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3474results about How to "Reduce reflection" patented technology
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Gradient immersion lithography
InactiveUS20050094116A1Increase the angle of incidenceReduce reflectionRadiation applicationsSemiconductor/solid-state device manufacturingRefractive indexProjection system
In a lithographic projection apparatus, a space between an optical element of a projection system is filled with a first fluid and a second fluid separated by a translucent plate. The first and second fluids have first and second indices of refraction, respectively, that are different from one another. The first fluid is provided in a space between a substrate and the translucent plate and preferably has an index of refraction similar to the index of refraction of the substrate. The second fluid is provided in a space between the translucent plate and the optical element and preferably has an index of refraction similar to the index of refraction of the optical element. The translucent plate has a third index of refraction between the first and second indices of refraction. The third index of refraction may be equal to the first index of refraction or the second index of refraction. A device manufacturing method includes filling a space between the optical element and the substrate with at least two fluids having different indices of refraction.
Owner:ASML NETHERLANDS BV
Optoelectronic element with a non-protruding lens
InactiveUS7067893B2Improve component performanceReduce reflectionSolid-state devicesDiagnostic recording/measuringCamera lensReduced size
An optoelectronic component has a lens that is formed in the surface of an encapsulant surrounding a semiconductor diode element. With respect to emitters, the lens reduces internal reflection and reduces dispersion to increase overall efficiency. With respect to detectors, the lens focuses photons on the active area of the detector, increasing detector sensitivity, which allows a detector having a reduced size and reduced cost for a given application. The lens portion of the encapsulant is generally nonprotruding from the surrounding portions of the encapsulant reducing contact surface pressure caused by the optoelectronic component. This non-protruding lens is particularly useful in pulse oximetry sensor applications. The lens is advantageously formed with a contoured-tip ejector pin incorporated into the encapsulant transfer mold, and the lens shape facilitates mold release.
Owner:JPMORGAN CHASE BANK NA
Volume dimensioning system and method employing time-of-flight camera
ActiveUS8854633B2Cost effectiveLess spaceInvestigating moving sheetsUsing optical meansPattern recognitionTime-of-flight camera
Owner:INTERMEC IP CORP
Volume dimensioning system and method employing time-of-flight camera
ActiveUS20140002828A1Reduce reflectionReduce the impactUsing optical meansContainer/cavity capacity measurementPattern recognitionTime-of-flight camera
Volume dimensioning employs techniques to reduce multipath reflection or return of illumination, and hence distortion. Volume dimensioning for any given target object includes a sequence of one or more illuminations and respective detections of returned illumination. A sequence typically includes illumination with at least one initial spatial illumination pattern and with one or more refined spatial illumination patterns. Refined spatial illumination patterns are generated based on previous illumination in order to reduce distortion. The number of refined spatial illumination patterns in a sequence may be fixed, or may vary based on results of prior illumination(s) in the sequence. Refined spatial illumination patterns may avoid illuminating background areas that contribute to distortion. Sometimes, illumination with the initial spatial illumination pattern may produce sufficiently acceptable results, and refined spatial illumination patterns in the sequence omitted.
Owner:INTERMEC IP
Lens antenna
The invention relates to a lens antenna which comprises a metal loudspeaker (4) and a lens (1), wherein the metal loudspeaker (4) is provided with a feed source; the feed source is embedded in the smaller-diameter end of the metal loudspeaker (4), and the lens (1) is embedded in the larger-diameter end of the metal loudspeaker (4); the lens (1) comprises a core plate (2); the core plate (2) is a planar dielectric plate, and one of the planes is provided with a plurality of core-plate disresonance basic units; a core-plate metal square frame (5) is printed in each core-plate disresonance basicunit; and the areas of the core-plate disresonance basic units and the core-plate metal square frames (5) gradually decrease from the center to the edge of the core plate (2). As the core plate (2) is planar, the lens (1) is easy to manufacture. In addition, the lens (1) also comprises matching plates (3) positioned on both sides of the core plate (2). The matching plates (3) can reduce the reflection of the electromagnetic waves on the interface of the lens (1) and the air.
