Patent application number | Description | Published |
20090044571 | Knitted Glove with Controlled Stitch Stretch Capability and enhanced cuff - A knitted glove made by creating each of the at least fifteen sections using a separate knitting course on a flat knitting machine providing varying stitch dimensions with one or two yarns in one or more sections. Custom stretch characteristics can be provided using one or two yarns providing a tight glove that provides flexibility and ease of movement. The varying stitch dimension is achieved by 1) varying the depth of penetration of the knitting needle into fabric being knitted by a computer program, 2) adjusting the tension of yarn between a pinch roll and knitting head by a mechanism controlled by a computer and/or 3) casting off or picking up additional stitches in a course. The glove includes four finger components, a thumb component, two palm components, and a wrist component. A padded cuff section can be added to the wrist component for comfort. | 02-19-2009 |
20090211305 | Knitted Glove - A knitted glove made by creating each of the sections of the glove using a separate knitting course on a flat knitting machine providing variable stitch dimensions. Each of these sections provides its own designed stretch characteristics so that the glove fits tightly, yet provides flexibility and ease of movement. The variable stitch dimension is achieved by 1) varying the depth of penetration of a knitting needle into a fabric being knitted by a computer program, 2) adjusting the tension of yarn between a pinch roller and a knitting head by a mechanism controlled by a computer, and 3) casting off or picking up additional stitches in a course. The glove includes a plurality of finger components made from at least ten separately knitted sections, two palm components, each of which is made from at least two separately knitted sections, and a wrist component made from at least one knitted section. | 08-27-2009 |
20100275341 | Knitted Glove Having A Single Layer With A Plurality Of Yarns - A seamless, single layer, multi-yarn glove or glove liner is disclosed. The glove or glove liner includes a first type of yarn and a second type of yarn that is different from the first type of yarn. The glove or glove liner has a single layer that includes the first type of yarn and the second type of yarn knitted together to form a hand-like structure that includes a thumb section, a plurality of finger sections and a palm section. The first type of yarn is different that the second type of yarn. For example, the first type of yarn may be a cut resistant yarn and the second type of yarn may be an inexpensive elastic yarn such as Spandex. An optional cuff is part of the single layer, the cuff optionally comprising a tab to aid in donning and doffing. The glove can further comprise a tab with indicia, where the indicia can be, for example, shape or color to convey information about the glove such as size or cut resistant properties. Padded protection on the knuckles can also be provided. | 11-04-2010 |
20100275342 | KNITTED GLOVES HAVING A SINGLE LAYER WITH A PLURALITY OF YARNS - A seamless, single layer, multi-yarn glove or glove liner is disclosed. The glove or glove liner includes a first type of yarn and a second type of yarn that is different from the first type of yarn. The glove or glove liner has a single layer that includes the first type of yarn and the second type of yarn knitted together to form a hand-like structure that includes a thumb section, a plurality of finger sections and a palm section. The first type of yarn is different that the second type of yarn. For example, the first type of yarn may be a cut resistant yarn and the second type of yarn may be an inexpensive elastic yarn such as Spandex. Gloves suitable for use by carpenters, electricians, HVAC handlers, laborers, masons, and plumbers are also provided. Methods of using these gloves are also provided. | 11-04-2010 |
20100325777 | Knitted Glove with Tacky Grip Coating - Provided are leather-free gloves comprising a seamless knitted glove body and a tacky cured elastomeric coating, where the coating comprises a tackifier. Methods of making and using the same are also provided. The glove body can be knit from a stretchable body yarn. Reinforcement sections can also be provided for areas of high stress such as tips and bases of finger and thumb components and the knuckle area. A flat cuff can also be included. | 12-30-2010 |
20130213094 | ZONAL CUT RESISTANT GLOVE - Embodiments of the invention include knitted gloves having a cut-resistant yarn in at least one knitted zone of a glove and further including one or more yarns knitted into other knitted zones of the glove in which at least one zone has vertically knitted courses. | 08-22-2013 |
20140005616 | WOUND CARE ARTICLES | 01-02-2014 |
20140123366 | LIGHTWEIGHT ROBUST THIN FLEXIBLE POLYMER COATED GLOVE - Lightweight robust flexible gloves having an 18 gauge knitted liner and a polymeric coating disposed thereon and optionally including knitted reinforcement sections at areas of high stretch and/or movement are provided. Reinforcement sections can be formed by plaiting, using yarns of the same or lighter denier, and/or forming Jacquard or transfer stitches. | 05-08-2014 |
20140237701 | MULTI-FUNCTIONAL METAL FABRICATION GLOVE - Multifunctional liners and gloves that include impact-, cut- and flame/heat-resistant yarns and, optionally, flame/heat-resistant coatings, as well as methods for manufacturing liners and gloves, are disclosed. | 08-28-2014 |
Patent application number | Description | Published |
