Patent application number | Description | Published |
20080220280 | DEFECT-FREE HYBRID ORIENTATION TECHNOLOGY FOR SEMICONDUCTOR DEVICES - A semiconductor device includes a semiconductor material having two crystal orientations. The semiconductor material forms an active area of the device. A device channel is formed on the two crystal orientations, which include a first region formed in a first crystal orientation surface of the semiconductor material, and a second region formed in a second crystal orientation surface of the semiconductor material wherein the first crystal orientation surface forms an angle with the second crystal orientation surface and the device channel covers at least an intersection of the angle. | 09-11-2008 |
20080220608 | MODIFIED VIA BOTTOM STRUCTURE FOR RELIABILITY ENHANCEMENT - The present invention provides an interconnect structure that can be made in the BEOL which exhibits good mechanical contact during normal chip operations and does not fail during various reliability tests as compared with the conventional interconnect structures described above. The inventive interconnect structure has a kinked interface at the bottom of a via that is located within an interlayer dielectric layer. Specifically, the inventive interconnect structure includes a first dielectric layer having at least one metallic interconnect embedded within a surface thereof; a second dielectric layer located atop the first dielectric layer, wherein said second dielectric layer has at least one aperture having an upper line region and a lower via region, wherein the lower via region includes a kinked interface; at least one pair of liners located on at least vertical walls of the at least one aperture; and a conductive material filling the at least one aperture. | 09-11-2008 |
20080224261 | Fuse/anti-fuse structure and methods of making and programming same - Techniques are provided for fuse/anti-fuse structures, including an inner conductor structure, an insulating layer spaced outwardly of the inner conductor structure, an outer conductor structure disposed outwardly of the insulating layer, and a cavity-defining structure that defines a cavity, with at least a portion of the cavity-defining structure being formed from at least one of the inner conductor structure, the insulating layer, and the outer conductor stricture Methods of making and programming the fuse/anti-fuse structures are also provided. | 09-18-2008 |
20080283964 | ADOPTING FEATURE OF BURIED ELECTRICALLY CONDUCTIVE LAYER IN DIELECTRICS FOR ELECTRICAL ANTI-FUSE APPLICATION - An anti-fuse structure that included a buried electrically conductive, e.g., metallic layer as an anti-fuse material as well as a method of forming such an anti-fuse structure are provided. According to the present invention, the inventive anti-fuse structure comprises regions of leaky dielectric between interconnects. The resistance between these original interconnects starts decreasing when two adjacent interconnects are biased and causes a time-dependent dielectric breakdown, TDDB, phenomenon to occur. Decreasing of the resistance between adjacent interconnects can also be expedited via increasing the local temperature. | 11-20-2008 |
20080289651 | METHOD AND APPARATUS FOR WAFER EDGE CLEANING - A wafer edge cleaning system that includes a wafer dry etching chamber and one or more irradiation sources preferably positioned inside the wafer dry etching chamber. The irradiation source such as laser generates a beam aimed at the periphery of the wafer to melt any defects, in particular, black silicon at the edge of the wafer. Preferably, the wafer is mounted on a rotating platform. The invention further provides a method for removing black silicon at the edge of a semiconductor wafer that includes the steps of: patterning the wafer with a trench mask layer; etching the wafer to form a trench thereon; exposing the edge of the wafer to a laser beam to melt the black silicon thereon; stripping the mask and cleaning the wafer. | 11-27-2008 |
20080290518 | DIELECTRIC INTERCONNECT STRUCTURES AND METHODS FOR FORMING THE SAME - Dielectric interconnect structures and methods for forming the same are provided. Specifically, the present invention provides a dielectric interconnect structure having a noble metal layer (e.g., Ru, Ir, Rh, Pt, RuTa, and alloys of Ru, Ir, Rh, Pt, and RuTa) that is formed directly on a modified dielectric surface. In a typical embodiment, the modified dielectric surface is created by treating an exposed dielectric layer of the interconnect structure with a gaseous ion plasma (e.g., Ar, He, Ne, Xe, N | 11-27-2008 |
20080318415 | INTERCONNECT STRUCTURES WITH ENCASING CAP AND METHODS OF MAKING THEREOF - A method of making an interconnect comprising: providing an interconnect structure in a dielectric material, recessing the dielectric material such that a portion of the interconnect structure extends above an upper surface of the dielectric; and depositing an encasing cap over the extended portion of the interconnect structure. | 12-25-2008 |