Owner:SOUTHEAST UNIV
Laser ablation process and apparatus
InactiveUS20020045811A1Reduce Fresnel reflectionMaximize transmitted lightControlling energy of instrumentDiagnostics using spectroscopyFiberLaser light
A laser catheter is disclosed wherein optical fibers carrying laser light are mounted in a catheter for insertion into an artery to provide controlled delivery of a laser beam for percutaneous intravascular laser treatment of atherosclerotic disease. A transparent protective shield is provided at the distal end of the catheter for mechanically diplacing intravascular blood and protecting the fibers from the intravascular contents, as well as protecting the patient in the event of failure of the fiber optics. Multiple optical fibers allow the selection of tissue that is to be removed. A computer controlled system automatically aligns fibers with the laser and controls exposure time. Spectroscopic diagnostics determine what tissue is to be removed.
Owner:KITTRELL CARTER +2
System and method for curing polymeric moldings
A system and method for forming a polymeric molding. A mold component includes a UV-absorptive material for preventing undesired reflection or transmission of curing energy within the mold cavity, thereby providing more precise control of the edge geometry of the molding.
Owner:ALCON INC
Gradient immersion lithography
InactiveUS6954256B2Increase the angle of incidenceReduce reflectionRadiation applicationsSemiconductor/solid-state device manufacturingRefractive indexImmersion lithography
Owner:ASML NETHERLANDS BV
Organic Electroluminescent Device
ActiveUS20110042696A1Improve light outcoupling efficiencyHigh color puritySolid-state devicesVacuum evaporation coatingInter layerRefractive index
An organic electroluminescent device cfomprising: a transparent substrate; a first electrode disposed over the substrate for injecting charge of a first polarity; a second electrode disposed over the first electrode for injecting charge of a second polarity opposite to said first polarity; an organic light-emitting layer disposed between the first and the second electrode, wherein the second electrode is reflective, the first electrode is transparent or semi-transparent, and one or more intermediate layers of dielectric material with a refractive index greater than 1.8 or a metal material is disposed between the substrate and the first electrode forming a semi-transparent mirror whereby a microcavity is provided between the reflective second electrode and the semi-transparent mirror, all the intermediate layers disposed between the substrate and the first electrode having a surface nearest the organic light-emitting layer not more than 150 nm from a surface of the first electrode nearest the organic light-emitting layer.
Owner:CAMBRIDGE DISPLAY TECH LTD
Method for pseudo-differential transmission using modal electrical variables
InactiveUS8049576B2Reduce reflectivityReduce reflectionMultiple-port networksCross-talk reductionElectrical conductorDifferential transmission
The invention relates to a method and a device for pseudo-differential transmission in interconnections used for sending a plurality of electrical signals.The ends of an interconnection having 4 transmission conductors and a return conductor distinct from the reference conductor are each connected to a termination circuit. Three damping circuits are connected between the return conductor and the reference conductor. The transmitting circuits receive at their inputs the signals from the 4 channels of the two sources, and are connected to the conductors of the interconnection. A transmitting circuit in the activated state produces modal electrical variables, each modal electrical variable being allocated to one and only one channel. The receiving circuits are connected to the conductors of the interconnection, each receiving circuit being such that the 4 channels of a source connected to a transmitting circuit in the activated state are sent to the four channels of the destinations, without noticeable echo, internal crosstalk and external crosstalk.
Owner:ZXNOISE LLC
Multichannel interfacing device having a termination circuit
InactiveUS8222919B2Reduce reflectionReduce inductanceMultiple-port networksReliability increasing modificationsDiagonal matrixInterconnection
The invention relates to an interfacing device for transmission through interconnections used for sending a plurality of electrical signals.The interfacing device of the invention comprises signal terminals and a common terminal. A receiving circuit delivers, when the receiving circuit is in the activated state, “output signals of the receiving circuit” determined each by a linear combination of the voltages between one of the signal terminals and the common terminal, to the destination. A termination circuit is such that, when it is in the activated state, it is approximately equivalent, for the signal terminals and the common terminal, to a (m+1)-terminal network such that, for small signals, the impedance matrix, with respect to the common terminal, of the (m+1)-terminal network is equal to a wanted non-diagonal matrix of size m×m.
