Patent application number | Description | Published |
20090057897 | High strength solder joint formation method for wafer level packages and flip applications - A Micro SMDxt package is provided that configured for mounting to a circuit board. The SMDxt package includes a silicon-based IC having an array of contact pads on one side of thereof, and a die electrically attached to the silicon-based IC. A plurality of solder balls is included, each of which has a polymeric core surrounded by a metallic shell that in turn is surrounded by a layer of solder material. Further, each solder ball is positioned in contact with a corresponding contact pad of the package. An intertwined intermetallic fusion layer is formed through the fusion between material components of the contact pads and the solder material, via heat treatment. The intermetallic fusion extends between and from an outer surface of the metallic shell of each solder to an outer surface of a corresponding contact pad to form a high strength intermetallic solder joint therebetween. | 03-05-2009 |
20090174069 | I/O PAD STRUCTURE FOR ENHANCING SOLDER JOINT RELIABILITY IN INTEGRATED CIRCUIT DEVICES - A semiconductor device is described. The device includes an integrated circuit die having an active surface that includes a plurality of input/output (I/O) pads. The device further includes a plurality of crack resistant structures. Each crack resistant structure is formed over an associated I/O pad and includes an associated raised portion. Each I/O pad may be bumped with solder such that a solder bump is formed over the associated crack resistant structure on the I/O pad. | 07-09-2009 |
20100068466 | METHODS AND ARRANGEMENTS FOR FORMING SOLDER JOINT CONNECTIONS - The present invention relates to methods and arrangements for forming a solder joint connection. One embodiment involves an improved solder ball. The solder ball includes a perforated, metallic shell with an internal opening. Solder material encases the shell and fills its internal opening. The solder ball may be applied to an electrical device, such as an integrated circuit die, to form a solder bump on the device. The solder bump in turn can be used to form an improved solder joint connection between the device and a suitable substrate, such as a printed circuit board. In some applications, a solder joint connection is formed without requiring the application of additional solder material to the surface of the substrate. The present invention also includes different solder bump arrangements and methods for using such arrangements to form solder joint connections between devices and substrates. | 03-18-2010 |
20100109167 | CONDUCTIVE PATHS FOR TRANSMITTING AN ELECTRICAL SIGNAL THROUGH AN ELECTRICAL CONNECTOR - The claimed invention relates to structures suitable for improving the performance and reliability of electrical connectors. One embodiment of the claimed invention includes an integrated circuit die having an electrical contact coupled with electrically conductive paths that share a common electrical source. The conductive paths are configured to transmit the same electrical signal to the electrical contact, which supports an electrical connector, such as a solder bump. The electrical connector couples the die with an outside component, such as a circuit board. Each of the conductive paths connect to the electrical contact at different interface locations. When the electrical signal passes through the interface locations, the paths are configured to have non-zero current densities at those locations. The electrical resistance of the conductive paths may be substantially similar. Thus, instead of being concentrated at a single point, current is more evenly distributed along the junction between the die and solder bump, which may reduce voiding and localized heating. | 05-06-2010 |
20120043660 | THIN FOIL SEMICONDUCTOR PACKAGE - One aspect of the present invention involves a foil-based method for packaging integrated circuits. Initially, a metallic foil and a photoresist layer are attached with a carrier. The photoresist layer is exposed and patterned. Afterward, multiple integrated circuit dice are connected to the foil. The dice and portions of the foil are encapsulated in a molding material. The foil is then etched based on the patterned photoresist layer to define multiple device areas in the foil, where each device area supports at least one of the integrated circuit dice. Some aspects of the present invention relate to panel arrangements that are involved in the aforementioned method. | 02-23-2012 |