| Patent application number | Description | Published |
|---|
| 20090141424 | Semiconductor Devices and Methods of Manufacture Thereof - Semiconductor devices and methods of manufacture thereof are disclosed. In one embodiment, a capacitor plate includes a plurality of first parallel conductive members, and a plurality of second parallel conductive members disposed over the plurality of first parallel conductive members. A first base member is coupled to an end of the plurality of first parallel conductive members, and a second base member is coupled to an end of the plurality of second parallel conductive members. A connecting member is disposed between the plurality of first parallel conductive members and the plurality of second parallel conductive members, wherein the connecting member includes at least one elongated via. | 06-04-2009 |
| 20090194850 | Crack Stops for Semiconductor Devices - Crack stops for semiconductor devices, semiconductor devices, and methods of manufacturing semiconductor devices are disclosed. In one embodiment, a barrier structure for a semiconductor device includes a plurality of substantially V-shaped regions. Each of the plurality of substantially V-shaped regions is disposed adjacent another of the plurality of substantially V-shaped regions. | 08-06-2009 |
| 20090200675 | Passivated Copper Chip Pads - A structure and method of forming passivated copper chip pads is described. In various embodiments, the invention describes a substrate that includes active circuitry and metal levels disposed above the substrate. A passivation layer is disposed above a last level of the metal levels. A conductive liner is disposed in the sidewalls of an opening disposed in the passivation layer, wherein the conductive liner is also disposed over an exposed surface of the last level of the metal levels. | 08-13-2009 |
| 20090201043 | Crack Sensors for Semiconductor Devices - Crack sensors for semiconductor devices, semiconductor devices, methods of manufacturing semiconductor devices, and methods of testing semiconductor devices are disclosed. In one embodiment, a crack sensor includes a conductive structure disposed proximate a perimeter of an integrated circuit. The conductive structure is formed in at least one conductive material layer of the integrated circuit. The conductive structure includes a first end and a second end. A first terminal is coupled to the first end of the conductive structure, and a second terminal is coupled to the second end of the conductive structure. | 08-13-2009 |
| 20090203192 | Crack Stop Trenches - Structures and methods of forming crack stop trenches are disclosed. The method includes forming active regions disposed in cell regions of a substrate, the cell regions separated by dicing channels, and forming back end of line (BEOL) layers over the substrate, the BEOL layers being formed over the cell regions and the dicing channels. Crack stop trenches are then formed encircling the cell regions by etching a portion of the BEOL layers surrounding the cell regions. The wafer is diced along the dicing channels. | 08-13-2009 |
| 20090239375 | Dual Damascene Process - Structures and methods of forming metallization layers on a semiconductor component are disclosed. The method includes etching a metal line trench using a metal line mask, and etching a via trench using a via mask after etching the metal line trench. The via trench is etched only in regions common to both the metal line mask and the via mask. | 09-24-2009 |
| 20100022085 | Method of Forming Support Structures for Semiconductor Devices - Support structures for semiconductor devices and methods of manufacturing thereof are disclosed. In some embodiments, the support structures include a plurality of support members that is formed in a substantially annular shape beneath a wire bond region. The central region inside the substantially annular shape of the plurality of support members may be used to route functional conductive lines for making electrical contact to active areas of the semiconductor device. Dummy support structures may optionally be formed between the functional conductive lines. The support structures may be formed in one or more conductive line layers and semiconductive material layers of a semiconductor device. In other embodiments, support members are not formed in an annular shape, and are formed in insulating layers that do not comprise low dielectric constant (k) materials. | 01-28-2010 |
| 20100314619 | Test Structures and Methods for Semiconductor Devices - Test structures for semiconductor devices, methods of forming test structures, semiconductor devices, methods of manufacturing thereof, and testing methods for semiconductor devices are disclosed. In one embodiment, a test structure for a semiconductor device includes at least one first contact pad disposed in a first material layer in a scribe line region of the semiconductor device. The at least one first contact pad has a first width. The test structure also includes at least one second contact pad disposed in a second material layer proximate the at least one first contact pad in the first material layer. The at least one second contact pad has a second width that is greater than the first width. | 12-16-2010 |
| 20110074033 | Crack Stop Trenches - Structures and methods of forming crack stop trenches are disclosed. The method includes forming active regions disposed in cell regions of a substrate, the cell regions separated by dicing channels, and forming back end of line (BEOL) layers over the substrate, the BEOL layers being formed over the cell regions and the dicing channels. Crack stop trenches are then formed encircling the cell regions by etching a portion of the BEOL layers surrounding the cell regions. The wafer is diced along the dicing channels. | 03-31-2011 |
