Patent application number | Description | Published |
20080237843 | Microelectronic package including thermally conductive sealant between heat spreader and substrate - A microelectronic package. The package includes a substrate; a die mounted onto the substrate; an integrated heat spreader mounted onto the substrate, and thermally coupled to a backside of the die; and a sealant material bonding the integrated heat spreader to the substrate, the sealant material having a bulk thermal conductivity above about 1 W/m/° C. and a modulus of elasticity lower than a modulus of elasticity of solder. | 10-02-2008 |
20090004890 | SKIVED ELECTRICAL CONTACT FOR CONNECTING AN IC DEVICE TO A CIRCUIT BOARD AND METHOD OF MAKING A CONTACT BY SKIVING - The disclosed embodiments relate to the formation of an electrical contact using a skiving technique. The electrical contact includes a spring structure that has been skived away from an underlying metal body, but the spring remains coupled with the metal body which provides a base for the spring structure. The skived spring portion of the electrical contact may comprise a cantilever-like spring, a coil-like spring, or any other suitable type of spring. Such a spring contact may be used to form an electrical connection between an integrated circuit device and a circuit board (or other substrate). Other embodiments are described and claimed. | 01-01-2009 |
20090065930 | Package Substrate Including Surface Mount Component Mounted on a Peripheral Surface thereof and Microelectronic Package Including Same - A microelectronic combination and a method of making the combination. The combination includes a package substrate including a substrate body having a peripheral surface and contacts disposed at the peripheral surface; and a surface mount component electrically and mechanically bonded to the contacts. | 03-12-2009 |
20090079063 | MICROELECTRONIC PACKAGE AND METHOD OF COOLING AN INTERCONNECT FEATURE IN SAME - A microelectronic package comprises a substrate ( | 03-26-2009 |
20090166855 | Cooling solutions for die-down integrated circuit packages - Systems for cooling the backside of a semiconductor die located in a die-down integrated circuit (IC) package are described. The IC package is attached to the topside of a printed circuit board (PCB) with the backside of the die residing below the topside surface of the PCB. A cooling plate is attached to the backside of the die and thermally connected to a heat sink located above the topside surface of the PCB via conduits that pass through openings in the PCB. | 07-02-2009 |
20090317986 | SKIVED ELECTRICAL CONTACT FOR CONNECTING AN IC DEVICE TO A CIRCUIT BOARD AND METHOD OF MAKING A CONTACT BY SKIVING - The disclosed embodiments relate to the formation of an electrical contact using a skiving technique. The electrical contact includes a spring structure that has been skived away from an underlying metal body, but the spring remains coupled with the metal body which provides a base for the spring structure. The skived spring portion of the electrical contact may comprise a cantilever-like spring, a coil-like spring, or any other suitable type of spring. Such a spring contact may be used to form an electrical connection between an integrated circuit device and a circuit board (or other substrate). Other embodiments are described and claimed. | 12-24-2009 |
20100327424 | Multi-chip package and method of providing die-to-die interconnects in same - A multi-chip package includes a substrate ( | 12-30-2010 |
20120200993 | INTEGRATED TRANSLATIONAL LAND-GRID ARRAY SOCKETS AND LOADING MECHANISMS FOR SEMICONDUCTIVE DEVICES - A land-grid array die package socket is configured for low- or zero insertion-force assembly with a land-grid array die package. For zero insertion-force assembly, a motion plate applies a force on a land-grid array contact that causes a contact tip to move into protective cover while the die package is inserted into the socket. After zero insertion-force assembly, the motion plate applies a force on the land-grid array contact that causes the contact tip to deflect in a positive-Z direction until a useful contact is made at the contact tip with a land-grid array pad. | 08-09-2012 |
20120261838 | MULTI-CHIP PACKAGE AND METHOD OF PROVIDING DIE-TO-DIE INTERCONNECTS IN SAME - A multi-chip package includes a substrate ( | 10-18-2012 |
