Patent application number | Description | Published |
20080283959 | Tapered through-silicon via structure - An integrated circuit structure includes a substrate; a through-silicon via (TSV) in the substrate, the TSV being tapered; a hard mask region extending from a top surface of the substrate into the substrate, wherein the hard mask encircles a top portion of the TSV; dielectric layers over the substrate; and a metal post extending from a top surface of the dielectric layers to the TSV, wherein the metal post comprises same materials as the TSV. | 11-20-2008 |
20080296763 | Multi-Die Wafer Level Packaging - A semiconductor die package is provided. The semiconductor die package includes a plurality of dies arranged in a stacked configuration. Through-silicon vias are formed in the lower or intermediate dies to allow electrical connections to dies stacked above. The lower die is positioned face up and has redistribution lines electrically coupling underlying semiconductor components to the through-silicon vias. The dies stacked above the lower die may be oriented face up such that the contact pads are facing away from the lower die or flipped such that the contact pads are facing the lower die. The stacked dies may be electrically coupled to the redistribution lines via wire bonding or solder balls. Additionally, the lower die may have another set of redistribution lines on an opposing side from the stacked dies to reroute the vias to a different pin-out configuration. | 12-04-2008 |
20090051039 | THROUGH-SUBSTRATE VIA FOR SEMICONDUCTOR DEVICE - A semiconductor device including a substrate having a front surface and a back surface is provided. A plurality of interconnect layers are formed on the front surface and have a first surface opposite the front surface of the substrate. A tapered profile via extends from the first surface of the plurality of interconnect layers to the back surface of the substrate. In one embodiment, a insulating layer is formed on the substrate and includes an opening, and wherein the opening includes conductive material providing contact to the tapered profile via. | 02-26-2009 |
20090057823 | Semiconductor Structure with a Discontinuous Material Density for Reducing Eddy Currents - A semiconductor structure includes an inductor; and a semiconductor substrate underlying the inductor, having a discontinuous material density across a plane underneath and in parallel with the inductor, thereby reducing eddy currents induced by an electrical current flowing through the inductor. | 03-05-2009 |
20090155957 | Multi-Die Wafer Level Packaging - A semiconductor die package is provided. The semiconductor die package includes a plurality of dies arranged in a stacked configuration. Through-silicon vias are formed in the lower or intermediate dies to allow electrical connections to dies stacked above. The lower die is positioned face up and has redistribution lines electrically coupling underlying semiconductor components to the through-silicon vias. The dies stacked above the lower die may be oriented face up such that the contact pads are facing away from the lower die or flipped such that the contact pads are facing the lower die. The stacked dies may be electrically coupled to the redistribution lines via wire bonding or solder balls. Additionally, the lower die may have another set of redistribution lines on an opposing side from the stacked dies to reroute the vias to a different pin-out configuration. | 06-18-2009 |
20090160058 | Structure and process for the formation of TSVs - An integrated circuit structure includes a semiconductor substrate; an interconnect structure over the semiconductor substrate, wherein the interconnect structure comprises a top inter-metal dielectric (IMD); an opening penetrating the interconnect structure into the semiconductor substrate; a conductor in the opening; and an isolation layer having a vertical portion and a horizontal portion physically connected to each other. The vertical portion is on sidewalls of the opening. The horizontal portion is directly over the interconnect structure. The integrated circuit structure is free from passivation layers vertically between the top IMD and the horizontal portion of the isolation layer. | 06-25-2009 |
20090188104 | Method of Manufacturing a Coil Inductor - A method of manufacturing a coil inductor and a coil inductor are provided are provided. A plurality of conductive bottom structures are formed to be lying on a first dielectric layer. A plurality pairs of conductive side structures are then formed, wherein each pair of the conductive side structure stand on top surface of a first end and a second end of each conductive bottom structure respectively; a second dielectric layer is formed on the first dielectric layer, coating the bottom and side structures; and a plurality of conductive top structures are formed to be lying on the second dielectric layer, wherein each conductive top structure electrically connects each pair of the conductive side structures, wherein the conductive bottom structures, the conductive side structures and the conductive top structures together form a conductive coil structure. | 07-30-2009 |
20090269905 | Tapered Through-Silicon Via Structure - An integrated circuit structure includes a substrate; a through-silicon via (TSV) in the substrate, the TSV being tapered; a hard mask region extending from a top surface of the substrate into the substrate, wherein the hard mask encircles a top portion of the TSV; dielectric layers over the substrate; and a metal post extending from a top surface of the dielectric layers to the TSV, wherein the metal post comprises same materials as the TSV. | 10-29-2009 |
