Patent application number | Description | Published |
20120267423 | Methods and Apparatus for Thin Die Processing - A vacuum tip and methods for processing thin integrated circuit dies. A vacuum tip for attaching to an integrated circuit die is disclosed comprising a vacuum port configured to connect to a vacuum supply on an upper surface and having a bottom surface; and at least one vacuum hole extending through the vacuum tip and exposed at the bottom surface of the vacuum tip; wherein the vacuum tip is configured to physically contact a surface of an integrated circuit die. Methods for processing integrated circuit dies are disclosed. | 10-25-2012 |
20120299181 | Package-on-Package Process for Applying Molding Compound - A method of packaging includes placing a package component over a release film, wherein solder balls on a surface of the package component are in physical contact with the release film. Next, A molding compound filled between the release film and the package component is cured, wherein during the step of curing, the solder balls remain in physical contact with the release film. | 11-29-2012 |
20130062761 | Packaging Methods and Structures for Semiconductor Devices - Packaging methods and structures for semiconductor devices are disclosed. In one embodiment, a packaged semiconductor device includes a redistribution layer (RDL) having a first surface and a second surface opposite the first surface. At least one integrated circuit is coupled to the first surface of the RDL, and a plurality of metal bumps is coupled to the second surface of the RDL. A molding compound is disposed over the at least one integrated circuit and the first surface of the RDL. | 03-14-2013 |
20130095608 | Methods for Forming 3DIC Package - A method includes dispensing an underfill between a first package component and a second package component, wherein the first package component is placed on a lower jig, and the second package component is over and bonded to the first package component. A through-opening is in the lower jig and under the first package component. The underfill is cured, wherein during the step of curing the underfill, a force is applied to flatten the first package component. The force is applied by performing an action selected from the group consisting of vacuuming and air blowing through the through-opening. | 04-18-2013 |
20130099370 | SEMICONDUCTOR PACKAGE - A semiconductor package includes a workpiece with a conductive trace and a chip with a conductive pillar. The chip is attached to the workpiece and a solder joint region is formed between the conductive pillar and the conductive trace. The distance between the conductive pillar and the conductive trace is less than or equal to about 16 μm. | 04-25-2013 |
20130099371 | SEMICONDUCTOR PACKAGE HAVING SOLDER JOINTED REGION WITH CONTROLLED AG CONTENT - A semiconductor package includes a workpiece with a conductive trace and a chip with a conductive pillar. The chip is attached to the workpiece and a solder joint region is formed between the conductive pillar and the conductive trace. The silver (Ag) content in the solder layer is between 0.5 and 1.8 weight percent. | 04-25-2013 |
20130143364 | METHOD OF PROCESSING SOLDER BUMP BY VACUUM ANNEALING - A method includes vacuum annealing on a substrate having at least one solder bump to reduce voids at an interface of the at least one solder bump. A die is mounted over the substrate. | 06-06-2013 |
20130234317 | Packaging Methods and Packaged Semiconductor Devices - Packaging methods and packaged semiconductor devices are disclosed. In one embodiment, a packaging method includes providing a first die, partially packaging the first die, and forming a plurality of solder balls on a surface of the partially packaged first die. An epoxy flux is disposed over the plurality of solder balls. A second die is provided, and the second die is partially packaged. The plurality of solder balls is coupled to the partially packaged second die. | 09-12-2013 |
20140048934 | METHOD TO CONTROL UNDERFILL FILLET WIDTH - A semiconductor device assembly includes a substrate having an area of the surface treated to form a surface roughness. A die is mounted on the substrate by a plurality of coupling members. An underfill substantially fills a gap disposed between the substrate and the die, wherein a fillet width of the underfill is substantially limited to the area of surface roughness. | 02-20-2014 |
20140054764 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - A semiconductor package includes a semiconductor substrate, a contact pad overlying the semiconductor substrate, an interconnect layer overlying the contact pad, a passivation layer formed between the contact pad and the interconnect layer, a bump overlying the interconnect layer, and a protection layer overlying the interconnect layer and the passivation layer and covering a lower portion of the bump. The protection layer includes a curved surface region. | 02-27-2014 |
20140091509 | Methods for Forming 3DIC Package - A method includes dispensing an underfill between a first package component and a second package component, wherein the first package component is placed on a lower jig, and the second package component is over and bonded to the first package component. A through-opening is in the lower jig and under the first package component. The underfill is cured, wherein during the step of curing the underfill, a force is applied to flatten the first package component. The force is applied by performing an action selected from the group consisting of vacuuming and air blowing through the through-opening. | 04-03-2014 |
20140193952 | Methods for Metal Bump Die Assembly - Methods for assembling metal bump dies. In an embodiment, a method includes providing an integrated circuit die having a plurality of conductive terminals; depositing solder to form solder depositions on the conductive terminals; providing a substrate having a die attach region on a surface for receiving the integrated circuit die, the substrate having a plurality of conductive traces formed in the die attach region; aligning the integrated circuit die and the substrate and bringing the plurality of conductive terminals and the conductive traces into contact, so that the solder depositions physically contact the conductive traces; and selectively heating the integrated circuit die and the conductive terminals to a temperature sufficient to cause the solder depositions to melt and reflow, forming solder connections between the conductive traces on the substrate and the conductive terminals on the integrated circuit die. Various energy sources are disclosed for the selective heating. | 07-10-2014 |
20140231988 | Packaging Methods and Packaged Semiconductor Devices - Packaging methods and packaged semiconductor devices are disclosed. In one embodiment, a packaging method includes providing a first die, partially packaging the first die, and forming a plurality of solder balls on a surface of the partially packaged first die. An epoxy flux is disposed over the plurality of solder balls. A second die is provided, and the second die is partially packaged. The plurality of solder balls is coupled to the partially packaged second die. | 08-21-2014 |
