Patent application number | Description | Published |
20120018871 | STACK PACKAGE AND SEMICONDUCTOR PACKAGE INCLUDING THE SAME - A stack package usable in a three-dimensional (3D) system-in-package (SIP) includes a first semiconductor chip, a second semiconductor chip, and a supporter. The first semiconductor chip includes a through silicon via (TSV), and the second semiconductor chip is stacked on the first semiconductor chip and is electrically connected to the first semiconductor chip through the TSV of the first semiconductor chip. The supporter is attached onto the first semiconductor chip so as to be spaced apart from an edge of the second semiconductor chip. | 01-26-2012 |
20120018885 | SEMICONDUCTOR APPARATUS HAVING THROUGH VIAS - A semiconductor apparatus includes a base substrate and a logic chip disposed on the base substrate. The logic chip includes a memory control circuit, a first through silicon via, and a second through silicon via. The memory control circuit is disposed on a first surface of a substrate of the logic chip, and a memory chip is disposed on a second surface of the substrate of the logic chip. The first through silicon via electrically connects the memory control circuit and the memory chip, the second through silicon via is electrically connected to the memory chip and is configured to transmit power for the memory chip, the second through silicon via is electrically insulated from the logic chip, and the first surface of the substrate of the logic chip faces the base substrate. | 01-26-2012 |
20120074584 | MULTI-LAYER TSV INSULATION AND METHODS OF FABRICATING THE SAME - Provided is a semiconductor device. The semiconductor device may include a substrate and a stacked insulation layer on a sidewall of an opening which penetrates the substrate. The stacked insulation layer can include at least one first insulation layer and at least one second insulation layer whose dielectric constant is different than that of the first insulation layer. One insulation layer may be a polymer and one insulation layer may be a silicon based insulation layer. The insulation layers may be uniform in thickness or may vary as a distance from the substrate changes. | 03-29-2012 |
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 |
20120085383 | SOLAR CELL MODULE AND METHOD OF MANUFACTURING THE SAME - A solar cell module having a reduced thickness using a flip-chip approach includes a transparent substrate, a transparent electrode interconnection disposed on the transparent substrate, and a plurality of solar cells disposed on the transparent electrode interconnection, each solar cell having at least one protrusion formed on one surface of the solar cell, the protrusion being bonded to the transparent electrode interconnection. | 04-12-2012 |
20120085393 | SOLAR CELL MODULE AND METHOD OF MANUFACTURING THE SAME - A solar cell module includes a circuit board, a plurality of solar cells disposed on a first surface of the circuit board, a plurality of metal terminals formed on the first surface of the circuit board, and a plurality of wires electrically connecting the plurality of solar cells and the metal terminals. The circuit board has a second surface opposite to the first surface, the rear surface comprising openings corresponding to the metal terminals, the openings exposing the metal terminals to an exterior of the solar cell module, thus forming contact terminals for the solar cell module. | 04-12-2012 |
20120139097 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - Provided are a semiconductor package and a method of manufacturing the semiconductor package. The semiconductor package may include a circuit substrate, a semiconductor chip mounted on the circuit substrate, a chip package interaction disposed between the circuit substrate and the semiconductor chip, a first molding portion covering part of the semiconductor chip and part of the chip package interaction, a second molding portion formed on the first molding portion, and an adhesion portion adhering the first and second molding portions to each other, the adhesion portion being disposed between the first and second molding portions. | 06-07-2012 |
20120153498 | Semiconductor Device and Method of Forming the Same - In a semiconductor device, an organic insulation pattern is disposed between first and second rerouting patterns. The organic insulation pattern may absorb the physical stress that occurs when the first and second rerouting patterns expand under heat. Since the organic insulation pattern is disposed between the first and second rerouting patterns, insulating properties can be increased relative to a semiconductor device in which a semiconductor pattern is disposed between rerouting patterns. Also, since a seed layer pattern is disposed between the first and second rerouting patterns and the organic insulation pattern and between the substrate and the organic insulation pattern, the adhesive strength of the first and second rerouting patterns is enhanced. This also reduces any issues with delamination. Also, the seed layer pattern prevents the metal that forms the rerouting pattern from being diffused to the organic insulation pattern. Therefore, a semiconductor device with enhanced reliability may be implemented. | 06-21-2012 |