20090008791 | Circuit Structure with Low Dielectric Constant Regions - A method for manufacturing a circuit includes the step of providing a first wiring level comprising first wiring level conductors separated by a first wiring level dielectric material. A first dielectric layer with a plurality of interconnect openings and a plurality of gap openings is formed above the first wiring level. The interconnect openings and the gap openings are pinched off with a pinching dielectric material to form relatively low dielectric constant (low-k) volumes in the gap openings. Metallic conductors comprising second wiring level conductors and interconnects to the first wiring level conductors are formed at the interconnect openings while maintaining the relatively low-k volumes in the gap openings. The gap openings with the relatively low-k volumes reduce parasitic capacitance between adjacent conductor structures formed by the conductors and interconnects. | 01-08-2009 |
20090023286 | DIELECTRIC INTERCONNECT STRUCTURES AND METHODS FOR FORMING THE SAME - Dielectric interconnect structures and methods for forming the same are provided. Specifically, the present invention provides a dielectric interconnect structure having a noble metal layer (e.g., Ru, Ir, Rh, Pt, RuTa, and alloys of Ru, Ir, Rh, Pt, and RuTa) that is formed directly on a modified dielectric surface. In a typical embodiment, the modified dielectric surface is created by treating an exposed dielectric layer of the interconnect structure with a gaseous ion plasma (e.g., Ar, He, Ne, Xe, N | 01-22-2009 |
20090072290 | SOI CMOS COMPATIBLE MULTIPLANAR CAPACITOR - An isolated shallow trench isolation portion is formed in a top semiconductor portion of a semiconductor-on-insulator substrate along with a shallow trench isolation structure. A trench in the shape of a ring is formed around a doped top semiconductor portion and filled with a conductive material such as doped polysilicon. The isolated shallow trench isolation portion and the portion of a buried insulator layer bounded by a ring of the conductive material are etched to form a cavity. A capacitor dielectric is formed on exposed semiconductor surfaces within the cavity and above the doped top semiconductor portion. A conductive material portion formed in the trench and above the doped top semiconductor portion constitutes an inner electrode of a capacitor, while the ring of the conductive material, the doped top semiconductor portion, and a portion of a handle substrate abutting the capacitor dielectric constitute a second electrode. | 03-19-2009 |
20090072410 | MICROELECTRONIC CIRCUIT STRUCTURE WITH LAYERED LOW DIELECTRIC CONSTANT REGIONS - The circuit structure includes at least two generally parallel conductor structures, and a plurality of substantially horizontal layers of layer dielectric material interspersed with substantially horizontally extending relatively low dielectric constant (low-k) volumes. The substantially horizontal layers and the substantially horizontally extending volumes are generally interposed between the at least two generally parallel conductor structures. Also included are a plurality of substantially vertically extending relatively low-k volumes sealed within the substantially horizontal layers and the substantially horizontally extending volumes between the at least two generally parallel conductor structures. The substantially vertically extending relatively low-k volumes and the substantially horizontally extending relatively low-k volumes reduce parasitic capacitance between the at least two generally parallel conductor structures as compared to an otherwise comparable microelectronic circuit not including the relatively low-k volumes. | 03-19-2009 |
20090109722 | REPROGRAMMABLE ELECTRICAL FUSE - The present invention provides a reprogrammable electrically blowable fuse and associated design structure. The electrically blowable fuse is programmed using an electro-migration effect and is reprogrammed using a reverse electro-migration effect. The state (i.e., “opened” or “closed”) of the electrically blowable fuse is determined by a sensing system which compares a resistance of the electrically blowable fuse to a reference resistance. | 04-30-2009 |
20090172614 | AVOIDING DEVICE STRESSING - A system for protecting a weak device operating in micro-electronic circuit and a design structure including the system embodied in a machine readable medium are disclosed. The system includes a high voltage power supply from high voltage overstressing prevents the weak device from failing during power-up, power-down, and when a low voltage power supply in a multiple power supply system is absent. The system further includes a low voltage power supply detection circuit configured to detect circuit power-up, circuit power-down, and when the low voltage power supply is absent, and generate a control signal upon detection. The system further includes a controlled current mirror device configured to provide a trickle current to maintain a conduction channel in the weak device in response to the control signal received from the low voltage power supply detection circuit during circuit power-up, circuit power-down, and when the low voltage power supply is absent. | 07-02-2009 |
