Patent application number | Description | Published |
20090212434 | METHODS OF MANUFACTURING SEMICONDUCTOR DEVICES AND A SEMICONDUCTOR STRUCTURE - Processes for improving adhesion of films to semiconductor wafers and a semiconductor structure are provided. By implementing the processes of the invention, it is possible to significantly suppress defect creation, e.g., decrease particle generation, during wafer fabrication processes. More specifically, the processes described significantly reduce flaking of a TaN film from edges or extreme edges (bevel) of the wafer by effectively increasing the adhesion properties of the TaN film on the wafer. The method increasing a mol percent of nitride with respect to a total tantalum plus nitride to 25% or greater during a barrier layer fabrication process. | 08-27-2009 |
20090288869 | CURVILINEAR WIRING STRUCTURE TO REDUCE AREAS OF HIGH FIELD DENSITY IN AN INTEGRATED CIRCUIT - A method for reducing areas of high field density in an integrated circuit is disclosed. In one embodiment, the method includes forming a first curvilinear wiring structure in a first interconnect layer of an integrated circuit. A second curvilinear wiring structure may be formed in a second interconnect layer of the integrated circuit, such that the first and second curvilinear wiring structures are substantially vertically aligned. The first curvilinear wiring structure may then be electrically connected to the second curvilinear wiring structure. | 11-26-2009 |
20100032829 | STRUCTURES AND METHODS FOR IMPROVING SOLDER BUMP CONNECTIONS IN SEMICONDUCTOR DEVICES - Structures with improved solder bump connections and methods of fabricating such structures are provided herein. The structure includes a trench formed in a dielectric layer which has at least a portion thereof devoid of a fluorine boundary layer. The structure further includes a copper wire in the trench having at least a bottom portion thereof in contact with the non-fluoride boundary layer of the trench. A lead free solder bump is in electrical contact with the copper wire. | 02-11-2010 |
20100052172 | METHOD OF FABRICATING COPPER DAMASCENE AND DUAL DAMASCENE INTERCONNECT WIRING - An integrated circuit and a method of manufacturing the integrated circuit, the method including: (a) providing a substrate; (b) forming a copper diffusion barrier layer on the substrate; (c) forming a dielectric layer on a top surface of the copper diffusion barrier layer; (d) forming a copper damascene or dual damascene wire in the dielectric layer, a top surface of the copper damascene or dual damascene wire coplanar with a top surface of the dielectric layer; (e) forming a first capping layer on the top surface of the wire and the top surface of the dielectric layer; (f) after step (e) performing one or more characterization procedures in relation to said integrated circuit; and (g) after step (e) forming a second capping layer on a top surface of the first capping layer. | 03-04-2010 |
20100248479 | CMP METHOD - The instant invention is a method of polishing a substrate including contacting a substrate having at least one metal layer including copper with a chemical-mechanical polishing composition. The CMP composition includes an abrasive, a surfactant, an oxidizer, an organic acid including polyacrylic acid or polymethacrylic acid, a corrosion inhibitor, and a liquid carrier. A portion of the copper in the metal layer is abraded to polish the substrate. A second CMP composition contacts the abraded substrate, the second acrylate free composition including an abrasive, a surfactant, an oxidizer, and a corrosion inhibitor, and a liquid carrier. Any dendrites that may have formed on the substrate are removed through abrasion. | 09-30-2010 |
20100263998 | VERTICAL INTEGRATED CIRCUIT SWITCHES, DESIGN STRUCTURE AND METHODS OF FABRICATING SAME - Vertical integrated MEMS switches, design structures and methods of fabricating such vertical switches is provided herein. The method of manufacturing a MEMS switch, includes forming at least two vertically extending vias in a wafer and filling the at least two vertically extending vias with a metal to form at least two vertically extending wires. The method further includes opening a void in the wafer from a bottom side such that at least one of the vertically extending wires is moveable within the void. | 10-21-2010 |
20110049649 | INTEGRATED CIRCUIT SWITCHES, DESIGN STRUCTURE AND METHODS OF FABRICATING THE SAME - Integrated MEMS switches, design structures and methods of fabricating such switches are provided. The method includes forming at least one tab of sacrificial material on a side of a switching device which is embedded in the sacrificial material. The method further includes stripping the sacrificial material through at least one opening formed on the at least one tab which is on the side of the switching device, and sealing the at least one opening with a capping material. | 03-03-2011 |
20110127673 | WIRING STRUCTURE AND METHOD - Disclosed is an improved integrated circuit wiring structure configured to prevent migration of wiring metal ions (e.g., copper (Cu+) ions in the case of a copper interconnect scheme) onto the surface of an interlayer dielectric material at an interface between the interlayer dielectric material and an insulating cap layer. Specifically, the top surfaces of wires and the top surface of a dielectric layer within which the wires sit are not co-planar. Thus, the interfaces between the wires and an insulating cap layer and between the dielectric layer and the same insulating cap layer are also not co-planar. Such a configuration physically prevents migration of wiring metal ions from the top surface of the wires onto the top surface of the dielectric layer at the interface between the dielectric layer and cap layer and, thereby prevents time dependent dielectric breakdown (TDDB) and eventual device failure. Also disclosed herein are embodiments of a method of a forming such an integrated circuit wiring structure. | 06-02-2011 |