20120156823 | METHOD OF FORMING SEMICONDUCTOR DEVICE - A method of forming a semiconductor device includes preparing a semiconductor substrate having a plurality of chips formed thereon and a scribe lane disposed between the chips, simultaneously forming a groove having a first depth in the scribe lane, and a through hole penetrating the chips and having a second depth. The chips are separated along the groove. The first depth is smaller than the second depth. | 06-21-2012 |
20120168792 | HETEROJUNCTION STRUCTURES OF DIFFERENT SUBSTRATES JOINED AND METHODS OF FABRICATING THE SAME - In one embodiment, a heterojunction structure includes a first substrate; a second substrate comprising an electrode pad, the second substrate joined to the first substrate by an adhesive layer interposed between the first and second substrates, the first substrate and the adhesive layer having a via hole penetrating therethrough to expose a region of the electrode pad; a connection electrode disposed in the via hole and contacting the electrode pad; and an insulation layer electrically insulating the connection electrode from the first substrate. One of the first and second substrates has a thermal expansion coefficient different than a thermal expansion coefficient of the other of the first and second substrates, and at least one of the adhesive layer or the insulation layer comprises an organic material. | 07-05-2012 |
20120171814 | SEMICONDUCTOR PACKAGES AND METHODS OF FABRICATING THE SAME - Provided are a semiconductor package and a method of fabricating the same. In one embodiment, to fabricate a semiconductor package, a wafer having semiconductor chips fabricated therein is provided. A heat sink layer is formed over the wafer. The heat sink layer contacts top surfaces of the semiconductor chips. Thereafter, the plurality of semiconductor chips are singulated from the wafer. | 07-05-2012 |
20120175782 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - Provided are a semiconductor package and a method of manufacturing the same. a substrate including a first face and a second face, wherein the first and second faces face each other; a first ground pattern disposed on the first face; a second ground pattern disposed on the second face; a plurality of ground via plugs which connect the first ground pattern and the second ground pattern, wherein the plurality of ground via plugs penetrate the substrate; and a first aluminum oxide film interposed between the plurality of ground via plugs, wherein a ground voltage is applied to the plurality of ground via plugs. The semiconductor package may be manufactured using an anodic oxidation process. | 07-12-2012 |
20120193779 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A stack of semiconductor chips, a semiconductor device, and a method of manufacturing are disclosed. The stack of semiconductor chips may comprise a first chip of the stack, a second chip of the stack over the first chip, conductive bumps, a homogeneous integral underfill material, and a molding material. The conductive bumps may extend between an upper surface of the first chip and a lower surface of the second chip. The homogeneous integral underfill material may be interposed between the first chip and the second chip, encapsulate the conductive bumps, and extend along sidewalls of the second chip. The homogeneous integral underfill material may have an upper surface extending in a direction parallel to an upper surface of the second chip and located adjacent the upper surface of the second chip. The molding material may be on outer side surfaces of the homogeneous integral underfill material above the upper surface of the first chip, wherein, in view of a first cross sectional profile, the molding material is separated from sidewalls of the second chip by the homogeneous integral underfill material such that the molding material does not contact sidewalls of the second chip. | 08-02-2012 |
20120223433 | SEMICONDUCTOR PACKAGE INCLUDING CONNECTING MEMBER HAVING CONTROLLED CONTENT RATIO OF GOLD - A semiconductor package including connecting members having a controlled content ratio of gold capable of increasing durability and reliability by preventing an intermetallic compound having high brittleness from being formed. The semiconductor package includes a base substrate; a first semiconductor chip disposed on the base substrate; and a first connecting member for electrically connecting the base substrate and the first semiconductor chip, and comprising a first bonding portion that includes gold and has a first content ratio of gold that is controlled to prevent an intermetallic compound of AuSn | 09-06-2012 |
