| Patent application number | Description | Published |
|---|
| 20080268573 | Method and system for bonding 3D semiconductor devices - A method and system and for fabricating 3D (three-dimensional) SIC (stacked integrated chip) semiconductor devices. The system includes a vacuum chamber, a vacuum-environment treatment chamber, and a bonding chamber, though in some embodiments the same physical enclosure may serve more than one of these functions. A vacuum-environment treatment source in communication with the vacuum-environment treatment chamber provides a selected one or more of a hydrogen (H | 10-30-2008 |
| 20090191705 | Semiconductor Contact Barrier - System and method for reducing contact resistance and improving barrier properties is provided. An embodiment comprises a dielectric layer and contacts extending through the dielectric layer to connect to conductive regions. A contact barrier layer is formed between the conductive regions and the contacts by electroless plating the conductive regions after openings have been formed through the dielectric layer for the contact. The contact barrier layer is then treated to fill the grain boundary of the contact barrier layer, thereby improving the contact resistance. In another embodiment, the contact barrier layer is formed on the conductive regions by electroless plating prior to the formation of the dielectric layer. | 07-30-2009 |
| 20090273055 | Fuse Structure - An electrical fuse and a method of forming the same are presented. A first-layer conductive line is formed over a base material. A via is formed over the first-layer conductive line. The via preferably comprises a barrier layer and a conductive material. A second-layer conductive line is formed over the via. A first external pad is formed coupling to the first-layer conductive line. A second external pad is formed coupling to the second-layer conductive line. The via, the first conductive line and the second conductive line are adapted to be an electrical fuse. The electrical fuse can be burned out by applying a current. The vertical structure of the preferred embodiment is suitable to be formed in any layer. | 11-05-2009 |
| 20100159693 | Method of Forming Via Recess in Underlying Conductive Line - A method of fabricating a semiconductor device includes forming a via in a dielectric layer that opens to a conductive line underlying the dielectric layer, and forming a via recess in the conductive line at the via. The via recess in the conductive line has a depth ranging from about 100 angstroms to about 600 angstroms. Via-fill material fills the via recess and at least partially fills the via, such that the via-fill material is electrically connected to the conductive line. The via recess may have a same size or smaller cross-section area than that of the via, for example. Such via structure may be part of a dual damascene structure in an intermetal dielectric structure, for example. | 06-24-2010 |
| 20110084357 | Self Aligned Air-Gap in Interconnect Structures - An integrated circuit structure comprising an air gap and methods for forming the same are provided. The integrated circuit structure includes a conductive line; a self-aligned dielectric layer on a sidewall of the conductive line; an air-gap horizontally adjoining the self-aligned dielectric layer; a low-k dielectric layer horizontally adjoining the air-gap; and a dielectric layer on the air-gap and the low-k dielectric layer. | 04-14-2011 |
| 20110089560 | Non-Uniform Alignment of Wafer Bumps with Substrate Solders - An integrated circuit structure includes a work piece selected from the group consisting of a semiconductor chip and a package substrate. The work piece includes a plurality of under bump metallurgies (UBMs) distributed on a major surface of the work piece; and a plurality of metal bumps, with each of the plurality of metal bumps directly over, and electrically connected to, one of the plurality of UBMs. The plurality of UBMs and the plurality of metal bumps are allocated with an overlay offset, with at least some of the plurality of UBMs being misaligned with the respective overlying ones of the plurality of metal bumps. | 04-21-2011 |
| 20110101520 | Semiconductor Die Contact Structure and Method - A system and method for forming a semiconductor die contact structure is disclosed. An embodiment comprises a top level metal contact, such as copper, with a thickness large enough to act as a buffer for underlying low-k, extremely low-k, or ultra low-k dielectric layers. A contact pad or post-passivation interconnect may be formed over the top level metal contact, and a copper pillar or solder bump may be formed to be in electrical connection with the top level metal contact. | 05-05-2011 |
| 20110115077 | Method for Reducing Voids in a Copper-Tin Interface and Structure Formed Thereby - An embodiment is a method for forming a semiconductor assembly comprising cleaning a connector comprising copper formed on a substrate, applying cold tin to the connector, applying hot tin to the connector, and spin rinsing and drying the connector. | 05-19-2011 |
| 20110121410 | Semiconductor Contact Barrier - System and method for reducing contact resistance and improving barrier properties is provided. An embodiment comprises a dielectric layer and contacts extending through the dielectric layer to connect to conductive regions. A contact barrier layer is formed between the conductive regions and the contacts by electroless plating the conductive regions after openings have been formed through the dielectric layer for the contact. The contact barrier layer is then treated to fill the grain boundary of the contact barrier layer, thereby improving the contact resistance. In another embodiment, the contact barrier layer is formed on the conductive regions by electroless plating prior to the formation of the dielectric layer. | 05-26-2011 |