20120025331 | HORIZONTAL COPLANAR SWITCHES AND METHODS OF MANUFACTURE - A MEMS structure and methods of manufacture. The method includes forming a sacrificial metal layer at a same level as a wiring layer, in a first dielectric material. The method further includes forming a metal switch at a same level as another wiring layer, in a second dielectric material. The method further includes providing at least one vent to expose the sacrificial metal layer. The method further includes removing the sacrificial metal layer to form a planar cavity, suspending the metal switch. The method further includes capping the at least one vent to hermetically seal the planar cavity. | 02-02-2012 |
20120064718 | METHOD OF FABRICATING COPPER DAMASCENE AND DUAL DAMASCENE INTERCONNECT WIRING - An integrated circuit and a method of manufacturing the integrated circuit, the method including: (a) providing a substrate; (b) forming a copper diffusion barrier layer on the substrate; (c) forming a dielectric layer on a top surface of the copper diffusion barrier layer; (d) forming a copper damascene or dual damascene wire in the dielectric layer, a top surface of the copper damascene or dual damascene wire coplanar with a top surface of the dielectric layer; (e) forming a first capping layer on the top surface of the wire and the top surface of the dielectric layer; (f) after step (e) performing one or more characterization procedures in relation to said integrated circuit; and (g) after step (e) forming a second capping layer on a top surface of the first capping layer. | 03-15-2012 |
20120129336 | STRUCTURES AND METHODS FOR IMPROVING SOLDER BUMP CONNECTIONS IN SEMICONDUCTOR DEVICES - Structures with improved solder bump connections and methods of fabricating such structures are provided herein. The structure includes a trench formed in a dielectric layer which has at least a portion thereof devoid of a fluorine boundary layer. The structure further includes a copper wire in the trench having at least a bottom portion thereof in contact with the non-fluoride boundary layer of the trench. A lead free solder bump is in electrical contact with the copper wire. | 05-24-2012 |
20120146179 | ELECTRICAL FUSE WITH A CURRENT SHUNT - Electrical fuses and methods for forming an electrical fuse. The electrical fuse includes a current shunt formed by patterning a first layer comprised of a first conductive material and disposed on a top surface of a dielectric layer. A layer stack is formed on the current shunt and the top surface of the dielectric layer surrounding the current shunt. The layer stack includes a second layer comprised of a second conductive material and a third layer comprised of a third conductive material. The layer stack may be patterned to define a fuse link as a first portion of the layer stack directly contacting the top surface of the dielectric layer and a terminal as a second portion separated from the top surface of the dielectric layer by the current shunt. | 06-14-2012 |
20120261813 | REINFORCED VIA FARM INTERCONNECT STRUCTURE, A METHOD OF FORMING A REINFORCED VIA FARM INTERCONNECT STRUCTURE AND A METHOD OF REDESIGNING AN INTEGRATED CIRCUIT CHIP TO INCLUDE SUCH A REINFORCED VIA FARM INTERCONNECT STRUCTURE - Disclosed is reinforced via farm interconnect structure for an integrated circuit chip that minimizes delamination caused by tensile stresses applied to the chip through lead-free C4 connections during thermal cycling. The reinforced via farm interconnect structure includes a plurality of vias electrically connecting metal wires within different wiring levels and, for reinforcement, further incorporates dielectric columns into the lower metal wire so that the areas around the metal-to-metal interface between the vias and the lower metal wire contain a relatively strong dielectric-to-dielectric interface. The reinforced via farm interconnect structure can be located in an area of the chip at risk for delamination and, for added strength, can have a reduced via density relative to conventional via farm interconnect structures located elsewhere on the chip. Also disclosed are a method of forming the reinforced via farm interconnect structure and a method of redesigning an integrated circuit chip to include reinforced via farm interconnect structure(s). | 10-18-2012 |
20120319237 | CORNER-ROUNDED STRUCTURES AND METHODS OF MANUFACTURE - Corner-rounded structures and methods of manufacture are provided. The method includes forming at least two conductive wires with rounded corners on a substrate. The method further includes forming a insulator film on the substrate and between the at least two conductive wires with the rounded corners. | 12-20-2012 |
20130075913 | STRUCTURE AND METHOD FOR REDUCING VERTICAL CRACK PROPAGATION - A semiconductor device and a method of fabricating the same, includes vertically stacked layers on an insulator. Each of the layers includes a first dielectric insulator portion, a first metal conductor embedded within the first dielectric insulator portion, a first nitride cap covering the first metal conductor, a second dielectric insulator portion, a second metal conductor embedded within the second dielectric insulator portion, and a second nitride cap covering the second metal conductor. The first and second metal conductors form first vertically stacked conductor layers and second vertically stacked conductor layers. The first vertically stacked conductor layers are proximate the second vertically stacked conductor layers, and at least one air gap is positioned between the first vertically stacked conductor layers and the second vertically stacked conductor layers. An upper semiconductor layer covers the first vertically stacked conductor layers, the air gap and the second plurality of vertically stacked conductor layers. | 03-28-2013 |