20120228780 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - Provided are a semiconductor device including a through via plug and a method of manufacturing the same. In the semiconductor device, since a redistributed interconnection pattern is disposed on a protection film of a convex-concave structure having a protrusion and a recessed portion, the semiconductor device may have improved reliability while preventing a leakage current. In the method of manufacturing the semiconductor device, since an end surface of through via structure is exposed by removing a protection film and an insulating film liner using a selective etching process, damage to the through via structure is minimized, thereby preventing copper contamination in a substrate. | 09-13-2012 |
20120235305 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes a substrate having a first side and a second side such that the first and second sides face each other, a through via plug penetrating the substrate, an insulating film liner, and an antipollution film. The insulating film liner is between the through via plug and the substrate and the insulating film liner has a recessed surface with respect to the second side. The antipollution film covers the second side and the antipollution film is on the recessed surface and between the through via plug and the substrate. | 09-20-2012 |
20120280405 | SEMICONDUCTOR PACKAGES AND METHODS OF MANUFACURING THE SAME - Provided are semiconductor devices and methods of manufacturing the same. The semiconductor package includes a substrate, a first semiconductor chip mounted on the circuit substrate and having a first width, a second semiconductor chip overlying the first semiconductor chip and having a second width greater than the first width, and a first under filler disposed between the first and second semiconductor chips, covering a side surface of the first semiconductor chip and having an inclined side surface. | 11-08-2012 |
20130260551 | SEMICONDUCTOR DEVICE AND METHOD OF FORMING THE SAME - In a semiconductor device, an organic insulation pattern is disposed between first and second rerouting patterns. The organic insulation pattern may absorb the physical stress that occurs when the first and second rerouting patterns expand under heat. Since the organic insulation pattern is disposed between the first and second rerouting patterns, insulating properties can be increased relative to a semiconductor device in which a semiconductor pattern is disposed between rerouting patterns. Also, since a seed layer pattern is disposed between the first and second rerouting patterns and the organic insulation pattern and between the substrate and the organic insulation pattern, the adhesive strength of the first and second rerouting patterns is enhanced. This also reduces any issues with delamination. Also, the seed layer pattern prevents the metal that forms the rerouting pattern from being diffused to the organic insulation pattern. Therefore, a semiconductor device with enhanced reliability may be implemented. | 10-03-2013 |
20140110831 | MULTI-CHIP PACKAGE AND METHOD OF MANUFACTURING THE SAME - A multi-chip package may include a package substrate, an interposer chip, a first semiconductor chip, a thermal dissipation structure and a second semiconductor chip. The interposer chip may be mounted on the package substrate. The first semiconductor chip may be mounted on the interposer chip. The first semiconductor chip may have a size smaller than that of the interposer chip. The thermal dissipation structure may be arranged on the interposer chip to surround the first semiconductor chip. The thermal dissipation structure may transfer heat in the first semiconductor chip to the interposer chip. The second semiconductor chip may be mounted on the first semiconductor chip. Thus, the heat in the first semiconductor chip may be effectively transferred to the interposer chip through the thermal dissipation line. | 04-24-2014 |
20140148007 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device includes a substrate having a first side and a second side such that the first and second sides face each other, a through via plug penetrating the substrate, an insulating film liner, and an antipollution film. The insulating film liner is between the through via plug and the substrate and the insulating film liner has a recessed surface with respect to the second side. The antipollution film covers the second side and the antipollution film is on the recessed surface and between the through via plug and the substrate. | 05-29-2014 |
20140300004 | SEMICONDUCTOR PACKAGES AND METHODS OF FABRICATING THE SAME - Provided are a semiconductor package and a method of fabricating the same. In one embodiment, to fabricate a semiconductor package, a wafer having semiconductor chips fabricated therein is provided. A heat sink layer is formed over the wafer. The heat sink layer contacts top surfaces of the semiconductor chips. Thereafter, the plurality of semiconductor chips are singulated from the wafer. | 10-09-2014 |