Patent application number | Description | Published |
20080258068 | DEVICE AND METHOD FOR GENERATING AN X-RAY POINT SOURCE BY GEOMETRIC CONFINEMENT - A device for generating an x-ray point source includes a target, and an electron source for producing electrons which intersect with the target to generate an x-ray point source having a size which is confined by a dimension of the target. | 10-23-2008 |
20080314565 | METHOD AND APPARATUS FOR CHIP COOLING - In one embodiment, the invention is a method and apparatus for chip cooling. One embodiment of a system for cooling a heat-generating device, such as a semiconductor chip, includes a vaporization chamber for at least partially vaporizing a stream of liquid in a stream of a gas to produce a mixture of gas, vapor and liquid and a heat sink coupled to the vaporization chamber for transferring heat from the heat-generating device to the mixture. | 12-25-2008 |
20090003762 | CHIP TO CHIP OPTICAL INTERCONNECT - An apparatus for optical communication is provided. The apparatus includes a first waveguide formed on a first surface and a second waveguide formed on a second surface. The first and second surfaces are bonded together to form an air gap between the first and second surfaces and diffraction gratings of the first and second waveguides are facing each other | 01-01-2009 |
20090051026 | PROCESS FOR FORMING METAL FILM AND RELEASE LAYER ON POLYMER - A process for forming a releasable metal film includes depositing a metal onto a polymeric sheet such that the metal layer provides a low adhesive interface and exhibits relatively low stress. A barrier layer is then deposited onto the surface of the low adhesion interface. A thin film of a stress relief layer of silicon dioxide, aluminum oxide, copper or aluminum is then deposited followed by addition of a second barrier layer onto the stress relief layer. The stress relief layer provides compressive relief to balance the tensile stress of the so-stacked metal films. An additional solderable layer maybe added for soldering applications. To fabricate the working device with sputtering tools, an extremely high gas pressure is used to achieve low adhesion force between the wettable metallic layer and the polymeric carrier film. | 02-26-2009 |
20090122491 | UNIVERSAL PATTERNED METAL THERMAL INTERFACE - The present invention is a universal patterned metal thermal interface. The thermal interface eliminates the need for surface processing of one or both contact surfaces that are to accommodate the thermal interface. In one embodiment, a thermal interface for coupling a first solid to a second solid includes a patterned metal insert, a corrosion resistant layer coating at least one exterior side of the insert, for protecting the insert from corrosion, and an organic layer coating the corrosion resistant layer, for facilitating bonding of the insert to one of the first solid or the second solid. | 05-14-2009 |
20090142532 | METHOD AND APPARATUS FOR DEPLOYING A LIQUID METAL THERMAL INTERFACE FOR CHIP COOLING - In one embodiment, the present invention is a method and apparatus for chip cooling. One embodiment of an inventive method for bonding a liquid metal to an interface surface (e.g., a surface of an integrated circuit chip or an opposing surface of a heat sink) includes applying an adhesive to the interface surface. A metal film is then bonded to the adhesive, thereby easily adapting the interface surface for bonding to the liquid metal. | 06-04-2009 |
20090294106 | METHOD AND APPARATUS FOR CHIP COOLING - In one embodiment, the invention is a method and apparatus for chip cooling. One embodiment of an apparatus for cooling a heat-generating device includes an inlet for receiving a fluid, a manifold comprising a plurality of apertures formed therein for decreasing the pressure of the fluid from a first pressure by adiabatic expansion for impinging the fluid on the heat-generating device once the pressure of the fluid is decreased from the first pressure. | 12-03-2009 |
20090326879 | Techniques for Thermal Modeling of Data Centers to Improve Energy Efficiency - Techniques for modeling a data center are provided. In one aspect, a method for modeling a data center is provided. The method comprises the following steps. Spatially dense three-dimensional thermal distribution and air flow measurements made in the data center using a mobile off-line surveying system are obtained. A temperature and air flow model for the data center is created using the spatially dense three-dimensional thermal distribution and air flow measurements. The temperature and air flow model is used to make thermal distribution and air flow predictions of the data center. The thermal distribution and air flow predictions are compared with the thermal distribution and air flow measurements made using the mobile off-line surveying system to produce a validated model for the data center. | 12-31-2009 |
20100147497 | PATTERNED METAL THERMAL INTERFACE - The present invention is a patterned metal thermal interface. In one embodiment a system for dissipating heat from a heat-generating device includes a heat sink having a first surface adapted for thermal coupling to a first surface of the heat generating device and a thermal interface having at least one patterned surface, the thermal interface being adapted to thermally couple the first surface of the heat sink to the first surface of the heat generating device. The patterned surface of the thermal interface allows the thermal interface to deform under compression between the heat sink and the heat generating device, leading to better conformity of the thermal interface to the surfaces of the heat sink and the heat generating device. | 06-17-2010 |