20090174075 | SIMULTANEOUS GRAIN MODULATION FOR BEOL APPLICATIONS - The invention is directed to an improved semiconductor structure, such that within the same insulating layer, Cu interconnects embedded within the same insulating level layer have a different Cu grain size than other Cu interconnects embedded within the same insulating level layer. | 07-09-2009 |
20090175068 | SRAM DEVICE, AND SRAM DEVICE DESIGN STRUCTURE, WITH ADAPTABLE ACCESS TRANSISTORS - An SRAM device comprising a pair of MCSFETs connected as access transistors (pass gates). An SRAM device design structure embodied or stored in a machine readable medium includes two MCSFETs connected as access transistors. | 07-09-2009 |
20090184264 | LASER ANNEALING FOR 3-D CHIP INTEGRATION - A laser annealing method for annealing a stacked semiconductor structure having at least two stacked layers is disclosed. A laser beam is focused on a lower layer of the stacked layers. The laser beam is then scanned to anneal features in the lower layer. The laser beam is then focused on an upper layer of the stacked layers, and the laser beam is scanned to anneal features in the upper layer. The laser has a wavelength of less than one micrometer. The beam size, depth of focus, energy dosage, and scan speed of the laser beam are programmable. Features in the lower layer are offset from features in the upper layer such that these features do not overlap along a plane parallel to a path of the laser beam. Each of the stacked layers includes active devices, such as transistors. Also, the first and second layers may be annealed simultaneously. | 07-23-2009 |
20090200598 | FLASH MEMORY STRUCTURE WITH ENHANCED CAPACITIVE COUPLING COEFFICIENT RATIO (CCCR) AND METHOD FOR FABRICATION THEREOF - A flash memory structure having an enhanced capacitive coupling coefficient ratio (CCCR) may be fabricated in a self-aligned manner while using a semiconductor substrate that has an active region that is recessed within an aperture with respect to an isolation region that surrounds the active region. The flash memory structure includes a floating gate that does not rise above the isolation region, and that preferably consists of a single layer that has a U shape. The U shape facilitates the enhanced capacitive coupling coefficient ratio. | 08-13-2009 |
20090212362 | SOI FIELD EFFECT TRANSISTOR WITH A BACK GATE FOR MODULATING A FLOATING BODY - A masking layer is applied over a top semiconductor layer and patterned to expose in an opening a shallow trench isolation structure and a portion of a top semiconductor region within which a first source/drain region and a body is to be formed. Ions are implanted into a portion of a buried insulator layer within the area of the opening to form damaged buried insulator region. The shallow trench isolation structure is removed and the damaged buried insulator region is etched selective to undamaged buried insulator portions to form a cavity. A dielectric layer is formed on the sidewalls and the exposed bottom surface of the top semiconductor region and a back gate filling the cavity is formed. A contact is formed to provide an electrical bias to the back gate so that the electrical potential of the body and the first source/drain region is electrically modulated. | 08-27-2009 |
20090305472 | DEFECT-FREE HYBRID ORIENTATION TECHNOLOGY FOR SEMICONDUCTOR DEVICES - A semiconductor device includes a semiconductor material having two crystal orientations. The semiconductor material forms an active area of the device. A device channel is formed on the two crystal orientations, which include a first region formed in a first crystal orientation surface of the semiconductor material, and a second region formed in a second crystal orientation surface of the semiconductor material wherein the first crystal orientation surface forms an angle with the second crystal orientation surface and the device channel covers at least an intersection of the angle. | 12-10-2009 |
20090305493 | ADOPTING FEATURE OF BURIED ELECTRICALLY CONDUCTIVE LAYER IN DIELECTRICS FOR ELECTRICAL ANTI-FUSE APPLICATION - An anti-fuse structure that included a buried electrically conductive, e.g., metallic layer as an anti-fuse material as well as a method of forming such an anti-fuse structure are provided. According to the present invention, the inventive anti-fuse structure comprises regions of leaky dielectric between interconnects. The resistance between these original interconnects starts decreasing when two adjacent interconnects are biased and causes a time-dependent dielectric breakdown, TDDB, phenomenon to occur. Decreasing of the resistance between adjacent interconnects can also be expedited via increasing the local temperature. | 12-10-2009 |
