second metallized dielectric layers, sticker sheet, release layer and visco-plastic material are laminated by heat and pressure to cure the sticker sheet and thereby bind the first and second metallized dielectric sheets to each other. During the lamination step, the sticker sheet flows to the perimeter of the cavity.

Abstract: A method for filling a hole in a printed wiring board (PWB) and the resultant PWB. During an intermediate stage in fabrication, a PWB comprises a lamination of dielectric sheets with metalizations on various layers and a plated through hole (PTH). A photoimageable material is formed on a surface of the laminate and covers the PTH. The photoimageable material in a region covering the PTH is partially cured by exposure to light. The remainder of the photoimageable material is developed away. Then, the partially cured photoimageable material in the region of the PTH is pressed into the PTH to form a plug. By application of heat during or after the forcing step, the plug is further cured to a hard condition. For some applications, the plug is mechanically abraded to be flush with one or both surfaces of the laminate.