20100230048 | METHOD AND SYSTEM FOR TONE INVERTING OF RESIDUAL LAYER TOLERANT IMPRINT LITHOGRAPHY - A system for imprint lithography, which includes a substrate, a patterned mask, an imprint applying unit that imprints, via the patterned mask, a pattern into a resist layer on the substrate, and an overlay device that overlays a cladding layer over the substrate. | 09-16-2010 |
20100230385 | METHOD AND SYSTEM FOR TONE INVERTING OF RESIDUAL LAYER TOLERANT IMPRINT LITHOGRAPHY - A method (and apparatus) of imprint lithography, includes imprinting, via a patterned mask, a pattern into a resist layer on a substrate, and overlaying a cladding layer over the imprinted resist layer. A portion of the cladding layer is used as a hard mask for a subsequent processing. | 09-16-2010 |
20110240279 | HYBRID LIQUID METAL-SOLDER THERMAL INTERFACE - The present invention is hybrid liquid metal-solder thermal interface. In one embodiment, a thermal interface for coupling a heat generating device to a heat sink includes a first metal interface layer, a second metal interface layer, and an isolation layer positioned between the first metal interface layer and the second metal interface layer, where at least one of the first metal interface layer and the second metal interface layer comprises a liquid metal. | 10-06-2011 |
20120075734 | MIRROR ASSEMBLY - A mirror is provided and includes a first layer including reflective material and an adhesive backing, a second layer including one or more layers of a cloth or a non woven fiber matrix and polymer composite and a third layer including polystyrene foam spheres in a polymer matrix. | 03-29-2012 |
20120125433 | GRID-LINE-FREE CONTACT FOR A PHOTOVOLTAIC CELL - Electrical contact to the front side of a photovoltaic cell is provided by an array of conductive through-substrate vias, and optionally, an array of conductive blocks located on the front side of the photovoltaic cell. A dielectric liner provides electrical isolation of each conductive through-substrate via from the semiconductor material of the photovoltaic cell. A dielectric layer on the backside of the photovoltaic cell is patterned to cover a contiguous region including all of the conductive through-substrate vias, while exposing a portion of the backside of the photovoltaic cell. A conductive material layer is deposited on the back surface of the photovoltaic cell, and is patterned to form a first conductive wiring structure that electrically connects the conductive through-substrate vias and a second conductive wiring structure that provides electrical connection to the backside of the photovoltaic cell. | 05-24-2012 |
20120138145 | STRUCTURE AND DESIGN OF CONCENTRATOR SOLAR CELL ASSEMBLY RECEIVER SUBSTRATE - A substrate has a top side and a bottom side. A solar cell is secured to the top side of the substrate and has an anode and a cathode. A heat transfer element is secured to the bottom side of the substrate. An anode pad is formed on the top side of the substrate and is coupled to the anode of the solar cell; similarly, a cathode pad is formed on the top side of the substrate and is coupled to the cathode of the solar cell. The substrate coefficient of thermal expansion and the solar cell coefficient of thermal expansion match within plus or minus ten parts per million per degree C. | 06-07-2012 |
20120160459 | METHOD AND APPARATUS FOR CHIP COOLING - In one embodiment, the invention is a method and apparatus for chip cooling. One embodiment of an apparatus for cooling a heat-generating device includes an inlet for receiving a fluid, a manifold comprising a plurality of apertures formed therein for decreasing the pressure of the fluid from a first pressure by adiabatic expansion for impinging the fluid on the heat-generating device once the pressure of the fluid is decreased from the first pressure. | 06-28-2012 |
20120186626 | SOLAR ENERGY COLLECTION SYSTEM - A solar energy collection system includes a reference member, a support member rotatably mounted relative to the reference member, and a drive system operatively coupled between the reference member and the support member. The drive system includes a linear actuator having a fixed portion operatively connected to the reference member and a strut portion that is selectivity extendable relative to the fixed portion. The strut portion includes an end section. A first connector member is operatively connected between the reference member and the end section of the strut portion, and a second connector member is operatively connected between the support member and the end section of the strut portion. Selective extension and retraction of the strut portion relative to the fixed portion selectively shifts the support member along a desired path. | 07-26-2012 |
20120266935 | HOMOGENIZING LIGHT-PIPE FOR SOLAR CONCENTRATORS - A light pipe that can be employed for a Concentrator Photo-Voltaic (CPV) system is provided. The light pipe homogenizes light by diffusion and/or refraction, and can be embodied in a structure that has a low aspect ratio. The diffusion and/or refraction can be effected by concave or convex surfaces of a transparent medium that forms a body of the light pipe, by light diffracting particles, and/or by a diffracting surface. Optionally, multiple transparent media can be employed with a refracting and/or diffracting interface therebetween. The reduced aspect ratio of the light pipe can improve reliability of mechanical alignment in the CPV system as well as reducing the cost of manufacturing and/or aligning the light pipe within the CPV system. | 10-25-2012 |
