Patent application number | Description | Published |
20080237891 | SEMICONDUCTOR DEVICE - A semiconductor device having a stacked arrangement of a substrate and a first chip and a second chip is disclosed. In one embodiment, the first chip is arranged with a lower face on an upper face of the substrate; the second chip with a lower face on an upper face of the first chip, whereby a partial area of the upper face of the first chip that is adjacent to an edge of the first chip is uncovered by the second chip; a fifth wire contact pad is arranged on the uncovered area of the upper face of the first chip; a first bonding wire is arranged that is connected with a first wire contact pad of the substrate and the fifth wire contact pad of the first chip. | 10-02-2008 |
20090072398 | INTEGRATED CIRCUIT, CIRCUIT SYSTEM, AND METHOD OF MANUFACTURING - An integrated circuit, a circuit system and method of manufacturing such is disclosed. One embodiment provides a circuit chip including a first contact field on a chip surface; and an insulating layer on the chip surface. The insulating layer includes a flexible material. A contact pillar is coupled to the first contact field and extends from the chip surface through the insulating layer. The contact pillar includes a conductive material. | 03-19-2009 |
20090218690 | Reduced-Stress Through-Chip Feature and Method of Making the Same - A feature is inscribed in a major surface of a microelectronic workpiece having a material property expressed as a reference coefficient value. The feature includes a first material having a first coefficient value for the material property and a second material having a second coefficient value for the material property. The first coefficient value is different from the reference coefficient value different from the first coefficient value and the second coefficient value is different from the first coefficient value. The first and second materials behave as an aggregate having an aggregate coefficient value for the material property between the first coefficient value and the reference coefficient value. | 09-03-2009 |
20090243047 | Semiconductor Device With an Interconnect Element and Method for Manufacture - A semiconductor device is provided configured to be electrically connected to another device by through silicon interconnect technology. The semiconductor device includes a semiconductor substrate with at least one through hole. A through silicon conductor extends inside the through hole from the upper side to the bottom side of the semiconductor substrate. The through silicon conductor is electrical isolated from the semiconductor substrate and includes a conductor bump at one of its ends. Between the inner surface of the through hole and the through silicon conductor a gap is formed. The gap surrounds the through silicon conductor on one side of the semiconductor substrate having the conductor bump, and extends from this side of the substrate into the substrate. The gap is filled with a flexible dielectric material. | 10-01-2009 |
20090321959 | Chip Arrangement and Method of Manufacturing a Chip Arrangement - A chip arrangement includes a logic chip with electric contacts arranged on one side, at least one memory chip arrangement with electrical contacts arranged on at least one side, and a substrate with electrical contacts on both sides of the substrate. The logic chip is attached to the substrate and is electrically conductively coupled to the substrate. The memory chip arrangement is arranged on the logic chip on the side facing the substrate and is electrically conductive coupled to the logic chip. The substrate includes a plurality of electrical connections between the contacts of the one and the other side. | 12-31-2009 |
20100013101 | Method for Manufacturing a Multichip Module Assembly - A multichip module assembly includes a chipset of at least two chips. The chips have active sides, rear sides and chip contacts on their active sides adjacent each other and are embedded in a polymer matrix in a symmetrical manner relating to the top and the bottom surface of the chipset. Chip contacts are electrically connected by through polymer connectors that each extend from a chip contact to a surface of the polymer matrix. A film wiring line is arranged on a side of the polymer matrix for electrical connection of two through polymer connectors of two chips or a through polymer connector with an interconnect element arranged on a side of the polymer matrix. | 01-21-2010 |
20100065949 | Stacked Semiconductor Chips with Through Substrate Vias - Structures and methods of forming stacked chips are disclosed. In one embodiment, a first chip is disposed over a second chip, a top surface of the first and the second chip includes active circuitry. A first through substrate via is disposed within the first chip, the first through substrate via includes a protruding tip projecting below a bottom surface of the first chip, the bottom surface being opposite the top surface. A second through substrate via is disposed on the second chip, the second through substrate via including an opening, wherein the first protruding tip of the first chip is disposed within the opening of the second chip. | 03-18-2010 |
Patent application number | Description | Published |
20090072374 | Electric Device, Stack of Electric Devices, and Method of Manufacturing a Stack of Electric Devices - According to one embodiment of the present invention, an electric device includes: a top surface and a bottom surface; a contact hole extending from the top surface through the device to the bottom surface; a conductive sealing element which seals the contact hole at or near the bottom surface; a conductive connection which is coupled to the conductive sealing element and which extends through the contact hole to the top surface; and solder material which is provided on a bottom surface of the conductive sealing element. | 03-19-2009 |
20090212420 | INTEGRATED CIRCUIT DEVICE AND METHOD FOR FABRICATING SAME - Fabricating an integrated circuit device includes providing a semiconductor substrate comprising a first surface and a sec-ond surface, forming a wiring layer on the first surface of the semiconductor substrate, providing a circuit chip, and arranging the circuit chip on the wiring layer of the semi-conductor substrate. The fabricating further includes forming an embedding layer on the wiring layer and on the circuit chip, the embedding layer encapsulating the circuit chip, thinning the semiconductor substrate at the second surface after forming the embedding layer, and forming a conductive via in the semiconductor substrate being electrically coupled to the wiring layer and exposed at the second surface of the semiconductor substrate. Moreover, an integrated circuit de-vice is described. | 08-27-2009 |
20110217812 | INTEGRATED CIRCUIT DEVICE AND METHOD FOR FABRICATING SAME WITH AN INTERPOSER SUBSTRATE - Fabricating an integrated circuit device includes providing a semiconductor substrate comprising a first surface and a second surface, forming a wiring layer on the first surface of the semiconductor substrate, providing a circuit chip, and arranging the circuit chip on the wiring layer of the semiconductor substrate. The fabricating further includes forming an embedding layer on the wiring layer and on the circuit chip, the embedding layer encapsulating the circuit chip, thinning the semiconductor substrate at the second surface after forming the embedding layer, and forming a conductive via in the semiconductor substrate being electrically coupled to the wiring layer and exposed at the second surface of the semiconductor substrate. Moreover, an integrated circuit device is described. | 09-08-2011 |