20140070380 | BRIDGE INTERCONNECT WITH AIR GAP IN PACKAGE ASSEMBLY - Embodiments of the present disclosure are directed towards techniques and configurations for a bridge interconnect assembly that can be embedded in a package assembly. In one embodiment, a package assembly includes a package substrate configured to route electrical signals between a first die and a second die and a bridge embedded in the package substrate and configured to route the electrical signals between the first die and the second die, the bridge including a bridge substrate, one or more through-hole vias (THVs) formed through the bridge substrate, and one or more traces disposed on a surface of the bridge substrate to route the electrical signals between the first die and the second die. Routing features including traces and a ground plane of the bridge interconnect assembly may be separated by an air gap. Other embodiments may be described and/or claimed. | 03-13-2014 |
20140082915 | INTEGRATED TRANSLATIONAL LAND-GRID ARRAY SOCKETS AND LOADING MECHANISMS FOR SEMICONDUCTIVE DEVICES - A land-grid array die package socket is configured for low- or zero insertion-force assembly with a land-grid array die package. For zero insertion-force assembly, a motion plate applies a force on a land-grid array contact that causes a contact tip to move into protective cover while the die package is inserted into the socket. After zero insertion-force assembly, the motion plate applies a force on the land-grid array contact that causes the contact tip to deflect in a positive-Z direction until a useful contact is made at the contact tip with a land-grid array pad. | 03-27-2014 |
20140084441 | STACKED-DIE PACKAGE INCLUDING DIE IN PACKAGE SUBSTRATE - Some embodiments described herein include apparatuses and methods of forming such apparatuses. In one such embodiment, an apparatus may include a substrate, a first die, and a second die coupled to the first die and the substrate. The substrate may include an opening. At least a portion of the die may occupy at least a portion of the opening in the substrate. Other embodiments including additional apparatuses and methods are described. | 03-27-2014 |
20140087590 | Vertical Contact for Shielded Sockets - A conductive contact includes a hollow cylinder, a spring strip and a contact head. | 03-27-2014 |
20140091445 | BUMPLESS BUILD-UP LAYER PACKAGE INCLUDING AN INTEGRATED HEAT SPREADER - An example includes a die package including a microelectronic die having a lower die surface, an upper die surface parallel to the lower die surface, and a die side, the microelectronic die including an active region and an inactive region. The example optionally includes a heat spreader having a lower heat spreader surface, an upper heat spreader surface parallel to the lower heat spreader surface, and at least one heat spreader side, the heat spreader disposed on the upper surface of the microelectronic die in thermal communication with the inactive region of the die and electrically insulated from the active region. The example optionally includes an encapsulation material encapsulating the die side and the heat spreader side and lower heat spreader surface, the encapsulation material including a lower surface substantially parallel to the die lower surface and an upper surface substantially parallel to the die upper surface. | 04-03-2014 |
20140091474 | LOCALIZED HIGH DENSITY SUBSTRATE ROUTING - Embodiments of a system and methods for localized high density substrate routing are generally described herein. In one or more embodiments an apparatus includes a medium, first and second circuitry elements, an interconnect element, and a dielectric layer. The medium can include low density routing therein. The interconnect element can be embedded in the medium, and can include a plurality of electrically conductive members therein, the electrically conductive member can be electrically coupled to the first circuitry element and the second circuitry element. The interconnect element can include high density routing therein. The dielectric layer can be over the interconnect die, the dielectric layer including the first and second circuitry elements passing therethrough. | 04-03-2014 |
20140159228 | HIGH DENSITY SUBSTRATE ROUTING IN BBUL PACKAGE - Discussed generally herein are devices that include high density interconnects between dice and techniques for making and using those devices. In one or more embodiments a device can include a bumpless buildup layer (BBUL) substrate including a first die at least partially embedded in the BBUL substrate, the first die including a first plurality of high density interconnect pads. A second die can be at least partially embedded in the BBUL substrate, the second die including a second plurality of high density interconnect pads. A high density interconnect element can be embedded in the BBUL substrate, the high density interconnect element including a third plurality of high density interconnect pads electrically coupled to the first and second plurality of high density interconnect pads. | 06-12-2014 |