20130133919 | TOP CORNER ROUNDING OF DAMASCENE WIRE FOR INSULATOR CRACK SUPPRESSION - A structure and method for fabricating the structure that provides a metal wire having a first height at an upper surface. An insulating material surrounding said metal wire is etched to a second height below said first height of said upper surface. The metal wire from said upper surface, after etching said insulating material, is planarized to remove sufficient material from a lateral edge portion of said metal wire such that a height of said lateral edge portion is equivalent to said second height of said insulating material surrounding said metal wire. | 05-30-2013 |
20130147067 | LOCALLY TAILORING CHEMICAL MECHANICAL POLISHING (CMP) POLISH RATE FOR DIELECTRICS - A method of manufacturing a semiconductor structure includes varying local chemical mechanical polishing (CMP) abrading rates of an insulator film by selectively varying a carbon content of the insulator film. | 06-13-2013 |
20130153378 | HORIZONTAL COPLANAR SWITCHES AND METHODS OF MANUFACTURE - A MEMS structure and methods of manufacture. The method includes forming a sacrificial metal layer at a same level as a wiring layer, in a first dielectric material. The method further includes forming a metal switch at a same level as another wiring layer, in a second dielectric material. The method further includes providing at least one vent to expose the sacrificial metal layer. The method further includes removing the sacrificial metal layer to form a planar cavity, suspending the metal switch. The method further includes capping the at least one vent to hermetically seal the planar cavity. | 06-20-2013 |
20130171817 | STRUCTURE AND METHOD FOR REDUCING VERTICAL CRACK PROPAGATION - A semiconductor device and a method of fabricating the same, includes vertically stacked layers on an insulator. Each of the layers includes a first dielectric insulator portion, a first metal conductor embedded within the first dielectric insulator portion, a first nitride cap covering the first metal conductor, a second dielectric insulator portion, a second metal conductor embedded within the second dielectric insulator portion, and a second nitride cap covering the second metal conductor. The first and second metal conductors form first vertically stacked conductor layers and second vertically stacked conductor layers. The first vertically stacked conductor layers are proximate the second vertically stacked conductor layers, and at least one air gap is positioned between the first vertically stacked conductor layers and the second vertically stacked conductor layers. An upper semiconductor layer covers the first vertically stacked conductor layers, the air gap and the second plurality of vertically stacked conductor layers. | 07-04-2013 |
20130320488 | SYSTEM AND METHOD FOR FORMING ALUMINUM FUSE FOR COMPATIBILITY WITH COPPER BEOL INTERCONNECT SCHEME - A semiconductor fuse device and a method of fabricating the fuse device including a last metal interconnect layer including at least two discrete metal conductors, an inter-level dielectric layer deposited over the last metal interconnect layer and the at least two discrete metal conductors, a thin wire aluminum fuse connecting the at least two discrete metal conductors, and a fuse opening above the aluminum fuse. | 12-05-2013 |
20140014480 | Vertical Integrated Circuit Switches, Design Structure and Methods of Fabricating Same - Vertical integrated MEMS switches, design structures and methods of fabricating such vertical switches is provided herein. The method of manufacturing a MEMS switch, includes forming at least two vertically extending vias in a wafer and filling the at least two vertically extending vias with a metal to form at least two vertically extending wires. The method further includes opening a void in the wafer from a bottom side such that at least one of the vertically extending wires is moveable within the void. | 01-16-2014 |
20140017844 | INTEGRATED CIRCUIT SWITCHES, DESIGN STRUCTURE AND METHODS OF FABRICATING THE SAME - Integrated MEMS switches, design structures and methods of fabricating such switches are provided. The method includes forming at least one tab of sacrificial material on a side of a switching device which is embedded in the sacrificial material. The method further includes stripping the sacrificial material through at least one opening formed on the at least one tab which is on the side of the switching device, and sealing the at least one opening with a capping material. | 01-16-2014 |
20140035169 | TOP CORNER ROUNDING OF DAMASCENE WIRE FOR INSULATOR CRACK SUPPRESSION - A structure and method for fabricating the structure that provides a metal wire having a first height at an upper surface. An insulating material surrounding said metal wire is etched to a second height below said first height of said upper surface. The metal wire from said upper surface, after etching said insulating material, is planarized to remove sufficient material from a lateral edge portion of said metal wire such that a height of said lateral edge portion is equivalent to said second height of said insulating material surrounding said metal wire. | 02-06-2014 |
20140106559 | SYSTEM AND METHOD FOR FORMING AN ALUMINUM FUSE FOR COMPATIBILITY WITH COPPER BEOL INTERCONNECT SCHEME - A semiconductor fuse device and a method of fabricating the fuse device including a last metal interconnect layer including at least two discrete metal conductors, an inter-level dielectric layer deposited over the last metal interconnect layer and the at least two discrete metal conductors, a thin wire aluminum fuse connecting the at least two discrete metal conductors, and a fuse opening above the aluminum fuse. | 04-17-2014 |