Patent application number | Description | Published |
20100009026 | APPARATUS AND METHOD FOR MANUFACTURING A MULTIPLE MATERIAL GOLF CLUB HEAD - A method and apparatus for co-curing a multiple material golf club head is disclosed herein. The club head preferably is composed of a metal face component and an aft-body composed of a plurality of plies of pre-preg material. | 01-14-2010 |
20140194220 | PUTTER FACE INSERT - A putter-type golf club head having a face insert comprising a metal sheet and a urethane backing is disclosed herein. The metal sheet, which makes contact with a golf ball during use, includes a plurality of oval-shaped holes extending through the entire thickness of the sheet and having a specific size and spacing, and the urethane backing has a hardness that optimizes performance of the face insert, and thus the putter. | 07-10-2014 |
20140248975 | CUSTOMIZABLE GOLF CLUB HEAD - A golf club having features that permit easy customization by consumers is disclosed herein. The golf club includes at least one weight port, at least one removable weight port insert, which may be a weight port ring or one or more weight port medallions, and at least one weight screw. The weight port of the golf club head preferably is non-circular and asymmetric. | 09-04-2014 |
20150057099 | PUTTER FACE INSERT - A putter-type golf club head having a face insert comprising a metal sheet and a urethane backing is disclosed herein. The metal sheet, which makes contact with a golf ball during use, includes a plurality of oval-shaped holes extending through the entire thickness of the sheet and having a specific size and spacing, and the urethane backing has a hardness that optimizes performance of the face insert, and thus the putter. | 02-26-2015 |
20150375069 | PUTTER FACE INSERT - A putter-type golf club head having a face insert composed of at least one thermoplastic polyether ester elastomer is disclosed herein. The face insert includes a plurality of oval-shaped holes having a specific size and spacing, and the at least one thermoplastic polyether ester elastomer incorporates polytetramethylene ether soft segments with molecular weights of greater than 1000 g/mol, preferably at least 1400 g/mol. | 12-31-2015 |
Patent application number | Description | Published |
20100221903 | METHODS OF FORMING A LOW RESISTANCE SILICON-METAL CONTACT - A method of forming an ohmic contact on a substrate is described. The method includes depositing a set of silicon particles on the substrate surface. The method also includes heating the substrate in a baking ambient to a baking temperature and for a baking time period in order to create a densified film ink pattern. The method further includes exposing the substrate to a dopant source in a diffusion furnace with a deposition ambient, the deposition ambient comprising POCl | 09-02-2010 |
20110183504 | METHODS OF FORMING A DUAL-DOPED EMITTER ON A SUBSTRATE WITH AN INLINE DIFFUSION APPARATUS - A method of forming a multi-doped junction is disclosed. The method includes providing a substrate doped with boron atoms, the substrate comprising a front substrate surface. The method also includes depositing an ink on the front substrate surface in an ink pattern, the ink comprising a set of nanoparticles and a set of solvents; and heating the substrate in a baking ambient at a baking temperature and for a baking time period wherein a densified ink layer is formed. The method further includes exposing the substrate to a phosphorous dopant source at a drive-in temperature and for a drive-in time period. | 07-28-2011 |
20120058632 | METHODS OF FORMING A METAL CONTACT ON A SILICON SUBSTRATE - A method of forming a metal contact on a silicon substrate is disclosed. The method includes depositing a nanoparticle ink on a substrate surface in a pattern, the nanoparticle ink comprising set of nanoparticles and a set of solvents. The method also includes heating the substrate in a baking ambient to a first temperature and for a first time period in order to create a densified nanoparticle layer with a nanoparticle layer thickness of greater than about 50 nm. The method further includes depositing an SiN | 03-08-2012 |
20120083104 | METHODS OF FORMING A FLOATING JUNCTION ON A SOLAR CELL WITH A PARTICLE MASKING LAYER - A method of forming a floating junction on a substrate is disclosed. The method includes providing the substrate doped with boron atoms, the substrate comprising a front surface and a rear surface. The method also includes depositing a set of masking particles on the rear surface in a set of patterns; and heating the substrate in a baking ambient to a first temperature and for a first time period in order to create a particle masking layer. The method further includes exposing the substrate to a phosphorous deposition ambient at a second temperature and for a second time period, wherein a front surface PSG layer, a front surface phosphorous diffusion, a rear surface PSG layer, and a rear surface phosphorous diffusion are formed, and wherein a first phosphorous dopant surface concentration in the substrate proximate to the set of patterns is less than a second dopant surface concentration in the substrate not proximate to the set of patterns. The method also includes exposing the substrate to a set of etchants for a third time period, wherein the front surface PSG layer and the rear surface PSG layer are substantially removed; depositing a front surface SiN | 04-05-2012 |
