Patent application number | Description | Published |
20090152719 | METHODS OF FLUXLESS MICRO-PIERCING OF SOLDER BALLS, AND RESULTING DEVICES - A method is disclosed which includes forming a layer of conductive material above a substrate, forming a masking layer above the layer of conductive material, performing a first etching process on the layer of conductive material with the masking layer in place, removing the masking layer and, after removing the masking layer, performing an isotropic etching process on the layer of conductive material to thereby define a plurality of piercing bond structures positioned on the substrate. | 06-18-2009 |
20090236736 | MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING MICROELECTRONIC DEVICES - Microelectronic devices and methods for manufacturing microelectronic devices are disclosed herein. An embodiment of one such method includes forming a plurality of through holes in a substrate with the through holes arranged in arrays, and attaching a plurality of singulated microelectronic dies to the substrate with an active side of the individual dies facing toward the substrate and with a plurality of terminals on the active side of the individual dies aligned with corresponding holes in the substrate. The singulated dies are attached to the substrate after forming the holes in the substrate. | 09-24-2009 |
20100029043 | PACKAGED MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING PACKAGED MICROELECTRONIC DEVICES - Packaged microelectronic devices and methods for manufacturing packaged microelectronic devices are disclosed herein. In one embodiment, a packaged microelectronic device can include a support member and at least one die in a stacked configuration attached to the support member. The support member may include a leadframe disposed longitudinally between first and second ends and latitudinally between first and second sides. The leadframe includes a lead extending between the first end and the first side. | 02-04-2010 |
20100052183 | MICROFEATURE WORKPIECE SUBSTRATES HAVING THROUGH-SUBSTRATE VIAS, AND ASSOCIATED METHODS OF FORMATION - Microfeature workpiece substrates having through-substrate vias, and associated methods of formation are disclosed. A method in accordance with one embodiment for forming a support substrate for carrying microfeature dies includes exposing a support substrate to an electrolyte, with the support substrate having a first side with a first conductive layer, a second side opposite the first side with a second conductive layer, and a conductive path extending through the support substrate from the first conductive layer to the second conductive layer. The method can further include forming a bond pad at a bond site of the first conductive layer by disposing at least one conductive bond pad material at the bond site, wherein disposing the at least one conductive bond pad material can include passing an electrical current between the first and second conductive layers via the conductive path, while the substrate is exposed to the electrolyte. | 03-04-2010 |
20100264541 | METHODS OF FLUXLESS MICRO-PIERCING OF SOLDER BALLS, AND RESULTING DEVICES - A method is disclosed which includes forming a layer of conductive material above a substrate, forming a masking layer above the layer of conductive material, performing a first etching process on the layer of conductive material with the masking layer in place, removing the masking layer and, after removing the masking layer, performing an isotropic etching process on the layer of conductive material to thereby define a plurality of piercing bond structures positioned on the substrate. | 10-21-2010 |
20110204499 | SEMICONDUCTOR DEVICE ASSEMBLIES - An interposer includes a substrate, a conductive structure configured to contact the back side of a semiconductor device and contact pads. The interposer may include first and second sets of contact pads carried by the substrate. The interposer may also include conductive traces carried by the substrate to electrically connect corresponding contact pads of the first and second sets. The receptacles, which may be formed in a surface of the substrate and expose contacts of the second set, may be configured to at least partially receive conductive structures that are secured to the contact pads of the second set. Thus, the interposer may be useful in providing semiconductor device assemblies and packages of reduced height or profile. Such assemblies and packages are also described, as are multi-chip modules including such assemblies or packages. In addition, methods for designing and fabricating the interposer are disclosed, as are methods for forming assemblies, packages, and multi-chip modules that include the interposer. | 08-25-2011 |
20110252623 | MICROELECTRONIC DEVICES AND MICROELECTRONIC SUPPORT DEVICES, AND ASSOCIATED ASSEMBLIES AND METHODS - Microelectronic devices, associated assemblies, and associated methods are disclosed herein. For example, certain aspects of the invention are directed toward a microelectronic device that includes a microfeature workpiece having a side and an aperture in the side. The device can further include a workpiece contact having a surface. At least a portion of the surface of the workpiece contact can be accessible through the aperture and through a passageway extending between the aperture and the surface. Other aspects of the invention are directed toward a microelectronic support device that includes a support member having a side carrying a support contact that can be connectable to a workpiece contact of a microfeature workpiece. The device can further include recessed support contact means carried by the support member. The recessed support contact means can be connectable to a second workpiece contact of the microfeature workpiece. | 10-20-2011 |
