Patent application number | Description | Published |
20080246162 | Stack package, a method of manufacturing the stack package, and a digital device having the stack package - A chip stack package may include a substrate, semiconductor chips, a molding member and a controller. The substrate may have a wiring pattern. The semiconductor chips may be stacked on a first surface of the substrate. Further, the semiconductor chips may be electrically connected to the wiring pattern. The molding member may be formed on the first substrate covering the semiconductor chips. The controller may be arranged on a second surface of the substrate. The controller may be electrically connected to the wiring pattern. The controller may have a selection function for selecting operable semiconductor chip(s) among the semiconductor chips. | 10-09-2008 |
20080311705 | Lead frame and method for fabricating semiconductor package employing the same - A lead frame and a method of fabricating a semiconductor package including the lead frame, where the lead frame includes a die pad, a tie bar supporting the die pad, and a plurality of leads. The leads may include inner and outer leads arranged along an outer periphery of the die pad, with each of the inner and outer leads having tip terminals. The lead frame may include a connecting bar connected to tip terminals of each of the inner leads. In the method, a bonding pad of a semiconductor chip is mounted on the die pad and connected via a conductive wire to the inner leads of the lead frame. The semiconductor chip, wire and inner leads may be subjected to a molding process, and the connecting bar which connects the tip terminals of the inner leads may be cut so as to independently separate each of the inner leads from the die pad. | 12-18-2008 |
20090057845 | APPARATUS TO SAW WAFER AND HAVING NOZZLE TO REMOVE BURRS IN SCRIBE LANES, METHOD OF SAWING WAFER, AND SEMICONDUCTOR PACKAGE FABRICATED BY THE SAME - An apparatus to saw a wafer and having a nozzle to remove burrs in scribe lanes, a method of sawing a wafer, and a semiconductor package fabricated by the same. The apparatus includes a blade to cut scribe lanes of the wafer and a burr removing nozzle disposed spaced apart from the blade. The burr removing nozzle removes metal burrs generated adjacent to the blade during cutting the wafer. | 03-05-2009 |
20090057918 | STACK-TYPE SEMICONDUCTOR PACKAGE, METHOD OF FORMING THE SAME AND ELECTRONIC SYSTEM INCLUDING THE SAME - A method of forming a stack-type semiconductor package includes preparing a lower printed circuit board including a plurality of interconnections and a plurality of ball lands for connection on an upper surface thereof. One or more first chips, which are electrically connected to the plurality of interconnections and sequentially stacked, are mounted on the lower printed circuit board. A lower molded resin compound is formed on the lower printed circuit board to cover the first chips, and is formed to have via holes exposing the ball lands for connection. An upper chip package, under which solder balls are formed, is aligned so that the solder balls correspond to the via holes of the lower molded resin compound, respectively. The solder balls are reflown to form connection conductors filling the via holes. A stack-type semiconductor package structure and an electronic system including the same are also provided. | 03-05-2009 |
20090067143 | ELECTRONIC DEVICE HAVING STACK-TYPE SEMICONDUCTOR PACKAGE AND METHOD OF FORMING THE SAME - An electronic device includes a lower electronic part including a lower substrate, a lower chip structure disposed on the lower substrate, and a lower molding layer covering the lower chip structure and having a recessed region in an upper surface of the lower molding layer, and an upper electronic part including an upper substrate disposed on the lower electronic part, and an upper chip structure projecting from the upper substrate, wherein the recessed region of the lower molding layer receives the upper chip structure. | 03-12-2009 |
20090272974 | Interposer chip and multi-chip package having the interposer chip - An interposer chip may include an insulating substrate, conductive patterns, and a test pattern. The conductive patterns may be formed on the insulating substrate. Further, the conductive patterns may be electrically connected to conductive wires. The test pattern may be connected to the conductive patterns. A test current for testing an electrical connection between the conductive patterns and the conductive wires may flow through the test pattern. Thus, the interposer chip may have the test pattern connected to the conductive patterns, so that the test current may flow to the test pattern through the conductive wires and the conductive patterns. As a result, an electrical connection between the conductive wires and the conductive patterns may be identified based on the test current supplied to the test pattern. | 11-05-2009 |
20100044852 | VERTICAL STACK TYPE MULTI-CHIP PACKAGE HAVING IMPROVED GROUNDING PERFORMANCE AND LOWER SEMICONDUCTOR CHIP RELIABILITY - A vertical stack type multi-chip package is provided having improved reliability by increasing the grounding performance and preventing the decrease in reliability of the multi-chip package from moisture penetration into a lower semiconductor chip. The vertical stack type multi-chip package comprises an organic substrate having a printed circuit pattern on which a semiconductor chip is mounted. A first semiconductor chip is mounted on a die bonding region of the organic substrate and is electrically connected to the organic substrate through a first wire. A metal stiffener is formed on the first semiconductor chip and connected to the organic substrate by a first ground unit around the first semiconductor chip. An encapsulant is used to seal the first semiconductor chip below the metal stiffener. A second semiconductor chip, which is larger in size than that the first semiconductor chip, is mounted on the metal stiffener and connected by a second ground unit. The second semiconductor chip is connected to the organic substrate by a second wire. A mold resin seals the second semiconductor chip and a solder ball is bonded to a solder ball pad below the organic substrate. | 02-25-2010 |