Patent application number | Description | Published |
20080254601 | METHODS FOR OPTIMIZING THIN FILM FORMATION WITH REACTIVE GASES - A method for producing a Group IV semiconductor thin film in a chamber is disclosed. The method includes positioning a substrate in the chamber, wherein the chamber further has a chamber pressure. The method further includes depositing a nanoparticle ink on the substrate, the nanoparticle ink including set of Group IV semiconductor nanoparticles and a solvent, wherein each nanoparticle of the set of Group IV semiconductor nanoparticles includes a nanoparticle surface, wherein a layer of Group IV semiconductor nanoparticles is formed. The method also includes striking a hydrogen plasma; and heating the layer of Group IV semiconductor nanoparticles to a fabrication temperature of between about 300° C. and about 1350° C., and between about 1 nanosecond and about 10 minutes; wherein the Group IV semiconductor thin film is formed. | 10-16-2008 |
20090239330 | METHODS FOR FORMING COMPOSITE NANOPARTICLE-METAL METALLIZATION CONTACTS ON A SUBSTRATE - A method for forming a contact to a substrate is disclosed. The method includes providing a substrate, the substrate being doped with a first dopant; and diffusing a second dopant into at least a first side of the substrate to form a second dopant region, the first side further including a first side surface area. The method also includes forming a dielectric layer on the first side of the substrate. The method further includes forming a set of composite layer regions on the dielectric layer, wherein each composite layer region of the set of composite layer regions further includes a set of Group IV semiconductor nanoparticles and a set of metal particles. The method also includes heating the set of composite layer regions to a first temperature, wherein at least some composite layer regions of the set of composite layer regions etch through the dielectric layer and form a set of contacts with the second dopant region. | 09-24-2009 |
20090325336 | METHODS FOR PRINTING AN INK ON A TEXTURED WAFER SURFACE - A method of printing an ink on a wafer surface configured with a set of non-rounded peaks and a set of non-rounded valleys is disclosed. The method includes exposing the wafer including at least some non-rounded peaks and at least some of the non-rounded valleys in a region to an etchant. The method further includes depositing the ink on the region, wherein a set of rounded peaks and a set of rounded valleys are formed. | 12-31-2009 |
20100136771 | SUB-CRITICAL SHEAR THINNING GROUP IV BASED NANOPARTICLE FLUID - A Group IV based nanoparticle fluid is disclosed. The nanoparticle fluid includes a set of nanoparticles—comprising a set of Group IV atoms, wherein the set of nanoparticles is present in an amount of between about 1 wt % and about 20 wt % of the nanoparticle fluid. The nanoparticle fluid also includes a set of HMW molecules, wherein the set of HMW molecules is present in an amount of between about 0 wt % and about 5 wt % of the nanoparticle fluid. The nanoparticle fluid further includes a set of capping agent molecules, wherein at least some capping agent molecules of the set of capping agent molecules are attached to the set of nanoparticles. | 06-03-2010 |
20100275982 | GROUP IV NANOPARTICLE JUNCTIONS AND DEVICES THEREFROM - A device for generating electricity from solar radiation is disclosed. The device includes a wafer doped with a first dopant, the wafer including a front-side and a back-side, wherein the front-side is configured to be exposed to the solar radiation. The device also includes a fused Group IV nanoparticle thin film deposited on the front-side, wherein the nanoparticle thin film includes a second dopant, wherein the second dopant is a counter dopant. The device further includes a first electrode deposited on the nanoparticle thin film, and a second electrode deposited on the back-side, wherein when solar radiation is applied to the front-side, an electrical current is produced. | 11-04-2010 |
20110012066 | GROUP IV NANOPARTICLE FLUID - A Group IV based nanoparticle fluid is disclosed. The nanoparticle fluid includes a set of nanoparticles-comprising a set of Group IV atoms, wherein the set of nanoparticles is present in an amount of between about 1 wt % and about 20 wt % of the nanoparticle fluid. The nanoparticle fluid also includes a set of HMW molecules, wherein the set of HMW molecules is present in an amount of between about 0 wt % and about 5 wt % of the nanoparticle fluid. The nanoparticle fluid further includes a set of capping agent molecules, wherein at least some capping agent molecules of the set of capping agent molecules are attached to the set of nanoparticles. | 01-20-2011 |