20140299999 | INTEGRATED CIRCUIT PACKAGE ASSEMBLIES INCLUDING A GLASS SOLDER MASK LAYER - Embodiments of the present disclosure are directed towards techniques and configurations for integrated circuit package assemblies including a glass solder mask layer and/or bridge. In one embodiment, an apparatus includes one or more build-up layers having electrical routing features and a solder mask layer composed of a glass material, the solder mask layer being coupled with the one or more build-up layers and having openings disposed in the solder mask layer to allow coupling of package-level interconnect structures with the electrical routing features through the one or more openings. Other embodiments may be described and/or claimed. | 10-09-2014 |
20140307388 | FLUID-COOLED HEAT DISSIPATION DEVICE - A heat dissipation device that includes a base plate having a plurality of substantially circular channels which are substantially concentrically arranged; and a fluid distribution structure adjacent the base plate, wherein the fluid distribution structure has a plurality of inlet conduits extending substantially radially from a central area with each of the plurality of inlet conduits having at least one fluid delivery port extending through the fluid distribution structure to at least one base plate circular channel, and wherein the fluid distribution structure has a plurality of outlet zones defined between adjacent inlet conduits with each of the plurality of outlet zones having at least one fluid removal port extending through the fluid distribution structure to at least one base plate circular channel. | 10-16-2014 |
20150084192 | TALL SOLDERS FOR THROUGH-MOLD INTERCONNECT - Generally discussed herein are systems and apparatuses that include an extended TSBA ball and techniques for making the same. According to an example, a technique can include forming a circuit substrate including forming a circuit on a substrate, the circuit exposed along an upper surface of the substrate, wherein the substrate is for coupling the circuit with a die along a lower surface of the circuit substrate. A molding can be formed onto an upper surface of the circuit substrate, over the circuit of the circuit substrate. An opening can be defined in the molding so that the opening can extend to a top surface of the molding to at least a portion of the circuit. Solder can be formed into the opening, including conforming the solder to the opening and the circuit substrate. | 03-26-2015 |
20150084210 | HIGH DENSITY SUBSTRATE INTERCONNECT USING INKJET PRINTING - Generally discussed herein are systems and apparatuses that include a dense interconnect bridge and techniques for making the same. According to an example a technique can include creating a multidie substrate, printing an interconnect bridge on the multidie substrate, electrically coupling a first die to a second die by coupling the first and second dies through the interconnect bridge. | 03-26-2015 |
20150091182 | DIE ASSEMBLY ON THIN DIELECTRIC SHEET - A die assembly formed on a thin dielectric sheet is described. In one example, a first and a second die have interconnect areas. A dielectric sheet, such as glass, silicon, or oxidized metal is applied over the interconnect areas of dies. Conductive vias are formed in the dielectric sheet to connect with pads of the interconnect areas. A build-up layer includes routing to connect pads of the first die interconnect area to pads of the second die interconnect area through the conductive vias and a cover is applied over the dies, the dielectric sheet, and the build-up layer. | 04-02-2015 |
20150104907 | BUMPLESS BUILD-UP LAYER PACKAGE INCLUDING AN INTEGRATED HEAT SPREADER - An example includes a die package including a microelectronic die having a lower die surface, an upper die surface parallel to the lower die surface, and a die side, the microelectronic die including an active region and an inactive region. The example optionally includes a heat spreader having a lower heat spreader surface, an upper heat spreader surface parallel to the lower heat spreader surface, and at least one heat spreader side, the heat spreader disposed on the upper surface of the microelectronic die in thermal communication with the inactive region of the die and electrically insulated from the active region. The example optionally includes an encapsulation material encapsulating the die side and the heat spreader side and lower heat spreader surface, the encapsulation material including a lower surface substantially parallel to the die lower surface and an upper surface substantially parallel to the die upper surface. | 04-16-2015 |