Owner:ZXNOISE LLC
Light emitting device using led
InactiveUS20040190304A1Extended service lifeEffective coolingDischarge tube luminescnet screensLighting heating/cooling arrangementsLength waveLight emitting device
A light-emitting device (10) using an LED is proposed. This light-emitting device (10) is provided with a packaging substrate (1), a light-emitting element (2) which is mounted on this packaging substrate (1) with its face down, a fluorescent member (3) that is arranged face to face with a light-extracting surface (S) of the light-emitting element (2) without contacting the light-emitting element (2) and an optical member (4) which receives light that has been emitted from the light-emitting element (2) and made incident thereon through the fluorescent member (3), and aligns the incident light toward the outside of the device. Light, emitted from the light-emitting element (2), is made incident on the fluorescent member (3) to excite the fluorescent material so that the fluorescent material re-emits light having a wavelength different from that of the incident light. Those light rays, emitted from the light-emitting element (2), which have not been absorbed by the fluorescent member (3) and have passed through the fluorescent member (3) and those light rays that have been emitted from the fluorescent material are made incident on the optical member (4) and are aligned. Because the fluorescent member (3) is not made in contact with the light-emitting element (2), it does not receive the heat from the light-emitting element (2) through heat conduction, and consequently becomes less susceptible to degradation due to heat. Moreover, with the face-down mounting structure, the fluorescent member (3) and the optical member (4) can be placed closer to the light-emitting element (2) as long as they dose not contact the light-emitting element (2). Consequently, the service life of the fluorescent material or the fluorescent-material-mixed resin that tends to deteriorate can be lengthened, lights can be extracted more efficiently, and light rays can be properly aligned in a predetermined direction.
Owner:MATSUSHITA ELECTRIC WORKS LTD
Semiconductor device
ActiveUS7115966B2Small sizeAvoid influenceTransistorSemiconductor/solid-state device detailsSilicon oxideCopper
On a semiconductor substrate a silicon oxide film is formed and provided with a recess. In the recess a reflector layer of copper is disposed as a blocking layer with a barrier metal posed therebetween. The reflector layer of copper is covered with a silicon oxide film and thereon a fuse region provided with a plurality of fuses is provided. The reflector layer of copper has a plane of reflection recessed downward to reflect a laser beam. The reflector layer of copper is arranged to overlap substantially the entirety of the fuse region, as seen in a plane. A laser beam radiated to blow the fuse can have a reduced effect on a vicinity of the fuse region. A semiconductor device reduced in size can be obtained.
Owner:RENESAS ELECTRONICS CORP
See-through optical system
The embodiments herein describe how if a narrow wave length notch of light is used to illuminate or create an image source then the beam-splitter is only required to transmit over the narrow wavelength notch. If the concave mirror only reflects the same wavelength notch then all other wavelengths will pass through the mirror and be reflected by the beam-splitter. Each of the embodiments uses a method of optical design wherein certain portions or elements of the optical system are used for multiple purposes and / or transmit certain paths of light transmission in multiple directions. This use of multiple purposes and multiple paths produces embodiments of the invention that are smaller and more robust.
Owner:WEISSMAN PAUL
Front electrode for use in photovoltaic device and method of making same
ActiveUS20080210303A1Reduce reflection lossPromote absorptionGlass/slag layered productsCoatingsLight reflectionZinc
This invention relates to a front electrode / contact for use in an electronic device such as a photovoltaic device. In certain example embodiments, the front electrode of a photovoltaic device or the like includes a multilayer coating including at least one transparent conductive oxide (TCO) layer (e.g., of or including a material such as tin oxide, ITO, zinc oxide, or the like) and / or at least one conductive substantially metallic IR reflecting layer (e.g., based on silver, gold, or the like). In certain example instances, the multilayer front electrode coating may include one or more conductive metal(s) oxide layer(s) and one or more conductive substantially metallic IR reflecting layer(s) in order to provide for reduced visible light reflection, increased conductivity, cheaper manufacturability, and / or increased infrared (IR) reflection capability. At least one of the surfaces of the front glass substrate may be textured in certain example embodiments of this invention.