20120009721 | GROUP IV NANOPARTICLE JUNCTIONS AND DEVICES THEREFROM - A device for generating electricity from solar radiation is disclosed. The device includes a wafer doped with a first dopant, the wafer including a front-side and a back-side, wherein the front-side is configured to be exposed to the solar radiation. The device also includes a fused Group IV nanoparticle thin film deposited on the front-side, wherein the nanoparticle thin film includes a second dopant, wherein the second dopant is a counter dopant. The device further includes a first electrode deposited on the nanoparticle thin film, and a second electrode deposited on the back-side, wherein when solar radiation is applied to the front-side, an electrical current is produced. | 01-12-2012 |
Patent application number | Description | Published |
20080306335 | Endoscopic vessel harvesting system components - Components for an endoscopic vessel harvesting system suitable for harvesting target vessels such as the saphenous vein or radial artery for cardiac artery bypass graft surgery. The main components of such systems include a vessel dissector and a vessel harvester, both of which work in conjunction with a separately provided endoscope. The vessel dissector is an elongated cannula having a blunt tip for separating layers of facial around vessels. The tip may be movable, and is typically transparent to permit viewing forward of the tip using the endoscope. Internal features of the tip may reduce glare back to the endoscope. Several devices improve visibility through the tip by reducing interference from tissue or fluid on the tip. The vessel harvester also has an elongated cannula for receiving the endoscope. Several tools within the harvester permit manipulation, severing, and sealing of vessels forward of the distal end. The tool for manipulating vessels may have a low-profile for increased visibility of operation, and may be coupled to the cannula with a damping mechanism to reduce the possibility of avulsion of the vessels. Various vessel cutting and sealing devices are provided that may accommodate various sizes of vessels and improve cutting and sealing efficacy. | 12-11-2008 |
20110257643 | APPARATUS AND METHOD FOR REGULATING TISSUE WELDER JAWS - A surgical apparatus and methods for severing and welding tissue, in particular blood vessels. The apparatus includes an elongated shaft having a pair of relatively movable jaws at a distal end thereof. A first heating element on one of the jaws is adapted to heat up to a first temperature and form a welded region within the tissue, while a second heating element on one of the jaws is adapted to heat up to a second temperature and sever the tissue within the welded region. The first and second heating elements may be provided on the same or opposite jaws. A control handle provided on the proximal end of the elongated shaft includes controls for opening and closing the jaws, and may include an actuator for sending current through the first and second heating elements. The first and second heating elements may be electrically connected in series, and the first heating element may be bifurcated such that it conducts about one half of the current as the second heating element. A force-limiting mechanism provided either within the control handle, in the elongated shaft, or at the jaws limits the pressure applied to the tissue by the jaws to ensure that the tissue is severed and the ends effectively welded within a short amount of time. | 10-20-2011 |
20120316550 | TISSUE WELDING AND CUTTING APPARATUS AND METHOD - A surgical apparatus includes an elongated shaft having a pair of relatively movable jaws at a distal end thereof. A first heating element on one of the jaws is adapted to heat up to a first temperature and form a welded region within the tissue, while a second heating element on one of the jaws is adapted to heat up to a second temperature and sever the tissue within the welded region. The first and second heating elements may be provided on the same or opposite jaws. A control handle provided on the proximal end of the elongated shaft includes controls for opening and closing the jaws, and may include an actuator for sending current through the first and second heating elements. The first and second heating elements may be electrically connected in series. | 12-13-2012 |
20130018373 | APPARATUS AND METHOD FOR REGULATING TISSUE WELDER JAWS - A surgical apparatus and methods for severing and welding tissue, in particular blood vessels. The apparatus includes an elongated shaft having a pair of relatively movable jaws at a distal end thereof. A first heating element on one of the jaws is adapted to heat up to a first temperature and form a welded region within the tissue, while a second heating element on one of the jaws is adapted to heat up to a second temperature and sever the tissue within the welded region. The first and second heating elements may be provided on the same or opposite jaws. A control handle provided on the proximal end of the elongated shaft includes controls for opening and closing the jaws, and may include an actuator for sending current through the first and second heating elements. The first and second heating elements may be electrically connected in series, and the first heating element may be bifurcated such that it conducts about one half of the current as the second heating element. A force-limiting mechanism provided either within the control handle, in the elongated shaft, or at the jaws limits the pressure applied to the tissue by the jaws to ensure that the tissue is severed and the ends effectively welded within a short amount of time. | 01-17-2013 |
