Patent application number | Description | Published |
20120298410 | Interposer Testing Using Dummy Connections - An interconnection component includes a substrate, and an active through-substrate via (TSV) penetrating through the substrate. Active metal connections are formed over the substrate and electrically connected to the active TSV. At least one of a dummy pad and a dummy solder bump are formed at surfaces of the interconnection component. The dummy pad is over the substrate and electrically connected to the active TSV and the active metal connections. The dummy solder bump is under the substrate and electrically connected to the active metal connections. The dummy pad and the dummy solder bump are open ended. | 11-29-2012 |
20130026612 | METHOD OF SHIELDING THROUGH SILICON VIAS IN A PASSIVE INTERPOSER - A passive interposer apparatus with a shielded through silicon via (TSV) configuration is disclosed. The apparatus includes a p-doped substrate, wherein at least an upper portion of the p-doped substrate is heavily p-doped. An interlayer dielectric layer (ILD) is disposed over the upper portion of the p-doped substrate. A plurality of through silicon vias (TSVs) are formed through the ILD and the p-doped substrate. A plurality of shielding lines disposed between the TSVs electrically couple respective second metal contact pads to the upper portion of the p-doped substrate. | 01-31-2013 |
20130187156 | THREE DIMENSIONAL INTEGRATED CIRCUIT HAVING A RESISTANCE MEASURMENT STRUCTURE AND METHOD OF USE - A three-dimensional integrated circuit (3DIC) including a top chip having at least one active device and an interposer having conductive routing layers and vias. The 3DIC further includes a plurality of conductive connectors configured to electrically connect the top chip and the interposer. The 3DIC further includes a conductive line over at least one of the top chip or the interposer. The conductive line traces a perimeter of top chip or interposer parallel to an outer edge of the top chip or interposer. The conductive line is configured to electrically connect the conductive connectors. The 3DIC further includes at least one testing element over at least one of the top chip or the interposer. The testing element is configured to electrically connect to the plurality of conductive connectors. | 07-25-2013 |
20130248960 | SYSTEM AND METHOD OF UV PROGRAMMING OF NON-VOLATILE SEMICONDUCTOR MEMORY - A semiconductor memory storage device includes first and second doped regions of a first type disposed in a semiconductor substrate. The first and second doped regions of the first type being laterally spaced from one another. A gate dielectric extends over the semiconductor substrate between the first and second doped regions, and a floating gate is disposed on the gate dielectric. An ultraviolet (UV) light blocking material is vertically disposed above the floating gate and has a size that covers the floating gate such that the floating gate remains electrically charged after the semiconductor memory storage device is exposed to UV light. | 09-26-2013 |
20140087548 | METHOD OF SHIELDING THROUGH SILICON VIAS IN A PASSIVE INTERPOSER - A method of shielding through silicon vias (TSVs) in a passive interposer includes doping a substrate with positive ions, and implanting positive ions in an upper portion of the substrate, such that the substrate has at least a p-doped portion and a heavily p-doped upper portion. The method further includes forming an interlayer dielectric (ILD) above the heavily p-doped upper portion. The method further includes forming a plurality of through silicon vias (TSVs) through the ILD and the substrate, such that the passive interposer is configured to electrically couple at least one structure above and below the passive interposer. The method further includes forming, between pairs of TSVs of the plurality of TSVs, a plurality of shielding lines through the interlayer dielectric, the shielding lines configured to electrically couple the heavily p-doped upper portion of the substrate and at least one interconnect structure above the ILD. | 03-27-2014 |
20140217604 | Package Structure and Methods of Forming Same - A semiconductor device includes a first die having a first active surface and a first backside surface opposite the first active surface, a second die having a second active surface and a second backside surface opposite the second active surface, and an interposer, the first active surface of the first die being electrically coupled to a first side of the interposer, the second active surface of the second die being electrically coupled to a second side of the interposer. The semiconductor device also includes a first connector over the interposer, a first encapsulating material surrounding the second die, the first encapsulating material having a first surface over the interposer, and a via electrically coupling the first connector and the interposer. A first end of the via is substantially coplanar with the first surface of the first encapsulating material. | 08-07-2014 |
20150079735 | ELECTROSTATIC DISCHARGE PROTECTION APPARATUS AND PROCESS - In a process, at least one circuit element is formed in a substrate. A conductive layer is formed over the substrate and in electrical contact with the at least one circuit element. Electrostatic charges are discharged from the substrate via the conductive layer. | 03-19-2015 |
20150162220 | Package Structure and Methods of Forming Same - A semiconductor device includes a first die having a first active surface and a first backside surface opposite the first active surface, a second die having a second active surface and a second backside surface opposite the second active surface, and an interposer, the first active surface of the first die being electrically coupled to a first side of the interposer, the second active surface of the second die being electrically coupled to a second side of the interposer. The semiconductor device also includes a first connector over the interposer, a first encapsulating material surrounding the second die, the first encapsulating material having a first surface over the interposer, and a via electrically coupling the first connector and the interposer. A first end of the via is substantially coplanar with the first surface of the first encapsulating material. | 06-11-2015 |