Patent application number | Description | Published |
20090001552 | SEMICONDUCTOR PACKAGE HAVING THROUGH HOLES FOR MOLDING BACK SIDE OF PACKAGE - A portable memory card and methods of manufacturing same are disclosed. The portable memory includes a substrate having a plurality of holes formed therein. During the encapsulation process, mold compound flows over the top surface of the substrate, through the holes, and down into a recessed section formed in the bottom mold cap plate to form a projection of mold compound on the bottom surface of the substrate. | 01-01-2009 |
20090004785 | METHOD OF FABRICATING A SEMICONDUCTOR PACKAGE HAVING THROUGH HOLES FOR MOLDING BACK SIDE OF PACKAGE - A portable memory card and methods of manufacturing same are disclosed. The portable memory includes a substrate having a plurality of holes formed therein. During the encapsulation process, mold compound flows over the top surface of the substrate, through the holes, and down into a recessed section formed in the bottom mold cap plate to form a projection of mold compound on the bottom surface of the substrate. | 01-01-2009 |
20090065902 | METHOD OF FORMING A SEMICONDUCTOR DIE HAVING A SLOPED EDGE FOR RECEIVING AN ELECTRICAL CONNECTOR - A method of forming a low profile semiconductor package, and a semiconductor package formed thereby, is disclosed. The semiconductor die is formed with one or more sloped edges on which electrically conductive traces may be deposited to allow the semiconductor die to be coupled to another die and/or a substrate on which the die is mounted. Depositing the electrical traces directly on the surface and sloped edge of the die allows the die to be electrically coupled without bond wires, thereby allowing a reduction in the overall thickness of the package. | 03-12-2009 |
20090256249 | STACKED, INTERCONNECTED SEMICONDUCTOR PACKAGE - An electronic component is disclosed including a plurality of stacked semiconductor packages. A first such embodiment includes an internal connector for electrically coupling the stacked semiconductor packages. A second such embodiment includes an external connector for electrically coupling the stacked semiconductor packages. | 10-15-2009 |
20090263969 | HIDDEN PLATING TRACES - A strengthened semiconductor die substrate and package are disclosed. The substrate may include contact fingers formed with nonlinear edges. Providing a nonlinear contour to the contact finger edges reduces the mechanical stress exerted on the semiconductor die which would otherwise occur with straight edges to the contact fingers. The substrate may additionally or alternatively include plating traces extending at an angle from the contact fingers. Extending at an angle, at least the ends of the plating traces at the edge of the substrate are covered beneath a lid in which the semiconductor package is encased. Thus, when in use with a host device, contact between the ends of the plating traces beneath the lid and contact pins of the host device is avoided. | 10-22-2009 |
20090321950 | STACKED SEMICONDUCTOR PACKAGE WITH LOCALIZED CAVITIES FOR WIRE BONDING - A semiconductor die and a low profile semiconductor package formed therefrom are disclosed. The semiconductor package may include at least first and second stacked semiconductor die mounted to a substrate. The first and/or second semiconductor die may be fabricated with localized cavities through a bottom surface of the semiconductor die, along a side edge of the semiconductor die. The one or more localized cavities in a side take up less than the entire side. Thus, the localized cavities allow low height stacking of semiconductor die while providing each die with a high degree of structural integrity to prevent cracking or breaking of the die edge during fabrication. | 12-31-2009 |
20090325342 | METHOD OF FABRICATING STACKED SEMICONDUCTOR PACKAGE WITH LOCALIZED CAVITIES FOR WIRE BONDING - A method of fabricating a semiconductor die and a low profile semiconductor package are disclosed. The semiconductor package may include at least first and second stacked semiconductor die mounted to a substrate. The first and/or second semiconductor die may be fabricated with localized cavities through a bottom surface of the semiconductor die, along a side edge of the semiconductor die. The one or more localized cavities in a side take up less than the entire side. Thus, the localized cavities allow low height stacking of semiconductor die while providing each die with a high degree of structural integrity to prevent cracking or breaking of the die edge during fabrication. | 12-31-2009 |
20100055835 | METHOD OF STACKING AND INTERCONNECTING SEMICONDUCTOR PACKAGES VIA ELECTRICAL CONNECTORS EXTENDING BETWEEN ADJOINING SEMICONDUCTOR PACKAGES - An electronic component is disclosed including a plurality of stacked semiconductor packages. A first such embodiment includes an internal connector for electrically coupling the stacked semiconductor packages. A second such embodiment includes an external connector for electrically coupling the stacked semiconductor packages. | 03-04-2010 |
20100055836 | METHOD OF STACKING AND INTERCONNECTING SEMICONDUCTOR PACKAGES VIA ELECTRICAL CONNECTORS EXTENDING BETWEEN ADJOINING SEMICONDUCTOR PACKAGES - An electronic component is disclosed including a plurality of stacked semiconductor packages. A first such embodiment includes an internal connector for electrically coupling the stacked semiconductor packages. A second such embodiment includes an external connector for electrically coupling the stacked semiconductor packages. | 03-04-2010 |
20100102440 | HIGH DENSITY THREE DIMENSIONAL SEMICONDUCTOR DIE PACKAGE - A semiconductor package is disclosed including a plurality semiconductor die mounted on stacked and bonded layers of substrate, for example polyimide tape used in tape automated bonding processes. The tape may have a plurality of repeating patterns of traces and contact pads formed thereon. The traces each include aligned interconnect pads on the respective top and bottom surfaces of the substrate for bonding the traces of one pattern to the traces of another pattern after the patterns have been singulated from the substrate, aligned and stacked. Semiconductor die such as flash memory and a controller die are mounted on the traces of the respective patterns on the substrate. In order for the controller die to uniquely address a specific flash memory die in the stack, a group of traces on each substrate supporting the memory die are used as address pins and punched in a unique layout relative to the layout of the traces other substrates. By providing each flash memory semiconductor die on a substrate with a unique layout of address traces, each memory die may be selectively addressed by the controller die. | 04-29-2010 |