Owner:GUARDIAN GLASS LLC
Circularly-polarized-wave patch antenna which can be used in a wide frequency band
InactiveUS6952183B2Wide bandImprove axle ratioSimultaneous aerial operationsRadiating elements structural formsAxial ratioCoaxial cable
A circularly-polarized-wave patch antenna includes a main body having a patch electrode provided with two feeding points and a circuit for generating a phase difference of 90° between signals supplied to the feeding points. A Wilkinson distribution circuit is provided between the 90°-phase-difference generating circuit and a coaxial cable (feeder line) so as to improve a reflection characteristic. The patch antenna includes two feeding points, and thus a favorable axial ratio characteristic can be obtained in a wide band. Also, a favorable reflection characteristic can be obtained in a wide band because of the Wilkinson distribution circuit. Accordingly, the patch antenna can be used in a wider frequency band.
Owner:ALPS ALPINE CO LTD
Method and apparatus for generating high output power gas discharge based source of extreme ultraviolet radiation and/or soft x-rays
InactiveUS20020168049A1Avoid reflectionsReduce reflectionRadiation/particle handlingNanoinformaticsSoft x rayUltraviolet radiation
An EUV photon source includes a plasma chamber filled with a gas mixture, multiple electrodes within the plasma chamber defining a plasma region and a central axis, a power supply circuit connected to the electrodes for delivering a main pulse to the electrodes for energizing the plasma around the central axis to produce an EUV beam output along the central axis, and a preionizer for ionizing the gas mixture in preparing to form a dense plasma around the central axis upon application of the main pulse from the power supply circuit to the electrodes. The EUV source preferably includes an ionizing unit and precipitator for collecting contaminant particulates from the output beam path. A set of baffles may be disposed along the beam path outside of the pinch region to diffuse gaseous and contaminant particulate flow emanating from the pinch region and to absorb or reflect acoustic waves emanating from the pinch region away from the pinch region. A clipping aperture, preferably formed of ceramic and / or Al2O3, for at least partially defining an acceptance angle of the EUV beam. The power supply circuit may generates the main pulse and a relatively low energy prepulse for homogenizing the preionized plasma prior to the main pulse. A multi-layer EUV mirror is preferably disposed opposite a beam output side of the pinch region for reflecting radiation along the central axis for output along the beam path of the EUV beam. The EUV mirror preferably has a curved contour for substantially collimating or focusing the reflected radiation. In particular, the EUV mirror may preferably have a hyperbolic contour.
Owner:USHIO DENKI KK
Antireflective coating and method of manufacturing same
InactiveUS6359735B1Increase contrastBig imageGlass/slag layered productsCoatingsMicro structureDistributed structure
What is described here is an antireflective coating comprising a carrier layer consisting of an optically transparent material, which, at least on one surface side, presents antireflective properties with respect the wavelengths of the radiation incident on the surface. Moreover, methods of producing the coating are described.The invention excels itself by the provision that the antireflective surface side presents a surface roughness with stochastically distributed structures-the so-called macro structures-and that the macro structures are additionally modulated with surface structures presenting a periodic sequence-the so-called micro structures-which present period or cycle lengths smaller than the wave lengths of the radiation incident on the antireflective surface.
Owner:FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG EV
Tunable microwave devices with auto-adjusting matching circuit
InactiveUS6864757B2Reduce signal reflectionReduce reflectionMultiple-port networksAmplifiers wit coupling networksElectrical conductorCoplanar waveguide
Owner:NXP USA INC
Front electrode for use in photovoltaic device and method of making same
ActiveUS20090084438A1Reduce reflection lossPromote absorptionPhotovoltaic energy generationSemiconductor devicesIr reflectionLight reflection
This invention relates to a front electrode / contact for use in an electronic device such as a photovoltaic device. In certain example embodiments, the front electrode of a photovoltaic device or the like includes a multilayer coating including at least one transparent conductive oxide (TCO) layer (e.g., of or including a material such as tin oxide, ITO, zinc oxide, or the like) and / or at least one conductive substantially metallic IR reflecting layer (e.g., based on silver, gold, or the like). In certain example instances, the multilayer front electrode coating may include one or more conductive metal(s) oxide layer(s) and / or one or more conductive substantially metallic IR reflecting layer(s) in order to provide for reduced visible light reflection, increased conductivity, cheaper manufacturability, and / or increased infrared (IR) reflection capability.
