| Patent application number | Description | Published |
|---|
| 20100102453 | Three-Dimensional Integrated Circuit Stacking-Joint Interface Structure - A system, a structure and a method of manufacturing stacked semiconductor substrates is presented. A first substrate includes a first side and a second side. A through substrate via (TSV) protrudes from the first side of the first substrate. A first protruding portion of the TSV has a conductive protective coating and a second protruding portion of the TSV has an isolation liner. The system further includes a second substrate and a joint interface structure that bonds the second substrate to the first substrate at the conductive protective coating of the first protruding portion of the TSV. | 04-29-2010 |
| 20100117201 | Cooling Channels in 3DIC Stacks - An integrated circuit structure includes a die including a semiconductor substrate; dielectric layers over the semiconductor substrate; an interconnect structure including metal lines and vias in the dielectric layers; a plurality of channels extending from inside the semiconductor substrate to inside the dielectric layers; and a dielectric film over the interconnect structure and sealing portions of the plurality of channels. The plurality of channels is configured to allow a fluid to flow through. | 05-13-2010 |
| 20100330788 | THIN WAFER HANDLING STRUCTURE AND METHOD - A thin wafer handling structure includes a semiconductor wafer, a release layer that can be released by applying energy, an adhesive layer that can be removed by a solvent, and a carrier, where the release layer is applied on the carrier by coating or laminating, the adhesive layer is applied on the semiconductor wafer by coating or laminating, and the semiconductor wafer and the carrier is bonded together with the release layer and the adhesive layer in between. The method includes applying a release layer on a carrier, applying an adhesive layer on a semiconductor wafer, bonding the carrier and the semiconductor wafer, releasing the carrier by applying energy on the release layer, e.g. UV or laser, and cleaning the semiconductor's surface by a solvent to remove any residue of the adhesive layer. | 12-30-2010 |
| 20100330798 | Formation of TSV Backside Interconnects by Modifying Carrier Wafers - An integrated circuit structure includes a semiconductor wafer, which includes a first notch extending from an edge of the semiconductor wafer into the semiconductor wafer. A carrier wafer is mounted onto the semiconductor wafer. The carrier wafer has a second notch overlapping at least a portion of the first notch. A side of the carrier wafer facing the semiconductor wafer forms a sharp angle with an edge of the carrier wafer. The carrier wafer has a resistivity lower than about 1×10 | 12-30-2010 |
| 20110049706 | Front Side Copper Post Joint Structure for Temporary Bond in TSV Application - An integrated circuit structure includes a semiconductor substrate; a conductive via (TSV) passing through the semiconductor substrate; and a copper-containing post overlying the semiconductor substrate and electrically connected to the conductive via. | 03-03-2011 |
| 20110068465 | STRONG INTERCONNECTION POST GEOMETRY - A flip-chip packaging assembly and integrated circuit device are disclosed. An exemplary flip-chip packaging assembly includes a first substrate; a second substrate; and joint structures disposed between the first substrate and the second substrate. Each joint structure comprises an interconnect post between the first substrate and the second substrate and a joint solder between the interconnect post and the second substrate, wherein the interconnect post exhibits a width and a first height. A pitch defines a distance between each joint structure. The first height is less than half the pitch. | 03-24-2011 |
| 20110101519 | Robust Joint Structure for Flip-Chip Bonding - An integrated circuit structure includes a first work piece and a second work piece. The first work piece includes a copper bump at a main surface of the first work piece and having a first dimension; and a nickel-containing barrier layer over and adjoining the copper bump. The second work piece is bonded to the first work piece and includes a bond pad at a main surface of the second work piece; and a solder mask at the main surface of the second work piece and having a solder resist opening with a second dimension exposing a portion of the bond pad. A ratio of the first dimension to the second dimension is greater than about 1. Further, a solder region electrically connects the copper bump to the bond pad, with a vertical distance between the bond pad and the copper bump being greater than about 30 μm. | 05-05-2011 |
| 20110101526 | Copper Bump Joint Structures with Improved Crack Resistance - An integrated circuit structure includes a first work piece and a second work piece. The first work piece includes a semiconductor substrate, and a copper bump over the semiconductor substrate. The second work piece includes a bond pad. A solder is between and adjoining the first work piece and the second work piece, wherein the solder electrically connects the copper bump to the bond pad. The solder includes palladium. | 05-05-2011 |
