Patent application number | Description | Published |
20100285635 | CHIP STACK PACKAGE AND METHOD OF MANUFACTURING THE CHIP STACK PACKAGE - A chip stack package includes a substrate, a plurality of chips, a plurality of adhesive layers and a plug. The substrate has a wiring pattern and a seed layer formed on the wiring pattern. Each of the chips has an electrode pad and a first through-hole that penetrates the electrode pad. The chips are stacked such that the first through-holes are aligned on the seed layer of the substrate. The adhesive layers are interposed between the substrate and one of the chips, as well as between the chips. Each of the adhesive layers has a second through-hole connected to the first through-hole. The plug fills up the first through-holes and the second through-holes and electrically connects the electrode pads to the wiring pattern of the substrate. A cross-sectional area of the plug in the second through-holes may be larger than that of the plug in the first through-holes. | 11-11-2010 |
20110097891 | Method of Manufacturing the Semiconductor Device - A method of manufacturing semiconductor device includes preparing a substrate having a first surface and a second surface opposite to the first surface. A first insulation layer is formed on the second surface. A sacrificial layer is formed on the first insulation layer. An opening is formed to penetrate through the substrate and extend from the first surface to a portion of the sacrificial layer. A second insulation layer is formed on an inner wall of the opening. A plug is formed to fill the opening. The sacrificial layer is removed to expose a lower portion of the plug through the second surface. | 04-28-2011 |
20110108415 | APPARATUS AND METHOD FOR PLATING A SUBSTRATE - An apparatus for electroplating a substrate includes a substrate supporting member that supports the substrate such that a plating surface of the substrate faces upwardly, an anode electrode disposed at an upper part of the substrate supporting member, a power source for applying a voltage to the anode electrode and the substrate, and a plating solution supply member for supplying a plating solution onto the substrate. | 05-12-2011 |
20110226626 | APPARATUS AND METHOD FOR TREATING SUBSTRATE - A substrate treating device may include a plating treatment portion configured to perform a plating process of a substrate, a wet treatment portion configured to perform a wet treating process of the substrate, the wet treatment portion being under the plating treatment portion, and a substrate support portion configured to support the substrate so that a plating surface of the substrate faces upward, the substrate support portion being further configured to move the substrate between the plating treatment portion and the wet treatment portion. | 09-22-2011 |
20110284936 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A semiconductor device and a method of fabricating a semiconductor device. The semiconductor device includes an interlayer insulation layer pattern, a metal wire pattern exposed by a passage formed by a via hole formed in the interlayer insulation layer pattern to input and output an electrical signal, and a plated layer pattern directly contacting the metal wire pattern and filling the via hole. The method includes forming an interlayer insulation layer having a metal wire pattern to input and output an electrical signal formed therein, forming a via hole to define a passage that extends through the interlayer insulation layer until at least a part of the metal wire pattern is exposed, and forming a plated layer pattern to fill the via hole and to directly contact the metal wire pattern by using the metal wire pattern exposed through the via hole as a seed metal layer. | 11-24-2011 |
20120083097 | Methods of Forming a Semiconductor Package Using a Seed Layer and Semiconductor Packages Formed Using the Same - Provided is a method of forming a semiconductor package including providing a substrate having a first side and an opposite second side and providing a wafer having a plurality of semiconductor chips, each of the semiconductor chips having a conductive pad, wherein at least one of the substrate and the wafer includes a seed pattern. The first side of the substrate is bonded to the wafer with the conductive pad positioned adjacent to the first side of the substrate and the seed pattern positioned between the conductive pad and the first side of the substrate. A through hole is then formed penetrating the substrate from the second side of the substrate to expose the seed pattern. A through electrode is formed in the through hole using the seed pattern as a seed. Corresponding devices are also provided. | 04-05-2012 |
20120133041 | Semiconductor Devices Having Electrodes and Methods of Fabricating the Same - Some embodiments provide a semiconductor device including a substrate having a first surface and an opposite second surface. An electrode extends within the substrate towards the first surface and has a protruding portion extending from the first surface. A supporting portion extends from the first surface of the substrate to a sidewall of the protruding portion that supports the protruding portion. Methods of fabricating the same are also provided. | 05-31-2012 |
