Patent application number | Description | Published |
20090014822 | MICROELECTRONIC IMAGERS AND METHODS FOR MANUFACTURING SUCH MICROELECTRONIC IMAGERS - Microelectronic imagers and methods of manufacturing such microelectronic imagers are disclosed. In one embodiment, a method for manufacturing a microelectronic imager can include irradiating selected portions of an imager housing unit. The housing unit includes a body having lead-in surfaces and a support surface that define a recess sized to receive a microelectronic die. The method also includes depositing a conductive material onto the irradiated portions of the housing unit and forming electrically conductive traces. The method further includes coupling a plurality of terminals at a front side of a microelectronic die to corresponding electrically conductive traces in the recess in a flip-chip configuration. The microelectronic die includes an image sensor aligned with at least a portion of an optical element carried by the housing unit and at least partially aligned with the recess. The method can then include depositing an encapsulant into the recess and over at least a portion of the microelectronic die. | 01-15-2009 |
20090014859 | INTERCONNECTS FOR PACKAGED SEMICONDUCTOR DEVICES AND METHODS FOR MANUFACTURING SUCH DEVICES - Packaged semiconductor devices and assemblies including interconnects and methods for forming such interconnects are disclosed herein. One embodiment of a packaged semiconductor assembly includes a die attached to a support layer. A plurality of interconnects are embedded in and project from the support layer, such that the support layer at least partially retains the interconnects in a predetermined array. An encapsulant is molded around each of the interconnects and encases at least a portion of the die, support layer and interconnects. | 01-15-2009 |
20090026600 | MICROELECTRONIC DIE PACKAGES WITH METAL LEADS, INCLUDING METAL LEADS FOR STACKED DIE PACKAGES, AND ASSOCIATED SYSTEMS AND METHODS - Microelectronic die packages, stacked systems of die packages, and methods of manufacturing them are disclosed herein. In one embodiment, a system of stacked packages includes a first die package having a bottom side, a first dielectric casing, and first metal leads; a second die package having a top side attached to the bottom side of the first package, a dielectric casing with a lateral side, and second metal leads aligned with and projecting towards the first metal leads and including an exterior surface and an interior surface region that generally faces the lateral side; and metal solder connectors coupling individual first leads to individual second leads. In a further embodiment, the individual second leads have an “L” shape and physically contact corresponding individual first leads. In another embodiment, the individual second leads have a “C” shape and include a tiered portion that projects towards the lateral side of the second casing. | 01-29-2009 |
20090045489 | MICROELECTRONIC DIE PACKAGES WITH LEADFRAMES, INCLUDING LEADFRAME-BASED INTERPOSER FOR STACKED DIE PACKAGES, AND ASSOCIATED SYSTEMS AND METHODS - Microelectronic die packages, stacked systems of die packages, and methods of manufacturing thereof are disclosed herein. In one embodiment, a method of manufacturing a microelectronic device includes stacking a first die package having a first dielectric casing on top of a second die package having a second dielectric casing, aligning first metal leads at a lateral surface of the first casing with second metal leads at a second lateral surface of the second casing, and forming metal solder connectors that couple individual first leads to individual second leads. In another embodiment, the method of manufacturing the microelectronic device may further include forming the connectors by applying metal solder to a portion of the first lateral surface, to a portion of the second lateral surface, and across a gap between the first die package and the second die package so that the connectors are formed by the metal solder wetting to the individual first leads and the individual second leads. | 02-19-2009 |
20100068851 | CASTELLATION WAFER LEVEL PACKAGING OF INTEGRATED CIRCUIT CHIPS - Systems and methods for packaging integrated circuit chips in castellation wafer level packaging are provided. The active circuit areas of the chips are coupled to castellation blocks and, depending on the embodiment, input/output pads. The castellation blocks and input/output pads are encapsulated and held in place by an encapsulant. When the devices are being fabricated, the castellation blocks and input/output pads are sawed through. If necessary, the wafer portion on which the devices are fabricated may be thinned. The packages may be used as a leadless chip carrier package or may be stacked on top of one another. When stacked, the respective contacts of the packages are preferably coupled. Data may be written to, and received from, packaged chips when a chip is activated. Chips may be activated by applying the appropriate signal or signals to the appropriate contact or contacts. | 03-18-2010 |
20100140794 | APPARATUS AND METHOD FOR PACKAGING CIRCUITS - An apparatus comprises an integrated circuit die including a main body having a top layer, a bottom layer, and a peripheral edge surface extending between the top layer and the bottom layer. The integrated circuit die also includes a bond pad on the main body, an edge contact at the peripheral edge surface and a line connecting the bond pad to the edge contact. The edge contact includes a bottom surface that substantially in the same plane as a surface of an encapsulant encasing the die. Additional apparatus, systems, and methods are disclosed. | 06-10-2010 |
20100146780 | METHOD FOR PACKAGING CIRCUITS AND PACKAGED CIRCUITS - A method for packaging integrated circuit chips (die) is described that includes providing a base substrate with package level contacts, coating a base substrate with adhesive, placing dies on the adhesive, electrically connecting the die to the package level contacts, and removing the backside of the base substrate to expose the backside of the package level contacts. Accordingly, an essentially true chip scale package is formed. Multi-chip modules are formed by filling gaps between the chips with an encapsulant. In an embodiment, chips are interconnected by electrical connections between package level contacts in the base substrate. In an embodiment, substrates each having chips are adhered back-to-back with through vias formed in aligned saw streets to interconnect the back-to-back chip assembly. | 06-17-2010 |