20140252597 | Directly Sawing Wafers Covered with Liquid Molding Compound - A method includes forming a passivation layer over a metal pad, wherein the metal pad is further overlying a semiconductor substrate of a wafer. A Post-Passivation Interconnect (PPI) is formed to electrically couple to the metal pad, wherein a portion of the PPI is overlying the passivation layer. A metal bump is formed over and electrically coupled to the PPI. The method further includes applying a molding compound over the metal bump and the PPI, applying a release film over the molding compound, pressing the release film against the molding compound, and curing the molding compound when the release film is pressed against the molding compound. The release film is then removed from the molding compound. The wafer is sawed into dies using a blade, with the blade cutting through the molding compound. | 09-11-2014 |
20140264840 | Package-on-Package Structure - A device comprises a top package mounted on a bottom package, wherein the bottom package comprises a plurality of interconnection components and the bottom package comprises a plurality of first bumps formed on a first side of the bottom package, a semiconductor die is bonded on a second side of the bottom package, wherein the semiconductor die is electrically coupled to the first bumps through the interconnection components and the semiconductor die is located between the top package and the bottom package, and an underfill layer formed between the top package and the bottom package. | 09-18-2014 |
20140264885 | Apparatus and Method for Wafer Separation - A plurality of macro and micro alignment marks may be formed on a wafer. The macro alignment marks may be formed in pairs at opposite edges of the wafer. The micro alignment marks may be formed to align to streets on the wafer along a first and second direction. A molding compound may be formed on the wafer. The macro alignment marks may be exposed from the molding compound. A pair of the micro alignment marks may be exposed from the molding compound at opposite ends of the streets along the first and the second direction. The wafer may be aligned to a dicing tool using pairs of the macro alignment marks. The dicing tool may be aligned to the streets using pairs of the micro alignment marks. The wafer may be diced using successive pairs of micro alignment marks along the first and second direction. | 09-18-2014 |
20140370659 | SINGULATION APPARATUS AND METHOD - A singulation apparatus includes a carrier having a plurality of singulation sites and a scribe line between each of the plurality of singulation sites and an adjacent singulation site. The carrier has a top surface configured to receive a semiconductor substrate thereon. Each of the plurality of singulation sites includes a deformable portion and at least one vacuum hole. The at least one vacuum hole and the deformable portion is configured to form a seal around the at least one vacuum holes when a force is applied. The present disclosure further includes a method of manufacturing semiconductor devices, especially for a singulation process. | 12-18-2014 |
20150044819 | Packaging Methods and Structures for Semiconductor Devices - Packaging methods and structures for semiconductor devices are disclosed. In one embodiment, a packaged semiconductor device includes a redistribution layer (RDL) having a first surface and a second surface opposite the first surface. At least one integrated circuit is coupled to the first surface of the RDL, and a plurality of metal bumps is coupled to the second surface of the RDL. A molding compound is disposed over the at least one integrated circuit and the first surface of the RDL. | 02-12-2015 |
20150214077 | Methods of Packaging and Dicing Semiconductor Devices and Structures Thereof - Methods of packaging and dicing semiconductor devices, and packaged semiconductor devices are disclosed. In some embodiments, a method of packaging and dicing semiconductor devices includes a first cutting process performed on a wafer to form a groove passing through a passivation layer and an interconnect structure on a scribe line region and a portion of a semiconductor substrate on the scribe line region. Next, a molding compound layer is formed on a frontside of the wafer to fill the groove. After performing a grinding process on a backside of the wafer to thin down the semiconductor substrate, a second cutting process is performed on the wafer to separate the individual dies. The second cutting process cuts through the molding compound layer in the groove and the semiconductor substrate underlying the groove. | 07-30-2015 |
20150235902 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes providing a wafer, grinding a backside of the wafer, disposing a backside film on the backside of the wafer, cutting the wafer to singulate a plurality of dies from the wafer, and forming a mark on the backside film disposed on each of the plurality of dies by a laser operation. | 08-20-2015 |
20150243642 | Packages and Methods for Forming the Same - A device includes a package component having conductive features on a top surface, and a polymer region molded over the top surface of the first package component. A plurality of openings extends from a top surface of the polymer region into the polymer region, wherein each of the conductive features is exposed through one of the plurality of openings. The plurality of openings includes a first opening having a first horizontal size, and a second opening having a second horizontal size different from the first horizontal size. | 08-27-2015 |
20150318252 | Semiconductor Package and Method of Manufacturing the Same - A semiconductor package includes a semiconductor substrate, a contact pad overlying the semiconductor substrate, an interconnect layer overlying the contact pad, a passivation layer formed between the contact pad and the interconnect layer, a bump overlying the interconnect layer, and a protection layer overlying the interconnect layer and the passivation layer and covering a lower portion of the bump. The protection layer includes a curved surface region. | 11-05-2015 |
20150348927 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD THEREOF - A semiconductor structure includes a substrate including a front side, a conductive bump disposed over the front side, and an opaque molding disposed over the front side and around a periphery portion of an outer surface of the conductive bump, wherein the opaque molding includes a recessed portion disposed above a portion of the front side adjacent to a corner of the substrate and extended through the opaque molding to expose the portion of the front side and an alignment feature disposed within the portion of the front side. | 12-03-2015 |