Patent application number | Description | Published |
20100117226 | STRUCTURE AND METHOD FOR STACKED WAFER FABRICATION - A method for fabricating stacked wafers is provided. In one embodiment, the method comprises providing a wafer having a chip side and a non-chip side, the chip side comprising a plurality of semiconductor chips. A plurality of dies is provided, each of the die bonded to one of the plurality of semiconductor chips. The chip side of the wafer and the plurality of dies are encapsulated with a protecting material. The non-chip side of the wafer is thinned to an intended thickness. The wafer is then diced to separate the wafer into individual semiconductor packages. | 05-13-2010 |
20100140767 | Component Stacking Using Pre-Formed Adhesive Films - A method of forming integrated circuits includes laminating a patterned film including an opening onto a wafer, wherein a bottom die in the wafer is exposed through the opening. A top die is placed into the opening. The top die fits into the opening with substantially no gap between the patterned film and the top die. The top die is then bonded onto the bottom die, followed by curing the patterned film. | 06-10-2010 |
20100171203 | Robust TSV structure - A die includes a seal-ring structure below a substrate. The seal-ring structure is disposed around at least one substrate region. At least one means for substantially preventing ion diffusion into the substrate region. The at least one means is coupled with the seal-ring structure. | 07-08-2010 |
20100330743 | Three-Dimensional Integrated Circuits with Protection Layers - A semiconductor structure includes a first die comprising a first substrate and a first bonding pad over the first substrate, a second die having a first surface and a second surface opposite the first surface, wherein the second die is stacked on the first die and a protection layer having a vertical portion on a sidewall of the second die, and a horizontal portion extending over the first die. | 12-30-2010 |
20110006428 | Liner Formation in 3DIC Structures - An integrated circuit structure includes a semiconductor substrate; a through-semiconductor via (TSV) opening extending into the semiconductor substrate; and a TSV liner in the TSV opening. The TSV liner includes a sidewall portion on a sidewall of the TSV opening and a bottom portion at a bottom of the TSV opening. The bottom portion of the TSV liner has a bottom height greater than a middle thickness of the sidewall portion of the TSV liner. | 01-13-2011 |
20110186967 | Component Stacking Using Pre-Formed Adhesive Films - A method of forming integrated circuits includes laminating a patterned film including an opening onto a wafer, wherein a bottom die in the wafer is exposed through the opening. A top die is placed into the opening. The top die fits into the opening with substantially no gap between the patterned film and the top die. The top die is then bonded onto the bottom die, followed by curing the patterned film. | 08-04-2011 |
20120032348 | THREE-DIMENSIONAL INTEGRATED CIRCUITS WITH PROTECTION LAYERS - A semiconductor structure includes a first die comprising a first substrate and a first bonding pad over the first substrate, a second die having a first surface and a second surface opposite the first surface, wherein the second die is stacked on the first die and a protection layer having a vertical portion on a sidewall of the second die, and a horizontal portion extending over the first die. | 02-09-2012 |
20120104578 | Approach for Bonding Dies onto Interposers - A method includes providing an interposer wafer including a substrate, and a plurality of through-substrate vias (TSVs) extending from a front surface of the substrate into the substrate. A plurality of dies is bonded onto a front surface of the interposer wafer. After the step of bonding the plurality of dies, a grinding is performed on a backside of the substrate to expose the plurality of TSVs. A plurality of metal bumps is formed on a backside of the interposer wafer and electrically coupled to the plurality of TSVs. | 05-03-2012 |
20120187576 | Three-Dimensional Integrated Circuits with Protection Layers - A semiconductor structure includes a first die comprising a first substrate and a first bonding pad over the first substrate, a second die having a first surface and a second surface opposite the first surface, wherein the second die is stacked on the first die and a protection layer having a vertical portion on a sidewall of the second die, and a horizontal portion extending over the first die. | 07-26-2012 |
20120238057 | Approach for Bonding Dies onto Interposers - A method includes providing an interposer wafer including a substrate, and a plurality of through-substrate vias (TSVs) extending from a front surface of the substrate into the substrate. A plurality of dies is bonded onto a front surface of the interposer wafer. After the step of bonding the plurality of dies, a grinding is performed on a backside of the substrate to expose the plurality of TSVs. A plurality of metal bumps is formed on a backside of the interposer wafer and electrically coupled to the plurality of TSVs. | 09-20-2012 |
20120289062 | Liner Formation in 3DIC Structures - An integrated circuit structure includes a semiconductor substrate; a through-semiconductor via (TSV) opening extending into the semiconductor substrate; and a TSV liner in the TSV opening. The TSV liner includes a sidewall portion on a sidewall of the TSV opening and a bottom portion at a bottom of the TSV opening. The bottom portion of the TSV liner has a bottom height greater than a middle thickness of the sidewall portion of the TSV liner. | 11-15-2012 |
20130133688 | WAFER DEBONDING AND CLEANING APPARATUS AND METHOD OF USE - This description relates to a wafer debonding and cleaning apparatus including an automatic wafer handling module. The automatic wafer handling module loads a semiconductor wafer into a wafer debonding module for a debonding process. The automatic wafer handling module removes the semiconductor wafer from the debonding module and loads the semiconductor wafer into a wafer cleaning module for a cleaning process. | 05-30-2013 |
20140130962 | THIN WAFER HANDLING METHOD - A method includes receiving a carrier with a release layer formed thereon. A first adhesive layer is formed on a wafer. A second adhesive layer is formed over the first adhesive layer or over the release layer. The carrier and the wafer are bonded with the release layer, the first adhesive layer, and the second adhesive layer in between the carrier and the wafer. | 05-15-2014 |
20140261997 | Selective Curing Method of Adhesive on Substrate - Embodiments of the present disclosure include methods of forming a semiconductor device. An embodiment is a method for forming a semiconductor device, the method including applying a substrate to a carrier with an adhesive layer between the carrier and the substrate, curing a portion of the adhesive layer, the cured portion surrounding an uncured portion of the adhesive layer, removing the carrier from adhesive layer, removing the uncured portion of the adhesive layer, and removing the cured portion of the adhesive layer. | 09-18-2014 |
20140374031 | WAFER DEBONDING AND CLEANING APPARATUS AND METHOD - A wafer debonding and cleaning apparatus comprises a wafer debonding module configured to separate a semiconductor wafer from a carrier wafer. The wafer debonding and cleaning apparatus also comprises a first wafer cleaning module configured perform a first cleaning process to clean a surface of the semiconductor wafer. The wafer debonding and cleaning apparatus further comprises an automatic wafer handling module configured to transfer the semiconductor wafer from one of the wafer debonding module or the first wafer cleaning module to the other of the wafer debonding module or the first wafer cleaning module. The semiconductor wafer has a thickness ranging from about 0.20 μm to about 3 mm. | 12-25-2014 |