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| 20080290514 | Semiconductor device package and method of fabricating the same - In a semiconductor device, a package including the semiconductor device and a method of forming the same, the semiconductor device package includes a semiconductor device, a wiring board, and an underfill material layer. The semiconductor device includes a semiconductor chip, a metal layer, and solder balls for bump contacts. The semiconductor chip includes an active surface having bonding pads and a rear surface opposite the active surface and having concave portions corresponding to the bonding pads. The metal layer fills the concave portions and covers the rear surface. The solder balls for bump contacts are provided on the bonding pads. The wiring board includes an upper surface to which the semiconductor device is mounted and a lower surface opposite the upper surface. The underfill material layer fills a space between the active surface of the semiconductor device and the upper surface of the wiring board. The semiconductor device and the wiring board are electrically connected to each other by the solder balls for bump contacts of the semiconductor device and bonding electrodes included in the upper surface of the wiring board. | 11-27-2008 |
| 20090014876 | Wafer level stacked package having via contact in encapsulation portion and manufacturing method thereof - Provided are a wafer level stacked package with a via contact in an encapsulation portion, and a manufacturing method thereof. A plurality of semiconductor chips and encapsulation portions may be vertically deposited and electrically connected through a via contact that may be vertically formed in the encapsulation portion. Thus, an effective fan-out structure may be produced, vertical deposition may be available regardless of the type of a semiconductor device, and productivity may be improved. | 01-15-2009 |
| 20090065920 | Semiconductor package embedded in substrate, system including the same and associated methods - A device includes a base substrate, a package including an encapsulated die, the package at least partially embedded in the base substrate, and a wiring portion on the package and extending across at least a portion of the base substrate adjacent to the package. | 03-12-2009 |
| 20090197090 | Composition, anti-oxide film including the same, electronic component including the anti-oxide film, and methods for forming the anti-oxide film and electronic component - Disclosed herein is a composition, including a fluorine-based polymer or a perfluoropolyether (PFPE) derivative and a PFPE-miscible polymer, an anti-oxide film and electronic component including the same, and methods of forming an anti-oxide film and an electronic component. Use of the composition may achieve formation of an anti-oxide film through a solution process and electronic components using a metal having increased conductivity and decreased production costs. | 08-06-2009 |
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| 20090045513 | SEMICONDUCTOR CHIP PACKAGE, ELECTRONIC DEVICE INCLUDING THE SEMICONDUCTOR CHIP PACKAGE AND METHODS OF FABRICATING THE ELECTRONIC DEVICE - A semiconductor chip package including a semiconductor chip including a first surface having bonding pads, a second surface facing the first surface, and sidewalls; a molding extension part surrounding the second surface and the sidewalls of the semiconductor chip; redistribution patterns extending from the bonding pads over the molding extension part, and electrically connected to the bonding pads; bump solder balls on the redistribution patterns; and a molding layer configured to cover the first surface of the semiconductor chip and the molding extension part, while exposing portions of each of the bump solder balls. The molding layer has concave meniscus surfaces between the bump solder balls adjacent to each other. | 02-19-2009 |
| 20090267129 | DIELECTRIC MULTILAYER STRUCTURES OF MICROELECTRONIC DEVICES AND METHODS FOR FABRICATING THE SAME - A dielectric multilayer structure of a microelectronic device, in which a leakage current characteristic and a dielectric constant are improved, is provided in an embodiment. The dielectric multilayer structure includes a lower dielectric layer, which is made of amorphous silicate (M | 10-29-2009 |
| 20100025781 | Transistors with Multilayered Dielectric Films and Methods of Manufacturing Such Transistors - Transistors that include multilayered dielectric films on a channel region are provided. The multilayered dielectric comprises a lower dielectric film that may have a thickness that is at least 50% the thickness of the multilayered dielectric film and that comprises a metal oxide, a metal silicate, an aluminate, or a mixture thereof, and an upper dielectric film on the lower dielectric film, the upper dielectric film comprising a Group III metal oxide, Group III metal nitride, Group XIII metal oxide or Group XIII metal nitride. A gate electrode is provided on the multilayered dielectric film. | 02-04-2010 |
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| 20080265432 | MULTI-CHIP PACKAGE AND METHOD OF MANUFACTURING THE MULTI-CHIP PACKAGE - A multi-chip package includes a mounting substrate, a first semiconductor chip, a second semiconductor chip, a reinforcing member, conductive wires and an encapsulant. The first semiconductor chip is disposed on the mounting substrate. The second semiconductor chip is disposed on the first semiconductor chip. An end portion of the second semiconductor chip protrudes from a side portion of the first semiconductor chip. A reinforcing member is disposed on an overlapping region of the second semiconductor chip where the second semiconductor chip overlaps with the side portion of the first semiconductor chip such that the reinforcing member decreases downward bending of the second semiconductor chip from the side portion of the first semiconductor chip. The conductive wires electrically connect the first and second semiconductor chips to the mounting substrate. The encapsulant is disposed on the mounting substrate to cover the first and second semiconductor chips and the conductive wires. | 10-30-2008 |
| 20080283996 | SEMICONDUCTOR PACKAGE USING CHIP-EMBEDDED INTERPOSER SUBSTRATE - A semiconductor package using a chip-embedded interposer substrate is provided. The chip-embedded interposer substrate includes a chip including a plurality of chip pads; a substrate having the chip mounted thereon and including a plurality of redistribution pads for redistributing the chip pads; bonding wires for connecting the chip pads to the redistribution pads; a protective layer having via holes for exposing the redistribution pads while burying the chip and the substrate; and vias connected to the redistribution pads through the via holes. The semiconductor package including chips of various sizes is fabricated using the chip-embedded interposer substrate. | 11-20-2008 |