20090032904 | ORIENTATION-INDEPENDENT MULTI-LAYER BEOL CAPACITOR - A plurality of interdigitized conductive fingers are arranged to form a substantially square configuration in each of a plurality of layers separated by a high dielectric constant material, wherein each of the plurality of interdigitized conductive fingers includes at least one bend of substantially ninety degrees. The plurality of interdigitized conductive fingers includes a first set of fingers that are connected to an anode terminal, and a second set of fingers that are connected to a cathode terminal. The plurality of layers includes a bottommost layer that is in closest proximity to a substrate relative to other layers of the plurality of layers. The bottommost layer does not include any fingers connected to the anode terminal. | 02-05-2009 |
20090039465 | ON-CHIP DECOUPLING CAPACITOR STRUCTURES - The present disclosure provides on-chip decoupling capacitor structures having trench capacitors integrated with a passive capacitor formed in the back-end-of-line wiring to provide an improved overall capacitance density. In some embodiments, the structure includes at least one deep trench capacitor and a passive capacitor formed in at least two back-end-of-line wiring levels. The trench and passive capacitors are in electrical communication through one of the wiring levels. In other embodiments, the structure includes at least one deep trench capacitor, a first back-end-of-line wiring level, and a second back-end-of-line wiring level. The deep trench capacitor with a dielectric that has an upper edge that terminates at a lower surface of a shallow trench isolation region. The first wiring level is in electrical communication with the trench capacitor. The second wiring level is vertically electrically connected to the first wiring level by vertical connectors so as to form a passive capacitor. | 02-12-2009 |
20090039467 | ON-CHIP DECOUPLING CAPACITOR STRUCTURES - The present disclosure provides on-chip decoupling capacitor structures having trench capacitors integrated with planar capacitors to provide an improved overall capacitance density. In some embodiments, the structure includes at least one deep trench capacitor, at least one planar capacitor, and a metal layer interconnecting said deep trench and planar capacitors. In other embodiments, the structure includes at least one deep trench capacitor and a metal layer in electrical communication with the at least one deep trench capacitor. The at least one deep trench capacitor has a shallow trench isolation region, a doped region, an inner electrode, and a dielectric between the doped region and the inner electrode. The dielectric has an upper edge that terminates at a lower surface of the shallow trench isolation region. | 02-12-2009 |
20100155897 | DEEP TRENCH VARACTORS - A deep trench varactor structure compatible with a deep trench capacitor structure and methods of manufacturing the same are provided. A buried plate layer is formed on a second deep trench, while the first trench is protected from formation of any buried plate layer. The inside of the deep trenches is filled with a conductive material to form inner electrodes. At least one doped well is formed outside and abutting portions of the first deep trench and constitutes at least one outer varactor electrode. Multiple doped wells may be connected in parallel to provide a varactor having complex voltage dependency of capacitance. The buried plate layer and another doped well connected thereto constitute an outer electrode of a linear capacitor formed on the second deep trench. | 06-24-2010 |
20120126792 | STRUCTURES AND METHODS FOR RF DE-EMBEDDING - Electrical structures, methods, and computer program products for radio frequency (RF) de-embedding are provided. A structure includes a first test device, a first through structure corresponding to the first test device, and a first open structure corresponding to the first test device. The structure also includes a second test device having at least one different physical dimension than the first test device but otherwise identical to the first test device, a second through structure corresponding to the second test device, and a second open structure corresponding to the second test device. A method includes determining a first electrical parameter of the first test device in a first DUT structure and a second electrical parameter of the second test device in a second DUT structure based on measured electrical parameters of the first and the second DUT structures, through structures, and open structures. | 05-24-2012 |
20120326270 | INTERDIGITATED VERTICAL NATIVE CAPACITOR - A metal capacitor structure includes a plurality of line level structures vertically interconnected with via level structures. Each first line level structure and each second line level structure includes a set of parallel metal lines that is physically joined at an end to a rectangular tab structure having a rectangular horizontal cross-sectional area. A first set of parallel metal lines within a first line level structure and a second set of parallel metal lines within a second line level structure are interdigitated and parallel to each other, and can collectively form an interdigitated uniform pitch structure. Because the rectangular tab structures do not protrude toward each other within a region between two facing sidewalls of the rectangular tab structures, sub-resolution assist features (SRAFs) can be employed to provide a uniform width and a uniform pitch throughout the entirety of the interdigitated uniform pitch structure. | 12-27-2012 |
