EPIC TECHNOLOGIES, INC. Patent applications |
Patent application number | Title | Published |
20130185935 | METHOD OF FABRICATING A BASE LAYER CIRCUIT STRUCTURE - Methods of fabricating a base layer circuit structure are provided. One fabrication method includes: providing an alignment carrier having a support surface; forming a plurality of electrically conductive structures above the support surface of the alignment carrier; disposing a structural material around and physically contacting the side surfaces of the electrically conductive structures formed above the support surface, the structural material having an upper surface coplanar with or parallel to the upper surface of one or more of the electrically conductive structures; exposing, if covered, the upper surfaces of the electrically conductive structures to facilitate electrical connection to the structures; and separating the alignment carrier from the base layer circuit structure. The base layer circuit structure includes the plurality of electrically conductive structures and the structural material surrounding and physically contacting the electrically conductive structures. | 07-25-2013 |
20110147911 | STACKABLE CIRCUIT STRUCTURES AND METHODS OF FABRICATION THEREOF - Stackable circuit structures and methods of fabrication are provided employing first level metallization directly on a chips-first layer(s), which includes: a chip(s), each with a pad mask over its upper surface and openings exposing its contact pads; electrically conductive structures; and structural dielectric material surrounding the side surfaces of the chips and the conductive structures. Each chips-first layer further includes a metallization layer on the front surface of the layer, residing at least partially on the pad mask and extending over an edge of the chip. Together, the pad mask and the structural material electrically isolate the metallization layer from the chip. Input/output interconnect structures physically and electrically contact the metallization layer over the front surface and/or the lower surfaces of the electrically conductive structures at the back surface of the chips-first layer, to facilitate input/output connection to chips of the layers in a stack. | 06-23-2011 |
20100047970 | INTEGRATED CONDUCTIVE STRUCTURES AND FABRICATION METHODS THEREOF FACILITATING IMPLEMENTING A CELL PHONE OR OTHER ELECTRONIC SYSTEM - Circuit structures and methods of fabrication are provided for facilitating implementing a complete electronic system in a compact package. The circuit structure includes, in one embodiment, a chips-first multichip base layer with conductive structures extending therethrough. An interconnect layer is disposed over the front surface of the multichip layer and includes interconnect metallization electrically connected to contact pads of the chips and to conductive structures extending through the structural material. A redistribution layer, disposed over the back surface of the multichip layer, includes a redistribution metallization also electrically connected to conductive structures extending through the structural material. Input/output contacts are arrayed over the redistribution layer, including over the lower surfaces of at least some integrated circuit chips within the multichip layer, and are electrically connected through the redistribution metallization, conductive structures, and interconnect metallization to contact pads of the integrated circuit chips of the multichip layer. | 02-25-2010 |
20100044855 | INTEGRATED THERMAL STRUCTURES AND FABRICATION METHODS THEREOF FACILITATING IMPLEMENTING A CELL PHONE OR OTHER ELECTRONIC SYSTEM - Circuit structures and methods of fabrication are provided for facilitating implementing a complete electronic system in a compact package. The circuit structure includes, in one embodiment, a chips-first multichip base layer with conductive structures extending therethrough. An interconnect layer is disposed over the front surface of the multichip layer and includes interconnect metallization electrically connected to contact pads of the chips and to conductive structures extending through the structural material. A redistribution layer, disposed over the back surface of the multichip layer, includes a redistribution metallization also electrically connected to conductive structures extending through the structural material. Input/output contacts are arrayed over the redistribution layer, including over the lower surfaces of at least some integrated circuit chips within the multichip layer, and are electrically connected through the redistribution metallization, conductive structures, and interconnect metallization to contact pads of the integrated circuit chips of the multichip layer. | 02-25-2010 |
20100035384 | METHODS OF FABRICATING A CIRCUIT STRUCTURE WITH A STRENGTHENING STRUCTURE OVER THE BACK SURFACE OF A CHIP LAYER - Methods of fabricating a circuit structure are provided. The fabrication method includes: forming a chip layer, which includes obtaining at least one chip and disposing a structural material around and physically contacting the side surface(s) of each chip in the chip layer. The structural material has an upper surface substantially coplanar with or parallel to an upper surface of each chip and defines at least a portion of a front surface of the chip layer, and has a lower surface substantially coplanar with or parallel to a lower surface of each chip, which defines at least portion of a back surface of the chip layer. The method further includes forming at least one strengthening structure over the back surface of the chip layer. The strengthening structure is formed to strengthen an interface between the chip(s) and the structural material. | 02-11-2010 |
20100032091 | METHOD OF BONDING TWO STRUCTURES TOGETHER WITH AN ADHESIVE LINE OF CONTROLLED THICKNESS - A method of bonding two structures together with an adhesive line of controlled thickness is provided. The method includes: applying an adhesive of controlled thickness to a first surface of a first structure; at least partially curing the adhesive; applying additional adhesive to the partially cured adhesive applied to the first surface or to a second surface of a second structure; holding the first structure and the second structure in alignment with the first surface and the second surface disposed in spaced, opposing relation; applying a force to the first structure and/or the second structure to squeeze the additional adhesive between the second surface and the partially cured adhesive applied to the first surface to reduce a thickness of the additional adhesive; and at least partially curing the additional adhesive to bond the first and second structures together. | 02-11-2010 |