20110063805 | STACK-TYPE SEMICONDUCTOR PACKAGE, METHOD OF FORMING THE SAME AND ELECTRONIC SYSTEM INCLUDING THE SAME - A method of forming a stack-type semiconductor package includes preparing a lower printed circuit board including a plurality of interconnections and a plurality of ball lands for connection on an upper surface thereof. One or more first chips, which are electrically connected to the plurality of interconnections and sequentially stacked, are mounted on the lower printed circuit board. A lower molded resin compound is formed on the lower printed circuit board to cover the first chips, and is formed to have via holes exposing the ball lands for connection. An upper chip package, under which solder balls are formed, is aligned so that the solder balls correspond to the via holes of the lower molded resin compound, respectively. The solder balls are reflown to form connection conductors filling the via holes. A stack-type semiconductor package structure and an electronic system including the same are also provided. | 03-17-2011 |
20110237027 | Method Of Forming Package-On-Package And Device Related Thereto - Provided is a method of forming a package-on-package. An encapsulation is formed to cover a wafer using a wafer level molding process. The wafer includes a plurality of semiconductor chips and a plurality of through silicon vias (TSVs) passing through the semiconductor chips. The encapsulant may have openings aligned with the TSVs. The encapsulant and the semiconductor chips are divided to form a plurality of semiconductor packages. Another semiconductor package is stacked on one selected from the semiconductor packages. The other semiconductor package is electrically connected to the TSVs. | 09-29-2011 |
20120199964 | ELECTRONIC DEVICE HAVING STACK-TYPE SEMICONDUCTOR PACKAGE AND METHOD OF FORMING THE SAME - An electronic device includes a lower electronic part including a lower substrate, a lower chip structure disposed on the lower substrate, and a lower molding layer covering the lower chip structure and having a recessed region in an upper surface of the lower molding layer, and an upper electronic part including an upper substrate disposed on the lower electronic part, and an upper chip structure projecting from the upper substrate, wherein the recessed region of the lower molding layer receives the upper chip structure. | 08-09-2012 |
20120306075 | SEMICONDUCTOR PACKAGE APPARATUS - A semiconductor package apparatus includes a first semiconductor package including a first semiconductor chip, a first substrate, a first terminal, and a first signal transfer medium, and a second semiconductor package including a second semiconductor chip, a second substrate, a second terminal, and a second signal transfer medium. At least one package connecting solder ball is located between the first terminal and the second terminal. A first solder ball guide member is positioned around the first terminal of the first substrate and includes a first guide surface for guiding a shape of the package connecting solder ball. | 12-06-2012 |
20130001800 | METHOD OF FORMING PACKAGE-ON-PACKAGE AND DEVICE RELATED THERETO - Provided is a method of forming a package-on-package. An encapsulation is formed to cover a wafer using a wafer level molding process. The wafer includes a plurality of semiconductor chips and a plurality of through silicon vias (TSVs) passing through the semiconductor chips. The encapsulant may have openings aligned with the TSVs. The encapsulant and the semiconductor chips are divided to form a plurality of semiconductor packages. Another semiconductor package is stacked on one selected from the semiconductor packages. The other semiconductor package is electrically connected to the TSVs. | 01-03-2013 |
20130161800 | PCB FOR MUF AND MOLDING STRUCTURE OF THE PCB - A printed circuit board (PCB) for molded underfill (MUF) and a PCB molding structure that may expand a range of applying the PCB and may resolve a problem of generation of a void during manufacturing of a semiconductor package. The PCB includes: a molding area on which a plurality of semiconductor chips are mounted and that is sealed; and a peripheral area that is formed around the molding area, contacts a mold for molding during a molding process, and includes a first side adjacent to a portion into which a molding material is injected and a second side that faces the first side that is adjacent to a portion from which air may be discharged, wherein an active area where the semiconductor chips are disposed in the molding area is disposed nearer the first side than to the second side. | 06-27-2013 |
20130206595 | BIOSENSOR WITH THREE-DIMENSIONAL STRUCTURE AND MANUFACTURING METHOD THEREOF - The present invention relates to a biosensor which is formed with a three-dimensional structure using 3D molded interconnect device (MID) technology and a manufacturing method thereof. The present invention provides a biosensor in which reactive electrodes and signal transfer parts are formed in a three-dimensional structure on a surface of a polymer using the 3D MID technology, and a manufacturing method thereof. | 08-15-2013 |
20140246786 | STACKED PACKAGES HAVING THROUGH HOLE VIAS - Provided is a method of forming a package-on-package. An encapsulation is formed to cover a wafer using a wafer level molding process. The wafer includes a plurality of semiconductor chips and a plurality of through silicon vias (TSVs) passing through the semiconductor chips. The encapsulant may have openings aligned with the TSVs. The encapsulant and the semiconductor chips are divided to form a plurality of semiconductor packages. Another semiconductor package is stacked on one selected from the semiconductor packages. The other semiconductor package is electrically connected to the TSVs. | 09-04-2014 |