20150057980 | STRUCTURES AND METHODS FOR RF DE-EMBEDDING - Electrical structures, methods, and computer program products for radio frequency (RF) de-embedding are provided. A structure includes a first test device, a first through structure corresponding to the first test device, and a first open structure corresponding to the first test device. The structure also includes a second test device having at least one different physical dimension than the first test device but otherwise identical to the first test device, a second through structure corresponding to the second test device, and a second open structure corresponding to the second test device. A method includes determining a first electrical parameter of the first test device in a first DUT structure and a second electrical parameter of the second test device in a second DUT structure based on measured electrical parameters of the first and the second DUT structures, through structures, and open structures. | 02-26-2015 |
Patent application number | Description | Published |
20090055992 | Lightweight Robust Thin Flexible Polymer Coated Glove - Lightweight robust thin flexible latex gloves having areas of reinforcement at areas of high stretch and/or movement are provided. Gloves comprise a knitted liner having a plurality of stitches made from a first yarn having a denier 221 or less, the knitted liner comprising a plurality of finger components, a thumb component, and a palm component; and at least one reinforcement section located at a base of at least one finger component, at a base of the thumb component, in the palm component, or combinations thereof, and a polymeric latex coating. Reinforcement sections can be formed by plaiting, using yarn of a heavier denier, and/or forming Jacquard or transfer stitches. The liner can be knitted using with 70 to 221 denier nylon 66 multi-filament yarn. Methods of making and using the gloves are also provided. | 03-05-2009 |
20110209504 | Lightweight Thin Flexible Polymer Coated Glove and a Method Therefor - A lightweight thin flexible latex glove article having a polymeric latex coating that penetrates the front portion of a knitted liner half way or more through the liner thickness and for at least a portion of the knitted liner, not penetrating the entire thickness. For example, the liner can be knitted using an 18-gauge needle with 70 to 221 denier nylon 66 multi-filament yarn. The polymer latex coating can be 0.75 to 1.25 times the thickness of the knitted liner. Over 30% reduction of glove thickness is achieved resulting in three times greater flexibility. The polymer latex coating may be foamed with 5 to 50 vol % air content. Open celled foamed latex coating may be coated with a dispersion of fluorochemical dispersion to prevent liquid permeation into the glove. The process can include steps to gel the latex emulsion at interstices of the yarn to prevent further penetration of the emulsion into the liner. | 09-01-2011 |
20110289652 | Lightweight robust thin flexible polymer coated glove - A glove including a knitted liner having a thickness of about 0.70 mm to about 0.90 mm and a plurality of stitches made from a first yarn having a denier of 221 or less, the knitted liner comprising a plurality of finger components, a thumb component, and a palm component, at least one reinforcement section located at a base of at least one finger component, at a base of the thumb component, or in the palm component, or combinations thereof, and a foamed polymeric latex coating adhered to the knitted liner, the foamed polymeric latex coating penetrating half way or more for at least a portion of the knitted liner, the foamed polymeric latex coating not penetrating the entire thickness of the knitted liner. | 12-01-2011 |
Patent application number | Description | Published |
20150347632 | SYSTEM DESIGN MANAGEMENT - This application discloses a computing system implementing tools and mechanisms to generate a framework for a system-level design of an electronic system, wherein the system-level design includes multiple electronic designs from different electronic design automation tools. The tools and mechanisms can correlate design components in the electronic designs to different portions of the framework for the system-level design, and determine whether the electronic designs are congruent with the system-level design based, at least in part, on the correlation of the electronic designs to the different portions of the framework for the system-level design. | 12-03-2015 |
20150347633 | SYSTEM DESIGN MANAGEMENT - This application discloses a computing system implementing tools and mechanisms to generate a framework for a system-level design of an electronic system, wherein the system-level design includes multiple electronic designs from different electronic design automation tools. The tools and mechanisms can correlate design components in the electronic designs to different portions of the framework for the system-level design, and determine whether the electronic designs are congruent with the system-level design based, at least in part, on the correlation of the electronic designs to the different portions of the framework for the system-level design. | 12-03-2015 |
20150347656 | SYSTEM DESIGN MANAGEMENT - This application discloses a computing system implementing tools and mechanisms to generate a framework for a system-level design of an electronic system, wherein the system-level design includes multiple electronic designs from different electronic design automation tools. The tools and mechanisms can correlate design components in the electronic designs to different portions of the framework for the system-level design, and determine whether the electronic designs are congruent with the system-level design based, at least in part, on the correlation of the electronic designs to the different portions of the framework for the system-level design. | 12-03-2015 |