20090309136 | SEA-OF-FINS STRUCTURE OF A SEMICONDUCTOR SUBSTRATE AND METHOD OF FABRICATION - A semiconductor device and a method of fabricating a semiconductor device, wherein the method comprises forming, on a substrate, a plurality of planarized fin bodies to be used for customized fin field effect transistor (FinFET) device formation; forming a nitride spacer around each of the plurality of fin bodies; forming an isolation region in between each of the fin bodies; and coating the plurality of fin bodies, the nitride spacers, and the isolation regions with a protective film. The fabricated semiconductor device is adapted to be used in customized applications as a customized semiconductor device. | 12-17-2009 |
20110002188 | Apparatus for Nonvolatile Multi-Programmable Electronic Fuse System - Electronic fuse (e-fuse) systems with multiple reprogrammability are provided. In one aspect, a reprogrammable e-fuse system is provided that includes a first e-fuse string; a second e-fuse string; a selector connected to both the first e-fuse string and the second e-fuse string configured to alternately select an e-fuse from the first e-fuse string or the second e-fuse string to be programmed; and a comparator connected to both the first e-fuse string and the second e-fuse string configured to compare a voltage across the first e-fuse string to a voltage across the second e-fuse string to determine a programming state of the e-fuse system. | 01-06-2011 |
20110075504 | Dual Beta Ratio SRAM - A static random access memory (SRAM) cell includes a first read port, the first read port having a first beta ratio; and a write port, the write port having a second beta ratio that is substantially lower than the first beta ratio. A static random access memory (SRAM) array includes a plurality of SRAM cells, an SRAM cell including a first read port, the first read port having a first beta ratio; and a write port, the write port having a second beta ratio that is substantially lower than the first beta ratio. | 03-31-2011 |
20110201199 | LASER ANNEALING FOR 3-D CHIP INTEGRATION - A laser annealing method for annealing a stacked semiconductor structure having at least two stacked layers is disclosed. A laser beam is focused on a lower layer of the stacked layers. The laser beam is then scanned to anneal features in the lower layer. The laser beam is then focused on an upper layer of the stacked layers, and the laser beam is scanned to anneal features in the upper layer. The laser has a wavelength of less than one micrometer. The beam size, depth of focus, energy dosage, and scan speed of the laser beam are programmable. Features in the lower layer are offset from features in the upper layer such that these features do not overlap along a plane parallel to a path of the laser beam. Each of the stacked layers includes active devices, such as transistors. Also, the first and second layers may be annealed simultaneously. | 08-18-2011 |
20120043597 | SEA-OF-FINS STRUCTURE ON A SEMICONDUCTOR SUBSTRATE AND METHOD OF FABRICATION - A semiconductor device and a method of fabricating a semiconductor device, wherein the method comprises forming, on a substrate, a plurality of planarized fin bodies to be used for customized fin field effect transistor (FinFET) device formation; forming a nitride spacer around each of the plurality of fin bodies; forming an isolation region in between each of the fin bodies; and coating the plurality of fin bodies, the nitride spacers, and the isolation regions with a protective film. The fabricated semiconductor device is used in customized applications as a customized semiconductor device. | 02-23-2012 |
20120184076 | FLASH MEMORY STRUCTURE WITH ENHANCED CAPACITIVE COUPLING COEFFICIENT RATIO (CCCR) AND METHOD FOR FABRICATION THEREOF - A flash memory structure having an enhanced capacitive coupling coefficient ratio (CCCR) may be fabricated in a self-aligned manner while using a semiconductor substrate that has an active region that is recessed within an aperture with respect to an isolation region that surrounds the active region. The flash memory structure includes a floating gate that does not rise above the isolation region, and that preferably consists of a single layer that has a U shape. The U shape facilitates the enhanced capacitive coupling coefficient ratio. | 07-19-2012 |
20120187528 | FINFET FUSE WITH ENHANCED CURRENT CROWDING - A method forms an eFuse structure that has a pair of adjacent semiconducting fins projecting from the planar surface of a substrate (in a direction perpendicular to the planar surface). The fins have planar sidewalls (perpendicular to the planar surface of the substrate) and planar tops (parallel to the planar surface of the substrate). The tops are positioned at distal ends of the fins relative to the substrate. An insulating layer covers the tops and the sidewalls of the fins and covers an intervening substrate portion of the planar surface of the substrate located between the fins. A metal layer covers the insulating layer. A pair of conductive contacts are connected to the metal layer at locations where the metal layer is adjacent the top of the fins. | 07-26-2012 |