20110254144 | PACKAGED MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING PACKAGED MICROELECTRONIC DEVICES - Packaged microelectronic devices and methods for manufacturing packaged microelectronic devices are disclosed herein. In one embodiment, a packaged microelectronic device can include a support member and at least one die in a stacked configuration attached to the support member. The support member may include a leadframe disposed longitudinally between first and second ends and latitudinally between first and second sides. The leadframe includes a lead extending between the first end and the first side. | 10-20-2011 |
20120119344 | MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING MICROELECTRONIC DEVICES - Microelectronic devices and methods for manufacturing microelectronic devices are disclosed herein. One such method includes forming a plurality of apertures in a substrate with the apertures arranged in an array, and, after forming the apertures, attaching the substrate to a lead frame having a plurality of pads with the apertures in the substrate aligned with corresponding pads in the lead frame. Another method includes providing a partially cured substrate, coupling the partially cured substrate to a plurality of leads, attaching a microelectronic die to the leads, and electrically connecting the microelectronic die to the leads. | 05-17-2012 |
20120153468 | Elimination of RDL Using Tape Base Flip Chip on Flex for Die Stacking - A flexible film interposer for stacking a flip chip semiconductor die onto a second (bottom) semiconductor die, semiconductor devices and stacked die assemblies that incorporate the flexible film interposer, and methods of fabricating the devices and assemblies are provided. The incorporation of the flexible film interposer achieves densely packaged semiconductor devices, without the need for a redistribution layer (RDL). | 06-21-2012 |
20130145619 | PARTITIONED THROUGH-LAYER VIA AND ASSOCIATED SYSTEMS AND METHODS - Partitioned vias, interconnects, and substrates that include such vias and interconnects are disclosed herein. In one embodiment, a substrate has a non-conductive layer and a partitioned via formed in a portion of the non-conductive layer. The non-conductive layer includes a top side, a bottom side, and a via hole extending between the top and bottom sides and including a sidewall having a first section a second section. The partitioned via includes a first metal interconnect within the via on the first section of the sidewall and a second metal interconnect within the via hole on the second section of the sidewall and electrically isolated from the first metal interconnect. In another embodiment, the first metal interconnect is separated from the second metal interconnect by a gap within the via hole. | 06-13-2013 |
20130181356 | MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING MICROELECTRONIC DEVICES - Microelectronic devices and methods for manufacturing microelectronic devices are disclosed herein. An embodiment of one such method includes forming a plurality of through holes in a substrate with the through holes arranged in arrays, and attaching a plurality of singulated microelectronic dies to the substrate with an active side of the individual dies facing toward the substrate and with a plurality of terminals on the active side of the individual dies aligned with corresponding holes in the substrate. The singulated dies are attached to the substrate after forming the holes in the substrate. | 07-18-2013 |
20130234328 | METHODS OF FLUXLESS MICRO-PIERCING OF SOLDER BALLS, AND RESULTING DEVICES - A method of establishing conductive connections is disclosed. The method includes providing an integrated circuit die having a plurality of solder balls each of which has an oxide layer on an outer surface of the solder ball. The method also includes performing a heating process to heat at least the solder balls and applying a force causing each of a plurality of piercing bond structures on a substrate to pierce one of the solder balls and its associated oxide layer to thereby establish a conductive connection between the solder ball and the piercing bond structure. | 09-12-2013 |
20140326488 | MICROELECTRONIC DEVICES AND MICROELECTRONIC SUPPORT DEVICES, AND ASSOCIATED ASSEMBLIES AND METHODS - Microelectronic devices, associated assemblies, and associated methods are disclosed herein. For example, certain aspects of the invention are directed toward a microelectronic device that includes a microfeature workpiece having a side and an aperture in the side. The device can further include a workpiece contact having a surface. At least a portion of the surface of the workpiece contact can be accessible through the aperture and through a passageway extending between the aperture and the surface. Other aspects of the invention are directed toward a microelectronic support device that includes a support member having a side carrying a support contact that can be connectable to a workpiece contact of a microfeature workpiece. The device can further include recessed support contact means carried by the support member. The recessed support contact means can be connectable to a second workpiece contact of the microfeature workpiece. | 11-06-2014 |
20140332938 | MICROELECTRONIC DEVICES AND METHODS FOR MANUFACTURING MICROELECTRONIC DEVICES - Microelectronic devices and methods for manufacturing microelectronic devices are disclosed herein. One such method includes forming a plurality of apertures in a substrate with the apertures arranged in an array, and, after forming the apertures, attaching the substrate to a lead frame having a plurality of pads with the apertures in the substrate aligned with corresponding pads in the lead frame. Another method includes providing a partially cured substrate, coupling the partially cured substrate to a plurality of leads, attaching a microelectronic die to the leads, and electrically connecting the microelectronic die to the leads. | 11-13-2014 |