摘要:
A method of making a circuitized substrate and an electrical assembly utilizing same in which the substrate is comprised of at least two sub-composites in which the dielectric material of at least one of these sub-composites is heated during bonding (e.g., lamination) to the other sufficiently to cause the dielectric material to flow into and substantially fill openings in a conductive layer for the bonded structure. Conductive thru-holes are formed within the bonded structure to couple selected ones of the structure's conductive layers. Formation of an electrical assembly is possible by positioning one or more electrical components (e.g., semiconductor chips or chip carriers) on the final structure and electrically coupling these to the structure's external circuitry.
摘要:
A printed circuit board for use in an electronic device package such as a ball grid array package or organic chip carrier package. This printed circuit board includes a glass-free dielectric for separating and insulating power cores, circuitry or plated through holes from each other to prevent shorts caused by a migration of conductive material along glass-based prepreg substrates.
摘要:
A method of forming a printed circuit card with a metal power plane layer between two photoimageable dielectric layers is provided. Photoformed metal filled vias and plated through holes are in the photopatternable material, and signal circuitry is on the surfaces of each of the dielectric materials connected to the vias and plated through holes. A border may be around the card including a metal layer terminating in from the edge of one of the dielectric layers. Copper foil with clearance holes is provided. First and second layers of photoimageable curable dielectric material are on opposite sides of the copper. Patterns are developed on the first and second layers of the photoimageable material to reveal the metal layer through vias. Through holes are developed where holes were patterned in both dielectric layers. The surfaces of the photoimageable material, vias and through holes are metallized by copper plating, preferably using photoresist.
摘要:
An electronic structure. The electronic structure comprises a layer. The layer includes: a cylindrical volume; a fully cured annular volume of a photoimageable dielectric (PID) material circumscribing the cylindrical volume; and a partially cured remaining volume of the PID material circumscribing the annular volume. The cylindrical volume may include a via. The structure can include a power plane.
摘要:
A laminate circuit structure assembly is provided that comprises at least two modularized circuitized plane subassemblies; a joining layer located between each of the subassemblies and wherein the subassemblies and joining layer are bonded together with a cured dielectric from a bondable, curable dielectric. The subassemblies and joining layer are electrically interconnected with bondable electrically conductive material. The joining layer comprises dielectric layers disposed about an internal electrically conductive layer. The electrically conductive layer has a via and the dielectric layers each have a via of smaller diameter than the vias in the electrically conductive layer and are aligned with the vias in the electrically conductive layer. The vias are filled with electrically bondable electrically conductive material for providing electrical contact between the subassemblies.
摘要:
A method of forming a printed circuit board or circuit card is provided with a metal layer which serves as a power plane sandwiched between a pair of photoimageable dielectric layers. Photoformed metal filled vias and photoformed plated through holes are in the photopatternable material, and signal circuitry is on the surfaces of each of the dielectric materials and connected to the vias and plated through holes. A border may be around the board or card including a metal layer terminating in from the edge of one of the dielectric layers. A copper foil is provided with clearance holes. First and second layers of photoimageable curable dielectric material is disposed on opposite sides of the copper which are photoimageable material. The patterns are developed on the first and second layers of the photoimageable material to reveal the metal layer through vias. At the clearance holes in the copper, through holes are developed where holes were patterned in both dielectric layers. Thereafter, the surfaces of the photoimageable material, vias and through holes are metalized by copper plating. This is preferably done by protecting the remainder of the circuitry with photoresist and utilizing photolithographic techniques. The photoresist is thereafter removed, leaving a circuit board or card having metalization on both sides, vias extending from both sides to the copper layer in the center, plated through holes connecting the two outer circuitized copper layers.
摘要:
A method for forming an electronic structure. Provides is a layer that includes a cylindrical volume of a photoimageable dielectric (PID) material, an annular volume of the PID material circumscribing the cylindrical volume, and a remaining volume of the PID material circumscribing the annular volume. The layer is photolithograhically exposed to radiation. The annular volume is fully cured by the radiation. The remaining volume is partially cured by the remaining volume by said radiation. The method prevents curing of the cylindrical volume, wherein the PID material in the cylindrical volume remains uncured.
摘要:
A method of forming a printed circuit board or circuit card is provided with a metal layer which serves as a power plane sandwiched between a pair of photoimageable dielectric layers. Photoformed metal filled vias and photoformed plated through holes are in the photopatternable material, and signal circuitry is on the surfaces of each of the dielectric materials and connected to the vias and plated through holes. A border may be around the board or card including a metal layer terminating in from the edge of one of the dielectric layers. A copper foil is provided with clearance holes. First and second layers of photoimageable curable dielectric material is disposed on opposite sides of the copper which are photoimageable material. The patterns are developed on the first and second layers of the photoimageable material to reveal the metal layer through vias. At the clearance holes in the copper, through holes are developed where holes were patterned in both dielectric layers. Thereafter, the surfaces of the photoimageable material, vias and through holes are metalized by copper plating. This is preferably done by protecting the remainder of the circuitry with photoresist and utilizing photolithographic techniques. The photoresist is thereafter removed, leaving a circuit board or card having metalization on both sides, vias extending from both sides to the copper layer in the center, plated through holes connecting the two outer circuitized copper layers.
摘要:
A laminate circuit structure assembly is provided that comprises at least two modularized circuitized plane subassemblies; a joining layer located between each of the subassemblies and wherein the subassemblies and joining layer are bonded together with a cured dielectric from a bondable, curable dielectric. The subassemblies and joining layer are electrically interconnected with bondable electrically conductive material. The joining layer comprises dielectric layers disposed about an internal electrically conductive layer. The electrically conductive layer has a via and the dielectric layers each have a via of smaller diameter than the vias in the electrically conductive layer and are aligned with the vias in the electrically conductive layer. The vias are filled with electrically bondable electrically conductive material for providing electrical contact between the subassemblies.
摘要:
A method of forming a printed circuit card with a metal power plane layer between two photoimageable dielectric layers is provided. Photoformed metal filled vias plated through holes are in the photopatternable material, and signal circuitry is on the surfaces of each of the dielectric materials connected to the vias and plated through holes. A border may be around the card including a metal layer termination in from the edge of one of the dielectric layers. Copper foil with clearance holes is provided. First and second layers of photoimageable curable dielectric material are on opposite sides of the copper. Patterns are developed on the first and second layers of the photoimageable material to reveal the metal layer through vias. Through holes are developed where holes were patterned in both dielectric layers. The surfaces of the photoimageable material, vias and through holes are metallized by copper plating, preferably using photoresist.