Abstract: A stacked semiconductor apparatus has at least one die attached to a first side of a carrier substrate. A first circuitized substrate is attached to the first side of the carrier substrate and overlying the at least one die in a manner such that the first circuitized substrate serves as an electrical interconnection device and a heat spreading lid. The first circuitized substrate is further configured so as to facilitate cooling of the at least one die by at least a cross flow of a cooling medium therethrough.

Abstract: A metallization process and material system for metallizing either blind or through vias in silicon, involving forming a low coefficient of thermal expansion composite or suspension, relative to pure metals, such as copper, silver, or gold, and filling the via holes in the silicon with the paste or suspension. The suspensions sinter with minimal bulk shrinkage, forming highly conductive structures without the formation of macroscopic voids. The selected suspension maintains a coefficient of thermal expansion closer to that of silicon.

Abstract: A stacked semiconductor apparatus has at least one die attached to a first side of a carrier substrate. A first circuitized substrate is attached to the first side of the carrier substrate and overlying the at least one die in a manner such that the first circuitized substrate serves as an electrical interconnection device and a heat spreading lid. The first circuitized substrate is further configured so as to facilitate cooling of the at least one die by at least a cross flow of a cooling medium therethrough.

Abstract: The present invention relates generally to thermally-conductive pastes for use with integrated circuits, and particularly, but not by way of limitation, to self-orienting microplates of graphite.

Abstract: A carrier structure and method for fabricating a carrier structure with through-vias each having a conductive structure with an effective coefficient of thermal expansion which is less than or closely matched to that of the substrate, and having an effective elastic modulus value which is less than or closely matches that of the substrate. The conductive structure may include concentric via fill areas having differing materials disposed concentrically therein, a core of the substrate material surrounded by an annular ring of conductive material, a core of CTE-matched non-conductive material surrounded by an annular ring of conductive material, a conductive via having an inner void with low CTE, or a full fill of a conductive composite material such as a metal-ceramic paste which has been sintered or fused.

Abstract: A multilayer ceramic repair process which provides a new electrical repair path to connect top surface vias. The repair path is established between a defective net and a redundant repair net contained within the multilayer ceramic substrate. The defective net and the repair net each terminate at surface vias of the substrate. A laser is used to form post fired circuitry on and in the substrate. This is followed by the electrical isolation of the defective net from the electrical repair structure and passivation of the electrical repair line.

Abstract: A metallization process and material system for metallizing either blind or through vias in silicon, involving forming a low coefficient of thermal expansion composite or suspension, relative to pure metals, such as copper, silver, or gold, and filling the via holes in the silicon with the paste or suspension. The suspensions sinter with minimal bulk shrinkage, forming highly conductive structures without the formation of macroscopic voids. The selected suspension maintains a coefficient of thermal expansion closer to that of silicon.

Abstract: A carrier structure and method for fabricating a carrier structure with through-vias each having a conductive structure with an effective coefficient of thermal expansion which is less than or closely matched to that of the substrate, and having an effective elastic modulus value which is less than or closely matches that of the substrate. The conductive structure may include concentric via fill areas having differing materials disposed concentrically therein, a core of the substrate material surrounded by an annular ring of conductive material, a core of CTE-matched non-conductive material surrounded by an annular ring of conductive material, a conductive via having an inner void with low CTE, or a full fill of a conductive composite material such as a metal-ceramic paste which has been sintered or fused.

Abstract: A method for filling vias, and in particular initially blind vias, in a wafer, and various apparatus for performing the method, comprising evacuating air from the vias; trapping at least a portion of the wafer and a paste for filling the vias between two surfaces; and pressurizing the paste to fill the vias.

Abstract: A negative coefficient of thermal expansion particle includes a first bilayer having a first bilayer inner layer and a first bilayer outer layer, and a second bilayer having a second bilayer inner layer and a second bilayer outer layer. The first and second bilayers are joined together along perimeters of the first and second bilayer outer layers and first and second bilayer inner layers, respectively. The first bilayer inner layer and the second bilayer inner layer are made of a first material and the first bilayer outer layer and the second bilayer outer layer are made of a second material. The first material has a greater coefficient of thermal expansion than that of the second material.