20100330749 | INTERCONNECTS FOR PACKAGED SEMICONDUCTOR DEVICES AND METHODS FOR MANUFACTURING SUCH DEVICES - Packaged semiconductor devices and assemblies including interconnects and methods for forming such interconnects are disclosed herein. One embodiment of a packaged semiconductor assembly includes a die attached to a support layer. A plurality of interconnects are embedded in and project from the support layer, such that the support layer at least partially retains the interconnects in a predetermined array. An encapsulant is molded around each of the interconnects and encases at least a portion of the die, support layer and interconnects. | 12-30-2010 |
20110068454 | MICROELECTRONIC DIE PACKAGES WITH METAL LEADS, INCLUDING METAL LEADS FOR STACKED DIE PACKAGES, AND ASSOCIATED SYSTEMS AND METHODS - Microelectronic die packages, stacked systems of die packages, and methods of manufacturing them are disclosed herein. In one embodiment, a system of stacked packages includes a first die package having a bottom side, a first dielectric casing, and first metal leads; a second die package having a top side attached to the bottom side of the first package, a dielectric casing with a lateral side, and second metal leads aligned with and projecting towards the first metal leads and including an exterior surface and an interior surface region that generally faces the lateral side; and metal solder connectors coupling individual first leads to individual second leads. In a further embodiment, the individual second leads have an “L” shape and physically contact corresponding individual first leads. In another embodiment, the individual second leads have a “C” shape and include a tiered portion that projects towards the lateral side of the second casing. | 03-24-2011 |
20110084402 | PACKAGED SEMICONDUCTOR ASSEMBLIES AND METHODS FOR MANUFACTURING SUCH ASSEMBLIES - Packaged semiconductor assemblies including interconnect structures and methods for forming such interconnect structures are disclosed herein. One embodiment of a packaged semiconductor assembly includes a support member having a first bond-site and a die carried by the support member having a second bond-site. An interconnect structure is connected between the first and second bond-sites and includes a wire that is coupled to at least one of the first and second bond-sites. The interconnect structure also includes a third bond-site coupled to the wire between the first and second bond-sites. | 04-14-2011 |
20120064697 | METHOD FOR PACKAGING CIRCUITS - A method for packaging integrated circuit chips (die) is described that includes providing a base substrate with package level contacts, coating a base substrate with adhesive, placing dies on the adhesive, electrically connecting the die to the package level contacts, and removing the backside of the base substrate to expose the backside of the package level contacts. Accordingly, an essentially true chip scale package is formed. Multi-chip modules are formed by filling gaps between the chips with an encapsulant. In an embodiment, chips are interconnected by electrical connections between package level contacts in the base substrate. In an embodiment, substrates each having chips are adhered back-to-back with through vias formed in aligned saw streets to interconnect the back-to-back chip assembly. | 03-15-2012 |
20120211896 | INTERCONNECTS FOR PACKAGED SEMICONDUCTOR DEVICES AND METHODS FOR MANUFACTURING SUCH DEVICES - Packaged semiconductor devices and assemblies including interconnects and methods for forming such interconnects are disclosed herein. One embodiment of a packaged semiconductor assembly includes a die attached to a support layer. A plurality of interconnects are embedded in and project from the support layer, such that the support layer at least partially retains the interconnects in a predetermined array. An encapsulant is molded around each of the interconnects and encases at least a portion of the die, support layer and interconnects. | 08-23-2012 |
20120241957 | MICROELECTRONIC DIE PACKAGES WITH METAL LEADS, INCLUDING METAL LEADS FOR STACKED DIE PACKAGES, AND ASSOCIATED SYSTEMS AND METHODS - Microelectronic die packages, stacked systems of die packages, and methods of manufacturing them are disclosed herein. In one embodiment, a system of stacked packages includes a first die package having a bottom side, a first dielectric casing, and first metal leads; a second die package having a top side attached to the bottom side of the first package, a dielectric casing with a lateral side, and second metal leads aligned with and projecting towards the first metal leads and including an exterior surface and an interior surface region that generally faces the lateral side; and metal solder connectors coupling individual first leads to individual second leads. In a further embodiment, the individual second leads have an “L” shape and physically contact corresponding individual first leads. In another embodiment, the individual second leads have a “C” shape and include a tiered portion that projects towards the lateral side of the second casing. | 09-27-2012 |
20120241982 | PACKAGED SEMICONDUCTOR ASSEMBLIES AND METHODS FOR MANUFACTURING SUCH ASSEMBLIES - Packaged semiconductor assemblies including interconnect structures and methods for forming such interconnect structures are disclosed herein. One embodiment of a packaged semiconductor assembly includes a support member having a first bond-site and a die carried by the support member having a second bond-site. An interconnect structure is connected between the first and second bond-sites and includes a wire that is coupled to at least one of the first and second bond-sites. The interconnect structure also includes a third bond-site coupled to the wire between the first and second bond-sites. | 09-27-2012 |