20140194876 | APPARATUS AND METHOD FOR REGULATING TISSUE WELDER JAWS - A surgical apparatus and methods for severing and welding tissue, in particular blood vessels. The apparatus includes an elongated shaft having a pair of relatively movable jaws at a distal end thereof. A first heating element on one of the jaws is adapted to heat up to a first temperature and form a welded region within the tissue, while a second heating element on one of the jaws is adapted to heat up to a second temperature and sever the tissue within the welded region. The first and second heating elements may be provided on the same or opposite jaws. A control handle provided on the proximal end of the elongated shaft includes controls for opening and closing the jaws, and may include an actuator for sending current through the first and second heating elements. The first and second heating elements may be electrically connected in series, and the first heating element may be bifurcated such that it conducts about one half of the current as the second heating element. A force-limiting mechanism provided either within the control handle, in the elongated shaft, or at the jaws limits the pressure applied to the tissue by the jaws to ensure that the tissue is severed and the ends effectively welded within a short amount of time. | 07-10-2014 |
20150142041 | APPARATUS AND METHODS FOR PERFORMING MINIMALLY-INVASIVE SURGICAL PROCEDURES - Devices, tools and methods for performing minimally invasive surgical procedures. Methods of performing minimally invasive ablation procedures. Methods of performing rapid exchange of tools in a device while the device remains in a reduced-access surgical space. | 05-21-2015 |
Patent application number | Description | Published |
20080310565 | Dynamic optimization of overlap-and-add length - A method of adjusting overlap-and-add length for zero-padded suffixes. The method includes, based on a channel impulse response, estimating an effective channel length. When the effective channel length is less than a default overlap-and-add length and greater than a minimum length, the method includes setting the overlap-and-add length to the effective channel length. When the effective channel length is less than the minimum length, the method includes setting the overlap-and-add length to the minimum length. When the effective channel length is greater than the default overlap-and-add length, the method includes setting the overlap-and-add length to the default overlap-and-add length. | 12-18-2008 |
20110080216 | Systems and Methods of Power Amplifier Digital Pre-Distortion - Systems and methods for power amplifier pre-distortion are provided. The systems and methods of power amplifier digital pre-distortion disclosed herein may include a generic pre-distorter architecture which can implement a variety of Volterra cross terms involving single dimension convolutions (first order dynamics). For hardware implementations, this generic pre-distorter is further fine-tuned to provide a choice between different sets of cross terms that can be selected for a given PA for optimal performance. The novel pre-distorter architecture provides flexibility to trade off memory depth for additional Volterra terms and vice versa. A further novelty is the ability to trade off both memory depth and cross terms for a higher sample rate operation, which may enable higher order non-linear pre-distortion, or support for higher signal bandwidths. A poly-phase non-linear filtering mode allows for this flexibility. | 04-07-2011 |
20110310999 | Dynamic Optimization of Overlap-and-Add Length - A method of performing overlap-and-add length for zero-padded suffixes. The method includes derotating received information symbol samples. The derotated received information symbol samples include a first set of derotated received information symbol samples and a second set of derotated received information symbol samples. The first set of derotated received information symbol samples are stored in a buffer. The second set of derotated received information symbol samples are provided to a received sample processing unit. The received zero-padded suffix samples are deroted. Based upon an overlap-and-add length, at least a fraction of the derotated received zero-padded suffix samples is added with at least a fraction of the first set of derotated received information symbol samples to produce multiple summed samples. The multiple summed samples is provided to the received sample processing unit. | 12-22-2011 |