Patent application number | Description | Published |
20090194759 | PHASE CHANGE MEMORY DEVICE - A phase change memory device is disclosed, including a substrate, a phase change layer over the substrate, a first electrode electrically connecting a first side of the phase change layer, a second electrode electrically connecting a second side of the phase change layer, wherein the phase change layer composes mainly of gallium (Ga), antimony (Sb) and tellurium (Te) and unavoidable impurities, having the composition range of Ga | 08-06-2009 |
20110155992 | PHASE-SEPARATION TYPE PHASE-CHANGE MEMORY - A eutectic memory includes a eutectic memory material layer, a top and a bottom electrodes, or a left and a right electrodes. Materials of the eutectic memory layer are represented by M | 06-30-2011 |
20120306073 | Connector Design for Packaging Integrated Circuits - A device includes a top dielectric layer having a top surface. A metal pillar has a portion over the top surface of the top dielectric layer. A non-wetting layer is formed on a sidewall of the metal pillar, wherein the non-wetting layer is not wettable to the molten solder. A solder region is disposed over and electrically coupled to the metal pillar. | 12-06-2012 |
20130062760 | Packaging Methods and Structures Using a Die Attach Film - Packaging methods and structures for semiconductor devices that utilize a novel die attach film are disclosed. In one embodiment, a method of packaging a semiconductor device includes providing a carrier wafer and forming a die attach film (DAF) that includes a polymer over the carrier wafer. A plurality of dies is attached to the DAF, and the plurality of dies is packaged. At least the carrier wafer is removed from the packaged dies, and the packaged dies are singulated. | 03-14-2013 |
20130119382 | Plating Process and Structure - A system and method for plating a contact is provided. An embodiment comprises forming protective layers over a contact and a test pad, and then selectively removing the protective layer over the contact without removing the protective layer over the test pad. With the protective layer still on the test pad, a conductive layer may be plated onto the contact without plating it onto the test pad. After the contact has been plated, the protective layer over the contact may be removed. | 05-16-2013 |
20130122689 | Methods for De-Bonding Carriers - A method includes performing a dicing on a composite wafer including a plurality of dies, wherein the composite wafer is bonded on a carrier when the step of dicing is performed. After the step of dicing, the composite wafer is mounted onto a tape. The carrier is then de-bonded from the composite wafer and the first tape. | 05-16-2013 |
20130140563 | Plating Process and Structure - A system and method for plating a contact connected to a test pad is provided. An embodiment comprises inserting a blocking material into vias between the contact and the test pad. In another embodiment a blocking structure may be inserted between the contact and the test pad. In yet another embodiment a blocking layer may be inserted into a contact stack. Once the blocking material, the blocking structure, or the blocking layer have been formed, the contact may be plated, with the blocking material, the blocking structure, or the blocking layer reducing or preventing degradation of the test pad due to galvanic effects. | 06-06-2013 |
20130233601 | SURFACE METAL WIRING STRUCTURE FOR AN IC SUBSTRATE - A surface metal wiring structure for a substrate includes one or more functional μbumps formed of a first metal and an electrical test pad formed of a second metal for receiving an electrical test probe and electrically connected to the one or more functional μbumps. The surface metal wiring structure also includes a plurality of sacrificial μbumps formed of the first metal that are electrically connected to the electrical test pads, where the sacrificial μbumps are positioned closer to the electrical test pad than the one or more functional μbumps. | 09-12-2013 |
20130244378 | UNDERFILL CURING METHOD USING CARRIER - A method includes bonding a carrier over a top die. The method further includes curing an underfill disposed between a substrate and the top die. The method further includes applying a force over the carrier during the curing. The method further includes removing the carrier from the top die. | 09-19-2013 |
20130330921 | Plating Process and Structure - A system and method for plating a contact connected to a test pad is provided. An embodiment comprises inserting a blocking material into vias between the contact and the test pad. In another embodiment a blocking structure may be inserted between the contact and the test pad. In yet another embodiment a blocking layer may be inserted into a contact stack. Once the blocking material, the blocking structure, or the blocking layer have been formed, the contact may be plated, with the blocking material, the blocking structure, or the blocking layer reducing or preventing degradation of the test pad due to galvanic effects. | 12-12-2013 |
20140131864 | Connector Design for Packaging Integrated Circuits - A device includes a top dielectric layer having a top surface. A metal pillar has a portion over the top surface of the top dielectric layer. A non-wetting layer is formed on a sidewall of the metal pillar, wherein the non-wetting layer is not wettable to the molten solder. A solder region is disposed over and electrically coupled to the metal pillar. | 05-15-2014 |