20120199981 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SEMICONDUCTOR DEVICE - A semiconductor device includes a first device including a first substrate and a first external connection terminal for connecting outside the first device; a second device stacked on the first device, the second device including a second substrate and a second external connection terminal for connecting outside the second device; an adhesive pattern disposed between the first device and second device, the adhesive pattern disposed in locations other than locations where the first external connection terminal and second external connection terminal are disposed, and the adhesive pattern causing the first device and second device, when stacked, to be spaced apart by a predetermined distance; and a plated layer disposed between and electrically and physically connecting the first external connection terminal and the second external connection terminal. | 08-09-2012 |
20120292195 | APPARATUS AND METHOD FOR ELECTROPLATING FOR SEMICONDUCTOR SUBSTRATE - An apparatus for electroplating a semiconductor device includes a plating bath accommodating a plating solution, and a paddle in the plating bath, the paddle including a plurality of holes configured to pass the plating solution through the paddle toward a substrate, and a plating solution flow reinforcement portion configured to selectively reinforce a flow of the plating solution to a predetermined area of the substrate, the predetermined area of the substrate being an area requiring a relatively increased supply of metal ions of the plating solution. | 11-22-2012 |
20130000978 | Joint Structures Having Organic Preservative Films - The inventive concept provides methods for inhibiting the formation of one or more oxides on metal bumps during the formation of solder joint structures and solder joint structures including one or more preservative films. In some embodiments, the solder joint structure includes a metal bump having a preservative film disposed on the surface thereof. | 01-03-2013 |
20130075905 | Semiconductor Chips and Semiconductor Packages and Methods of Fabricating the Same - A semiconductor device includes a substrate and a through via penetrating the substrate. The through via has a protruding portion at a first end thereof extending out from a first surface of the substrate and a second end of the via contacting an interconnection line proximate a second, opposite, end of the substrate. A wetting layer is positioned between the via and the substrate and extends over the protruding portion of the via. The wetting layer includes a material selected to improve an adhesive strength between the wetting layer and a solder ball contacting the wetting layer extending over the protruding portion of the via when a solder ball is coupled to the wetting layer. | 03-28-2013 |
20130313707 | Electrical Interconnections of Semiconductor Devices and Methods for Fabricating the Same - Provided are electrical interconnections and methods for fabricating the same. The electrical interconnection may include a substrate including a bonding pad, a solder ball electrically connected to the bonding pad, a solder supporter on the bonding pad, a portion of the solder ball filling the solder supporter, and a metal layer between the bonding pad and the solder supporter, the metal layer having an ionization tendency lower than the bonding pad. | 11-28-2013 |
20130334656 | ELECTRICAL INTERCONNECTION STRUCTURES INCLUDING STRESS BUFFER LAYERS - Provided are electrical connection structures and methods of fabricating the same. The structures may include a substrate including a bonding pad region provided with a bonding pad and a fuse region provided with a fuse, an insulating layer provided on the substrate and including a bonding pad opening exposing the bonding pad and a fuse opening exposing the fuse region, a connection terminal provided in the bonding pad region and electrically connected to the bonding pad, and a protection layer provided on the insulating layer including a first protection layer provided within the bonding pad region and a second protection layer in the fuse opening. | 12-19-2013 |
20140138819 | SEMICONDUCTOR DEVICE INCLUDING TSV AND SEMICONDUCTOR PACKAGE INCLUDING THE SAME - Provided are a semiconductor device, a method of manufacturing the same, and a semiconductor package including the same. The semiconductor device includes: a substrate having a recess region in a predetermined portion of a back side of the substrate; a wiring part disposed on a front side of the substrate and including at least one wiring layer; an insulating layer disposed on the back side of the substrate and including a first portion filling in the recess region and a second portion covering the back side of the substrate of a non-recess region other than the recess region; and a through silicon via (TSV) provided in plurality of and penetrating the first portion to be electrically connected to the at least one wiring layer. | 05-22-2014 |
20140217559 | Semiconductor Devices Having Through Silicon Vias and Methods of Fabricating the Same - A semiconductor device is provided having an insulating layer on a semiconductor substrate. The insulating layer and the semiconductor substrate define a through hole penetrating the semiconductor substrate and the insulating layer. A through electrode is provided in the through hole. A spacer is provided between the semiconductor substrate and the through electrode. An interconnection in continuity with the through electrode is provided on the insulating layer. A barrier layer covering a side and a bottom of the interconnection and a side of the through electrode is provided and the barrier layer is formed in one body. | 08-07-2014 |