Owner:GUARDIAN GLASS LLC
Data transmission circuit for memory subsystem, has switching circuit that selectively connects or disconnects two data bus segments to respectively enable data transmission or I/O circuit connection
InactiveUS6871253B2Improve acceleration performanceReduce reflectionEnergy efficient ICTDigital data processing detailsElectricityHigh speed memory
A method and associated apparatus is provided for improving the performance of a high speed memory bus using switches. Bus reflections caused by electrical stubs are substantially eliminated by connecting system components in a substantially stubless configuration using a segmented bus wherein bus segments are connected through switches. The switches disconnect unused bus segments during operations so that communicating devices are connected in an substantially point-to-point communication path.
Owner:MICRON TECH INC
Self-packaged optical interference display device having anti-stiction bumps, integral micro-lens, and reflection-absorbing layers
InactiveUS20070020948A1Reduce reflectionStatic indicating devicesVolume/mass flow measurementOptical propertyOptical cavity
An electronic device of an embodiment of the invention is disclosed that at least partially displays a pixel of a display image. The device includes a first reflector and a second reflector defining an optical cavity therebetween that is selective of a visible wavelength at an intensity. The device includes a mechanism to allow optical properties of the cavity to be varied such that the visible wavelength and / or the intensity are variably selectable in correspondence with the pixel of the displayable image. The device also includes one or more transparent deposited films, one or more absorbing layers, an integral micro-lens, and / or one or more anti-stiction bumps. The deposited films are over one of the reflectors, for self-packaging of the device. The absorbing layers are over one of the reflectors, to reduce undesired reflections. The integral micro-lens is over one of the reflectors, and the anti-stiction bumps are between the reflectors.
Owner:PIEHL ARTHUR +3
Multilayer optical adhesives and articles
ActiveUS6842288B1Improve transmittanceReduce distortion problemsMaterial nanotechnologyLayered productsInter layerAdhesive
Described are multilayer optical composites including a first layer having an index of refraction n1, an ith layer having an index of refraction ni greater than n1, and one or two or more intermediate layers between the first layer and the ith layer, wherein the indices of refraction of the intermediate layers are between n1 and ni, and the index of refraction of each intermediate layer increases in the order of position of each layer from the first layer.
Owner:3M INNOVATIVE PROPERTIES CO
Optical designs for high-efficacy white-light emitting diodes
InactiveUS20090001399A1Reduce internal reflectionsHigh refractive indexSolid-state devicesSemiconductor/solid-state device manufacturingPhosphorTransmittance
A method for increasing the luminous efficacy of a white light emitting diode (WLED), comprising introducing optically functional interfaces between an LED die and a phosphor, and between the phosphor and an outer medium, wherein at least one of the interfaces between the phosphor and the LED die provides a reflectance for light emitted by the phosphor away from the outer medium and a transmittance for light emitted by the LED die. Thus, a WLED may comprise a first material which surrounds an LED die, a phosphor layer, and at least one additional layer or material which is transparent for direct LED emission and reflective for the phosphor emission, placed between the phosphor layer and the first material which surrounds the LED die.
Owner:RGT UNIV OF CALIFORNIA
Laser-based method and system for processing targeted surface material and article produced thereby
InactiveUS20060000814A1Prevent unwanted changesSufficient total fluenceAdditive manufacturing apparatusSemiconductor/solid-state device detailsTarget surfaceSlag
A laser-based method and system for processing targeted surface material and article produced thereby are provided. The system processes the targeted surface material within a region of a workpiece while avoiding undesirable changes to adjacent non-targeted material. The system includes a primary laser subsystem including a primary laser source for generating a pulsed laser output including at least one pulse having a wavelength and a pulse width less than 1 ns. A delivery subsystem irradiates the targeted surface material of the workpiece with the pulsed laser output including the at least one pulse to texture the targeted surface material. The pulsed laser output has sufficient total fluence to initiate ablation within at least a portion of the targeted surface material and the pulse width is short enough such that the region and the non-targeted material surrounding the material are substantially free of slag.