20100252315 | Printed Circuit Board With Coextensive Electrical Connectors And Contact Pad Areas - A printed circuit board is disclosed having coextensive electrical connectors and contact pad areas. Areas of the contact pads where the traces and/or vias are located may be etched away to ensure electrical isolation between the traces, vias and contact pads. | 10-07-2010 |
20110316164 | CORRUGATED DIE EDGE FOR STACKED DIE SEMICONDUCTOR PACKAGE - A semiconductor die and semiconductor package formed therefrom, and methods of fabricating the semiconductor die and package, are disclosed. The semiconductor die includes an edge formed with a plurality of corrugations defined by protrusions between recesses. Bond pads may be formed on the protrusions. The semiconductor die formed in this manner may be stacked in the semiconductor package in staggered pairs so that the die bond pads on the protrusions of a lower die are positioned in the recesses of the upper die. | 12-29-2011 |
20120025396 | SEMICONDUCTOR DEVICE WITH DIE STACK ARRANGEMENT INCLUDING STAGGERED DIE AND EFFICIENT WIRE BONDING - A semiconductor die package is disclosed. An example of the semiconductor package includes a first group of semiconductor die interspersed with a second group of semiconductor die. The die from the first and second groups are offset from each other along a first axis and staggered with respect to each other along a second axis orthogonal to the first axis. A second example of the semiconductor package includes an irregular shaped edge and a wire bond to the substrate from a semiconductor die above the lowermost semiconductor die in the package. | 02-02-2012 |
20120164828 | HIDDEN PLATING TRACES - A strengthened semiconductor die substrate and package are disclosed. The substrate may include contact fingers formed with nonlinear edges. Providing a nonlinear contour to the contact finger edges reduces the mechanical stress exerted on the semiconductor die which would otherwise occur with straight edges to the contact fingers. The substrate may additionally or alternatively include plating traces extending at an angle from the contact fingers. Extending at an angle, at least the ends of the plating traces at the edge of the substrate are covered beneath a lid in which the semiconductor package is encased. Thus, when in use with a host device, contact between the ends of the plating traces beneath the lid and contact pins of the host device is avoided. | 06-28-2012 |
20120193802 | GLOB TOP SEMICONDUCTOR PACKAGE - A semiconductor package is disclosed including a substrate, a solder mask layer, one or more semiconductor die mounted to the solder mask layer and electrically coupled to the substrate, and a glob top cover over the semiconductor die. The solder mask further includes a dam protruding above surrounding areas of the solder mask layer and a cavity recessed into the solder mask layer for limiting flow of the glob top cover when the glob top material is applied. | 08-02-2012 |
20120273968 | Printed Circuit Board With Coextensive Electrical Connectors And Contact Pad Areas - A printed circuit board is disclosed having coextensive electrical connectors and contact pad areas. Areas of the contact pads where the traces and/or vias are located may be etched away to ensure electrical isolation between the traces, vias and contact pads. | 11-01-2012 |
20130087895 | RADIATION-SHIELDED SEMICONDUCTOR DEVICE - A semiconductor device is disclosed including an electromagnetic radiation shield. The device may include a substrate having a shield ring defined in a conductance pattern on a surface of the substrate. One or more semiconductor die may be affixed and electrically coupled to the substrate. The one or more semiconductor die may then be encapsulated in molding compound. Thereafter, a metal may be plated around the molding compound and onto the shield ring to form an EMI/RFI shield for the device. | 04-11-2013 |
20130207280 | SEMICONDUCTOR DEVICE WITH DIE STACK ARRANGEMENT INCLUDING STAGGERED DIE AND EFFICIENT WIRE BONDING - A semiconductor die package is disclosed. An example of the semiconductor package includes a first group of semiconductor die interspersed with a second group of semiconductor die. The die from the first and second groups are offset from each other along a first axis and staggered with respect to each other along a second axis orthogonal to the first axis. A second example of the semiconductor package includes an irregular shaped edge and a wire bond to the substrate from a semiconductor die above the lowermost semiconductor die in the package. | 08-15-2013 |
20130299959 | RIGID WAVE PATTERN DESIGN ON CHIP CARRIER SUBSTRATE AND PRINTED CIRCUIT BOARD FOR SEMICONDUCTOR AND ELECTRONIC SUB-SYSTEM PACKAGING - A rigid wave pattern formed on a first side of a substrate in a semiconductor die package. The rigid wave pattern aligns with and overlies the contact fingers formed on the second side of the substrate. The rigid wave pattern includes a first pattern with an etched portion and an unetched portion around the etched portion. When the substrate and dice are encased during the molding process, the rigid wave pattern effectively reduces deformation of and stresses on the dice, therefore substantially alleviating die cracking. | 11-14-2013 |
20150054177 | RIGID WAVE PATTERN DESIGN ON CHIP CARRIER SUBSTRATE AND PRINTED CIRCUIT BOARD FOR SEMICONDUCTOR AND ELECTRONIC SUB-SYSTEM PACKAGING - A rigid wave pattern formed on a first side of a substrate in a semiconductor die package. The rigid wave pattern aligns with and overlies the contact fingers formed on the second side of the substrate. The rigid wave pattern includes a first pattern with an etched portion and an unetched portion around the etched portion. When the substrate and dice are encased during the molding process, the rigid wave pattern effectively reduces deformation of and stresses on the dice, therefore substantially alleviating die cracking. | 02-26-2015 |