20100031500 | METHOD OF FABRICATING A BASE LAYER CIRCUIT STRUCTURE - Methods of fabricating a base layer circuit structure are provided. One fabrication method includes: providing an alignment carrier having a support surface; forming a plurality of electrically conductive structures above the support surface of the alignment carrier; disposing a structural material around and physically contacting the side surfaces of the electrically conductive structures formed above the support surface, the structural material having an upper surface coplanar with or parallel to the upper surface of one or more of the electrically conductive structures; exposing, if covered, the upper surfaces of the electrically conductive structures to facilitate electrical connection to the structures; and separating the alignment carrier from the base layer circuit structure. The base layer circuit structure includes the plurality of electrically conductive structures and the structural material surrounding and physically contacting the electrically conductive structures. | 02-11-2010 |
20080316714 | INTEGRATED STRUCTURES AND FABRICATION METHODS THEREOF IMPLEMENTING A CELL PHONE OR OTHER ELECTRONIC SYSTEM - Circuit structures and methods of fabrication are provided for facilitating implementing a complete electronic system in a compact package. The circuit structure includes, in one embodiment, a chips-first multichip base layer with conductive structures extending therethrough. An interconnect layer is disposed over the front surface of the multichip layer and includes interconnect metallization electrically connected to contact pads of the chips and to conductive structures extending through the structural material. A redistribution layer, disposed over the back surface of the multichip layer, includes a redistribution metallization also electrically connected to conductive structures extending through the structural material. Input/output contacts are arrayed over the redistribution layer, including over the lower surfaces of at least some integrated circuit chips within the multichip layer, and are electrically connected through the redistribution metallization, conductive structures, and interconnect metallization to contact pads of the integrated circuit chips of the multichip layer. | 12-25-2008 |
20080315404 | INTEGRATED THERMAL STRUCTURES AND FABRICATION METHODS THEREOF FACILITATING IMPLEMENTING A CELL PHONE OR OTHER ELECTRONIC SYSTEM - Circuit structures and methods of fabrication are provided for facilitating implementing a complete electronic system in a compact package. The circuit structure includes, in one embodiment, a chips-first multichip base layer with conductive structures extending therethrough. An interconnect layer is disposed over the front surface of the multichip layer and includes interconnect metallization electrically connected to contact pads of the chips and to conductive structures extending through the structural material. A redistribution layer, disposed over the back surface of the multichip layer, includes a redistribution metallization also electrically connected to conductive structures extending through the structural material. Input/output contacts are arrayed over the redistribution layer, including over the lower surfaces of at least some integrated circuit chips within the multichip layer, and are electrically connected through the redistribution metallization, conductive structures, and interconnect metallization to contact pads of the integrated circuit chips of the multichip layer. | 12-25-2008 |
20080315391 | INTEGRATED STRUCTURES AND METHODS OF FABRICATION THEREOF WITH FAN-OUT METALLIZATION ON A CHIPS-FIRST CHIP LAYER - Electronic modules and methods of fabrication are provided implementing a first metallization level directly on a chips-first chip layer. The chips-first layer includes chips, each with a pad mask over an upper surface and openings to expose chip contact pads. Structural dielectric material surrounds and physically contacts the side surfaces of the chips, and has an upper surface which is parallel to an upper surface of the chips. A metallization layer is disposed over the front surface of the chips-first layer, residing at least partially on the pad masks of the chips, and extending over one or more edges of the chips. Together, the pad masks of the chips, and the structural dielectric material electrically isolate the metallization layer from the edges of the chips, and from one or more electrical structures of the chips in the chips-first layer. | 12-25-2008 |
20080315377 | PACKAGED ELECTRONIC MODULES AND FABRICATION METHODS THEREOF IMPLEMENTING A CELL PHONE OR OTHER ELECTRONIC SYSTEM - Circuit structures and methods of fabrication are provided for facilitating implementing a complete electronic system in a compact package. The circuit structure includes, in one embodiment, a chips-first multichip base layer with conductive structures extending therethrough. An interconnect layer is disposed over the front surface of the multichip layer and includes interconnect metallization electrically connected to contact pads of the chips and to conductive structures extending through the structural material. A redistribution layer, disposed over the back surface of the multichip layer, includes a redistribution metallization also electrically connected to conductive structures extending through the structural material. Input/output contacts are arrayed over the redistribution layer, including over the lower surfaces of at least some integrated circuit chips within the multichip layer, and are electrically connected through the redistribution metallization, conductive structures, and interconnect metallization to contact pads of the integrated circuit chips of the multichip layer. | 12-25-2008 |
20080315375 | INTEGRATED CONDUCTIVE STRUCTURES AND FABRICATION METHODS THEREOF FACILITATING IMPLEMENTING A CELL PHONE OR OTHER ELECTRONIC SYSTEM - Circuit structures and methods of fabrication are provided for facilitating implementing a complete electronic system in a compact package. The circuit structure includes, in one embodiment, a chips-first multichip base layer with conductive structures extending therethrough. An interconnect layer is disposed over the front surface of the multichip layer and includes interconnect metallization electrically connected to contact pads of the chips and to conductive structures extending through the structural material. A redistribution layer, disposed over the back surface of the multichip layer, includes a redistribution metallization also electrically connected to conductive structures extending through the structural material. Input/output contacts are arrayed over the redistribution layer, including over the lower surfaces of at least some integrated circuit chips within the multichip layer, and are electrically connected through the redistribution metallization, conductive structures, and interconnect metallization to contact pads of the integrated circuit chips of the multichip layer. | 12-25-2008 |