| 20080290513 | SEMICONDUCTOR PACKAGE HAVING MOLDED BALLS AND METHOD OF MANUFACTURING THE SAME - Provided are a semiconductor package having molded balls on a bottom surface of a PCB and a method of manufacturing the semiconductor package. The semiconductor package includes: a semiconductor chip mounting member comprising circuit patterns on a first surface, an insulating layer defining openings exposing at least portions of the circuit patterns, and external contact terminals arranged on the portions of circuit patterns exposed by the openings; a semiconductor chip formed on a second surface of the semiconductor chip mounting member and electrically connected to the semiconductor chip mounting member; a first sealing portion coating the second surface of the semiconductor chip mounting member and the semiconductor chip; and a second sealing portion arranged on the insulating layer and the external contact terminals such that at least portions of the external contact terminals are exposed. | 11-27-2008 |
| 20080308935 | SEMICONDUCTOR CHIP PACKAGE, SEMICONDUCTOR PACKAGE INCLUDING SEMICONDUCTOR CHIP PACKAGE, AND METHOD OF FABRICATING SEMICONDUCTOR PACKAGE - Provided are a semiconductor chip package, a semiconductor package, and a method of fabricating the same. In some embodiments, the semiconductor chip packages includes a semiconductor chip including an active surface, a rear surface, and side surfaces, bump solder balls provided on bonding pads formed on the active surface, and a molding layer provided to cover the active surface and expose portions of the bump solder balls. The molding layer between adjacent bump solder balls may have a meniscus concave surface, where a height from the active surface to an edge of the meniscus concave surface contacting the bump solder ball is about a 1/7 length of the maximum diameter of a respective bump solder ball at below or above a section of the bump solder ball having the maximum diameter. | 12-18-2008 |
| 20090115069 | SEMICONDUCTOR CHIP PACKAGE AND METHOD OF MANUFACTURING THE SAME - A semiconductor chip package having a molding layer is provided. The semiconductor chip package includes a semiconductor chip, a plurality of external connection terminals, and the molding layer. The semiconductor chip comprises a backside surface, side surfaces, and an active surface having a plurality of chip pads disposed thereon. The molding layer substantially covers the backside surface, the side surfaces, and the active surface of the semiconductor chip and defines at least one opening exposing a portion of the backside surface of the semiconductor chip. A multi-chip package including the semiconductor chip package and a method of manufacturing the semiconductor chip package are also provided. | 05-07-2009 |
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| 20090309206 | SEMICONDUCTOR PACKAGE AND METHODS OF MANUFACTURING THE SAME - A semiconductor package and a method of manufacturing the semiconductor package. The semiconductor package includes a first package that a first semiconductor chip is mounted on a front side of a first substrate and a redistributed pad including a first redistributed pad electrically connected to the first substrate and a second redistributed pad electrically connected to the first redistributed pad is disposed on the first semiconductor chip and a second package that a second semiconductor chip is mounted on a front side of a second substrate, the second package including a connection member electrically connected to the second redistributed pad. The connection member electrically connected to the redistributed pad electrically connects the first and second packages to each other. | 12-17-2009 |
| 20100230811 | SEMICONDUCTOR DEVICE HAVING A CONDUCTIVE BUMP - In one embodiment, a semiconductor device includes a semiconductor substrate and a bonding pad disposed thereon. The semiconductor device also includes a passivation layer, a buffer layer, and an insulating layer sequentially stacked on the semiconductor substrate. According to one aspect, a first recess is defined within the passivation layer, the buffer layer, and the insulating layer to expose at least a region of the bonding pad and a second recess is defined within the insulating layer to expose at least a region of the buffer layer and spaced apart from the first recess such that a portion of the insulating layer is interposed therebetween. Further, the semiconductor device includes a conductive solder bump disposed within the first and second recesses. The conductive solder bump may be connected to the bonding pad in the first recess and supported by the buffer layer through a protrusion of the conductive solder bump extending into the second recess. | 09-16-2010 |
| 20110079897 | INTEGRATED CIRCUIT CHIP AND FLIP CHIP PACKAGE HAVING THE INTEGRATED CIRCUIT CHIP - In an integrated circuit (IC) chip and a flip chip package having the same, no wiring line is provided and the first electrode pad does not make contact with the wiring line in a pad area of the IC chip. Thus, the first bump structure makes contact with the first electrode regardless of the wiring line in the pad area. The second electrode pad makes contact with the wiring line in a pseudo pad area of the IC chip. Thus, the second bump structure in the pseudo pad area makes contact with an upper surface of the second electrode at a contact point(s) spaced apart from the wiring line under the second electrode. | 04-07-2011 |
| 20110193181 | SEMICONDUCTOR DEVICE HAVING DIFFERENT METAL GATE STRUCTURES - A semiconductor includes a channel region in a semiconductor substrate, a gate dielectric film on the channel region, and a gate on the gate dielectric film. The gate includes a doped metal nitride film, formed from a nitride of a first metal and doped with a second metal which is different from the first metal, and a conductive polysilicon layer formed on the doped metal nitride film. The gate may further include a metal containing capping layer interposed between the doped metal nitride film and the conductive polysilicon layer. | 08-11-2011 |
| 20110193228 | MOLDED UNDERFILL FLIP CHIP PACKAGE PREVENTING WARPAGE AND VOID - A molded underfill flip chip package may include a printed circuit board, a semiconductor chip mounted on the printed circuit board, and a sealant. The printed circuit board has at least one resin passage hole passing through the printed circuit board and at least one resin channel on a bottom surface of the printed circuit board, the at least one resin channel extending from the at least one resin passage hole passing through the printed circuit board. The sealant seals a top surface of the printed circuit board, the semiconductor chip, the at least one resin passage hole, and the at least one resin channel. | 08-11-2011 |