20120321740 | PNEUMATIC METHOD AND APPARATUS FOR NANO IMPRINT LITHOGRAPHY HAVING A CONFORMING MASK - An apparatus for nano lithography includes a mask having a pattern formed thereon and a pneumatic pressure driving source for applying a pneumatic pressure to at least one of a surface of the mask and a surface of a workpiece, thereby to uniformly transfer the pattern from the mask to the workpiece. | 12-20-2012 |
20130199594 | TRANSPORTABLE PHOTOVOLTAIC SYSTEM - A transportable photovoltaic system includes a plurality of photovoltaic devices, a composite frame to which the plurality of photovoltaic devices are affixed, and a base structure to which the composite frame is movably attached through at least one variable-angle mount structure. The orientation of the frame and the light concentrating elements relative to the base structure can be altered employing the at least one variable-angle mount structure. The frame and the plurality of photovoltaic devices can be assembled prior to shipping, and the base structure can be manufactured on site. The transportable photovoltaic system is not affixed to ground or other fixture, but can be picked up at any time during the operational lifetime. The transportable photovoltaic system can be rapidly deployed with little or no site preparation requirement other than generally level ground, and can be retracted to a lower exposure position to avoid storm and/or hazardous conditions. | 08-08-2013 |
20130199595 | SOLAR CONCENTRATOR COOLING BY VORTEX GAS CIRCULATION - A convective method is employed to cool a solar concentrator device. The convective method employs formation of a vortex gas circulation inside an enclosure of the solar concentrator device, which is bounded by at least one light-path altering component, sidewalls, and a back panel. Optionally, a heat sink assembly can be provided within the enclosure. Internal convention through the vortex gas circulation transfers the heat generated at a photovoltaic cell to all surfaces of the solar concentrator device to facilitate radiative and/or convective cooling at the outside surfaces of the enclosure. | 08-08-2013 |
20130199597 | TRANSPORTABLE PHOTOVOLTAIC SYSTEM - A transportable photovoltaic system includes a plurality of photovoltaic devices, a composite frame to which the plurality of photovoltaic devices are affixed, and a base structure to which the composite frame is movably attached through at least one variable-angle mount structure. The orientation of the frame and the light concentrating elements relative to the base structure can be altered employing the at least one variable-angle mount structure. The frame and the plurality of photovoltaic devices can be assembled prior to shipping, and the base structure can be manufactured on site. The transportable photovoltaic system is not affixed to ground or other fixture, but can be picked up at any time during the operational lifetime. The transportable photovoltaic system can be rapidly deployed with little or no site preparation requirement other than generally level ground, and can be retracted to a lower exposure position to avoid storm and/or hazardous conditions. | 08-08-2013 |
20130233305 | METHOD OF TRACKING AND COLLECTING SOLAR ENERGY - A method of tracking and collecting solar energy includes receiving solar energy on at least two solar energy receivers, measuring an energy output from each of the at least two solar energy receivers, comparing the energy output from one of the at least two solar energy receiver with the energy output from another of the at least two solar energy receivers, and shifting the at least two solar energy receivers until the energy output from the one of the at least two solar receivers is substantially equal to the another of the at least two solar receivers. | 09-12-2013 |
20140026939 | MULTI-ELEMENT PACKAGING OF CONCENTRATOR PHOTOVOLTAIC CELLS - A photovoltaic structure includes, from bottom to top, a conductive substrate, at least one electrical isolation layer, and a patterned conductive material layer. The patterned conductive material layer includes at least one solar concentrator receiver plate configured to mount a photovoltaic concentrator cells and at least one metallic wiring structure. The at least one electrical isolation layer can include a stack of an electrically insulating metal-containing compound layer and an organic or inorganic dielectric material that provides thermal conduction and electrical isolation. The at least one solar concentrator receiver plate can be thicker than the at least one metallic wiring structure so as to provide enhanced thermal spreading and conduction through the at least one electrical isolation layer and into the conductive substrate. | 01-30-2014 |