20100008620 | Optical Clock Signal Distribution Using Through-Silicon Vias - An integrated circuit structure includes a semiconductor chip including a front surface and a back surface; a via extending from the back surface of the semiconductor chip into the semiconductor chip, wherein the via is light transparent; and a photon detector in the semiconductor chip and exposed to the via. | 01-14-2010 |
20100047963 | Through Silicon Via Bonding Structure - System and method for bonding semiconductor substrates is presented. A preferred embodiment comprises forming a buffer layer over a surface of a semiconductor substrate while retaining TSVs that protrude from the buffer layer in order to prevent potential voids that might form. A protective layer is formed on another semiconductor substrate that will be bonded to the first semiconductor substrate. The two substrates are aligned and bonded together, with the buffer layer preventing any short circuit contacts to the surface of the original semiconductor substrate. | 02-25-2010 |
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 |
20100187684 | System and Method for 3D Integrated Circuit Stacking - A method and system of stacking and aligning a plurality of integrated circuits. The method includes the steps of providing a first integrated circuit having at least one funnel-shaped socket, providing a second integrated circuit, aligning at least one protrusion on the second integrated circuit with the at least one funnel-shaped socket, and bonding the first integrated circuit to the second integrated circuit. The system includes a first integrated circuit having at least one funnel-shaped socket, a metallization-diffusion barrier disposed on the interior of the funnel-shaped socket, and a second integrated circuit. The at least one funnel-shaped socket is adapted to receive a portion of the second integrated circuit. | 07-29-2010 |
20100279463 | METHOD OF FORMING STACKED-DIE PACKAGES - A method of forming a stacked die structure is disclosed. A plurality of dies are respectively bonded to a plurality of semiconductor chips on a first surface of a wafer. An encapsulation structure is formed over the plurality of dies and the first surface of the wafer. The encapsulation structure covers a central portion of the first surface of the wafer and leaves an edge portion of the wafer exposed. A protective material is formed over the first surface of the edge portion of the wafer. | 11-04-2010 |
20110034027 | Structure and Process for the Formation of TSVs - An integrated circuit structure includes a semiconductor substrate; an interconnect structure over the semiconductor substrate, wherein the interconnect structure comprises a top inter-metal dielectric (IMD); an opening penetrating the interconnect structure into the semiconductor substrate; a conductor in the opening; and an isolation layer having a vertical portion and a horizontal portion physically connected to each other. The vertical portion is on sidewalls of the opening. The horizontal portion is directly over the interconnect structure. The integrated circuit structure is free from passivation layers vertically between the top IMD and the horizontal portion of the isolation layer. | 02-10-2011 |
20110263120 | THROUGH-SUBSTRATE VIA FOR SEMICONDUCTOR DEVICE - A method of fabricating a semiconductor device including providing a substrate having a front surface and a back surface. A masking element is formed on the front surface of the substrate. The masking element includes a first layer having a first opening and a second layer having a second opening of a greater width than the first opening. The second opening is a tapered opening. The method further includes etching a tapered profile via extending from the front surface to the back surface of the substrate using the formed masking element. | 10-27-2011 |
20110299809 | Optical Clock Signal Distribution Using Through-Silicon Vias - An integrated circuit structure includes a semiconductor chip including a front surface and a back surface; a via extending from the back surface of the semiconductor chip into the semiconductor chip, wherein the via is light transparent; and a photon detector in the semiconductor chip and exposed to the via. | 12-08-2011 |
20120001334 | Structure and Process for the Formation of TSVs - An integrated circuit structure includes a semiconductor substrate; an interconnect structure over the semiconductor substrate, wherein the interconnect structure comprises a top inter-metal dielectric (IMD); an opening penetrating the interconnect structure into the semiconductor substrate; a conductor in the opening; and an isolation layer having a vertical portion and a horizontal portion physically connected to each other. The vertical portion is on sidewalls of the opening. The horizontal portion is directly over the interconnect structure. The integrated circuit structure is free from passivation layers vertically between the top IMD and the horizontal portion of the isolation layer. | 01-05-2012 |
20130062766 | System and Method for 3D Integrated Circuit Stacking - A method and system of stacking and aligning a plurality of integrated circuits. The method includes the steps of providing a first integrated circuit having at least one funnel-shaped socket, providing a second integrated circuit, aligning at least one protrusion on the second integrated circuit with the at least one funnel-shaped socket, and bonding the first integrated circuit to the second integrated circuit. The system includes a first integrated circuit having at least one funnel-shaped socket, a metallization-diffusion barrier disposed on the interior of the funnel-shaped socket, and a second integrated circuit. The at least one funnel-shaped socket is adapted to receive a portion of the second integrated circuit. | 03-14-2013 |
20140103540 | 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. | 04-17-2014 |