Owner:ELECTRO SCI IND INC
Integrated nitride-based acoustic wave devices and methods of fabricating integrated nitride-based acoustic wave devices
ActiveUS7112860B2Reduce unwanted reflectionReduce reflectionPiezoelectric/electrostrictive device manufacture/assemblyPiezoelectric/electrostriction/magnetostriction machinesMOSFETMESFET
A monolithic electronic device includes a substrate, a semi-insulating, piezoelectric Group III-nitride epitaxial layer formed on the substrate, a pair of input and output interdigital transducers forming a surface acoustic wave device on the epitaxial layer and at least one electronic device (such as a HEMT, MESFET, JFET, MOSFET, photodiode, LED or the like) formed on the substrate. Isolation means are disclosed to electrically and acoustically isolate the electronic device from the SAW device and vice versa. In some embodiments, a trench is formed between the SAW device and the electronic device. Ion implantation is also disclosed to form a semi-insulating Group III-nitride epitaxial layer on which the SAW device may be fabricated. Absorbing and / or reflecting elements adjacent the interdigital transducers reduce unwanted reflections that may interfere with the operation of the SAW device.
Owner:CREE INC
Photovoltaic device having multilayer antireflective layer supported by front substrate
InactiveUS20090032098A1Reduce reflectionConvenient coatingCoatingsPhotovoltaic energy generationRefractive indexLength wave
In certain embodiments of this invention, an improved multilayer anti-reflection (AR) coating is provided on the exterior surface of the front glass substrate of a photovoltaic device. This AR coating functions to reduce reflection of desirable wavelengths from the front glass substrate, thereby allowing more light within the desirable solar spectrum to pass through the incident glass substrate and reach the photovoltaic semiconductor film so that the photovoltaic device can operate more efficiently. Also, the AR coating can reduce the amount of undesirable light (e.g., at least some IR and / or UV radiation) which reaches the semiconductor film of the device. In certain example embodiments, the multilayer AR coating includes a plurality of pairs of alternating high refractive index and low refractive index layers.
Owner:GUARDIAN GLASS LLC
Feedback circuit for line load compensation and reflection reduction
InactiveUS20070164779A1Reduce reflectionReliability increasing modificationsElectronic switchingElectrical resistance and conductanceCapacitance
Line load compensation and reflection reduction in a signal transmitting circuit is provided using feedback capacitors. The feedback capacitor serially coupled with a resistance generates an RC rise / fall time that is independent of the line load. Additionally, by selecting a capacitor that yields a rise / fall time of approximately ⅓ of the maximum bit transmission time, signal reflection on the signal line can be reduced. Accordingly, by incorporating the feedback capacitor with a differential drive circuit, such as the IB 485 driver, variations in line load can be compensated for while also reducing signal reflection due to un-terminated or improperly terminated signal lines, thus allowing a free topology implementation.
Owner:HONEYWELL INT INC
Submersible video viewing system
InactiveUS20070242134A1Prevent moisture transmissionFacilitate cable movementTelevision system detailsColor television detailsLight filterVisor
A modular, portable, submersible video viewing system. The system includes a viewing monitor, camera and interconnecting multi-conductor cable that store and deploy for underwater viewing. Webs at the camera housing interconnect to cable clips, bottom support plates, a swivel coupler or steering guide and / or pole to control camera orientation. Alternative rudders and / or hydrodynamic ballast weights (with or without a keel) mount to the webs to control camera tracking when towed. A fish-shaped camera is also disclosed. Alternative stationary supports permit directed or “pan” viewing. A multi-aperture reflection suppressor and etched lens mount to the camera and cooperate with an array of LED's to direct light relative to the viewing field of the camera lens. Various sunshields, lights and / or lenses and filters are optionally mountable to the monitor and camera. Alternative monitor housings are disclosed that contain the viewing monitor, battery and attendant control circuitry and camera. Handles, cable wraps, integral and detachable sunshields, and manual and remote motorized cable take-up spools are also disclosed. Video storage / re-play, combinations of switched multi-frequency lights and display modes of depth and temperature at camera, camera direction and water depth are also included.
Owner:ZERNOV JEFFREY P
Optical Power Beaming to Electrically Powered Devices
InactiveUS20100012819A1Reduce reflectionAvoid possible injuryPhotometry using reference valueElectromagnetic wave systemHot zoneOptical power
Owner:GRAHAM DAVID S
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