20140063729 | Techniques for Data Center Cooling - Techniques for cooling in a data center are provided. In one aspect, a computer equipment rack is provided comprising one or more air inlets; one or more exhaust outlets; and one or more of: an air inlet duct mounted to the computer equipment rack surrounding at least a portion of the air inlets, the air inlet duct having a lateral dimension that approximates a lateral dimension of the computer equipment rack and a length that is less than a length of the computer equipment rack, and an air exhaust duct mounted to the computer equipment rack surrounding at least a portion of the exhaust outlets, the air exhaust duct having a lateral dimension that approximates the lateral dimension of the computer equipment rack and a length that is less than the length of the computer equipment rack. | 03-06-2014 |
20140160784 | SECONDARY OPTIC FOR CONCENTRATING PHOTOVOLTAIC DEVICE - A light concentrating optic for use with a photovoltaic device includes a light pipe having a first end portion for receiving light and a second end portion for outputting concentrated light. An optical element is coupled to the light pipe on the first end portion and configured to form an optical interface between the light pipe and the optical element. The optical element includes at least one light transmitting surface configured to redirect incident light entering the optical element to disperse the light to fall incident on side walls of the light pipe to increase homogeneity and intensity of light through the second end portion. | 06-12-2014 |
20140166069 | CONTROLLING A SOLAR TRACKING SYSTEM - A method of tracking the sun is disclosed. A measurement of a gravity vector is obtained in a frame of reference of a solar collector rotatable with respect to an earth center of reference. A measurement of a magnetic direction vector is obtained in the frame of reference of the solar collector. The orientation of the solar collector is determined from the obtained measurement of the gravity vector and the obtained measurement of the magnetic direction. The orientation of the solar collector is altered in order to track the sun. | 06-19-2014 |
20140166070 | THERMAL RECEIVER FOR HIGH POWER SOLAR CONCENTRATORS AND METHOD OF ASSEMBLY - A device for dissipating heat from a photovoltaic cell is disclosed. A first thermally conductive layer receives heat from the photovoltaic cell and reduces a density of the received heat. A second thermally conductive layer conducts heat from the first thermally conductive layer to a surrounding environment. An electrically isolating layer thermally couples the first thermally conductive layer and the second thermally conductive layer. | 06-19-2014 |
20140166071 | THERMAL RECEIVER FOR HIGH POWER SOLAR CONCENTRATORS AND METHOD OF ASSEMBLY - A device for dissipating heat from a photovoltaic cell is disclosed. A first thermally conductive layer receives heat from the photovoltaic cell and reduces a density of the received heat. A second thermally conductive layer conducts heat from the first thermally conductive layer to a surrounding environment. An electrically isolating layer thermally couples the first thermally conductive layer and the second thermally conductive layer. | 06-19-2014 |
20140166752 | METHOD AND APPARATUS TO TAG METAL - A method of tagging an article is disclosed. Data that identifies the article is encoded into at least one stress value. A stress region having a stress that corresponds to the at least one stress value is created in a surface of the article to the tag the article. The at least one stress value is read by a measurement device to read the data and identify the article. | 06-19-2014 |
20140166753 | METHOD AND APPARATUS TO TAG METAL - A method of tagging an article is disclosed. Data that identifies the article is encoded into at least one stress value. A stress region having a stress that corresponds to the at least one stress value is created in a surface of the article to the tag the article. The at least one stress value is read by a measurement device to read the data and identify the article. | 06-19-2014 |
20140199499 | METHOD FOR APPLYING MATERIAL TO A SURFACE - A method for depositing a particle on a work piece is disclosed. The housing is coupled to the work piece to form a chamber and a separation distance between a surface of the work piece and a surface of the housing is controlled using a coupling device. A working gas having a particle entrained therein is directed within the chamber to deposit the particle at the work piece. The coupling between the housing and the work piece may be a slidable coupling. The coupling device may include an air-bearing surface or a gasketed coupling. | 07-17-2014 |
20140199500 | METHOD AND APPARATUS TO APPLY MATERIAL TO A SURFACE - An apparatus for particle deposition is disclosed. The apparatus includes a housing configured to couple to a work piece to form a chamber. A nozzle directs a working gas into the chamber to deposit a particle entrained in the working gas at the work piece. The nozzle may be coupled to a flow channel within the chamber that directs the working gas through the nozzle. The coupling between the housing and the work piece may be a slidable coupling. | 07-17-2014 |
20140290909 | THERMAL GROUND PLANE FOR COOLING A COMPUTER - A method for cooling a computer uses thermal coupling for conveying heat from powered components of an electronic system. A fluid heat-exchanger is attached to the surface of the electronic system and filled with fluid coolant. A vacuum is applied between the heat-exchanger and the surface to seal the heat-exchanger to the electronic system. The fluid coolant is circulated through the heat-exchanger to convey heat from the fluid to an external cooling apparatus. | 10-02-2014 |