20140235052 | Methods for Fabricating Semiconductor Devices Having Through Electrodes - Methods for fabricating semiconductor devices having through electrodes are provided. The method may comprise forming a via hole which opens towards an upper surface of a substrate and disconnects with a lower surface of the substrate; forming a via isolation layer which extends along an inner surface of the via hole and covers the upper surface of the substrate; forming a seed layer on the via isolation layer which extends along the via isolation layer; annealing the seed layer in-situ after forming the seed layer; forming a conductive layer, filling the via hole, by an electroplating using the seed layer; and planarizing the upper surface of the substrate to form a through electrode surrounded by the via isolation layer in the via hole. | 08-21-2014 |
Patent application number | Description | Published |
20080230923 | CHIP STACK PACKAGE AND METHOD OF MANUFACTURING THE CHIP STACK PACKAGE - A chip stack package includes a substrate, a plurality of chips, a plurality of adhesive layers and a plug. The substrate has a wiring pattern and a seed layer formed on the wiring pattern. Each of the chips has an electrode pad and a first through-hole that penetrates the electrode pad. The chips are stacked such that the first through-holes are aligned on the seed layer of the substrate. The adhesive layers are interposed between the substrate and one of the chips, as well as between the chips. Each of the adhesive layers has a second through-hole connected to the first through-hole. The plug fills up the first through-holes and the second through-holes and electrically connects the electrode pads to the wiring pattern of the substrate. A cross-sectional area of the plug in the second through-holes may be larger than that of the plug in the first through-holes. | 09-25-2008 |
20090085224 | STACK-TYPE SEMICONDUCTOR PACKAGE - Provided is a stack-type semiconductor package including a base chip having a circuit formed on one of its surfaces, at least one stack chip having a circuit stacked on the base chip, an adhesive interposed between the base chip and the stack chip, and signal transmission members formed along a lateral surface of the stack chip. The fabrication process of this stack-type semiconductor package may be simplified and the number of process operations may be lessened, thereby reducing the production time and cost. Also, a state of electrical contact of a terminal with a signal transmission member may be solidified, thereby improving the reliability of the stack-type semiconductor package. Furthermore, new post-type signal transmission members are adopted instead of wires or electrodes so that the structural stability and productivity of the stack-type semiconductor package may be markedly enhanced. | 04-02-2009 |
20090206464 | METHOD OF FORMING SEMICONDUCTOR CHIPS, THE SEMICONDUCTOR CHIPS SO FORMED AND CHIP-STACK PACKAGE HAVING THE SAME - Provided are methods of fabricating semiconductor chips, semiconductor chips formed by the methods, and chip-stack packages having the semiconductor chips. One embodiment specifies a method that includes patterning a scribe line region of a semiconductor substrate to form a semiconductor strut spaced apart from edges of a chip region of the semiconductor substrate. | 08-20-2009 |
20090305502 | Methods of Forming Integrated Circuit Chips Having Vertically Extended Through-Substrate Vias Therein and Chips Formed Thereby - Methods of forming an integrated circuit device include forming an interlayer dielectric layer on a first surface of a semiconductor substrate and then forming an interconnect hole that extends through the interlayer dielectric layer and into the semiconductor substrate. A first sidewall spacer layer is formed on a sidewall of the interconnect hole. The semiconductor substrate at a bottom of the interconnect hole is isotropically etched to define an undercut recess in the semiconductor substrate. This etching step is performed using the first sidewall spacer layer as an etching mask. The interconnect hole and the uncut recess are then filled with a through-via electrode. A second surface of the semiconductor substrate is removed for a sufficient duration to expose the uncut recess containing the through-via electrode. | 12-10-2009 |
20110086486 | Methods of Forming Integrated Circuit Chips Having Vertically Extended Through-Substrate Vias Therein - Methods of forming an integrated circuit device include forming an interlayer dielectric layer on a first surface of a semiconductor substrate and then forming an interconnect hole that extends through the interlayer dielectric layer and into the semiconductor substrate. A first sidewall spacer layer is formed on a sidewall of the interconnect hole. The semiconductor substrate at a bottom of the interconnect hole is isotropically etched to define an undercut recess in the semiconductor substrate. This etching step is performed using the first sidewall spacer layer as an etching mask. The interconnect hole and the uncut recess are then filled with a through-via electrode. A second surface of the semiconductor substrate is removed for a sufficient duration to expose the uncut recess containing the through-via electrode. | 04-14-2011 |
20130175673 | INTEGRATED CIRCUIT DEVICES INCLUDING THROUGH-SILICON-VIAS HAVING INTEGRAL CONTACT PADS - An integrated circuit device including an interlayer insulating layer on a substrate, a wire layer on the interlayer insulating layer, and a through-silicon-via (TSV) contact pattern having an end contacting the wire layer and integrally extending from inside of a via hole formed through the interlayer insulating layer and the substrate to outside of the via hole. | 07-11-2013 |