Patents
Literature
Hiro is an intelligent assistant for R&D personnel, combined with Patent DNA, to facilitate innovative research.
Hiro

125 results about "Color solid" patented technology

A color solid is the three-dimensional representation of a color model, an analog of the two-dimensional color wheel. The added spatial dimension allows a color solid to depict an added dimension of color variation. Whereas a two-dimensional color wheel typically depicts the variables of hue (red, green, blue, etc.) and lightness (gradations of light and dark, tints or shades), a color solid adds the variable of colorfulness (either chroma or saturation), allowing the solid to depict all conceivable colors in an organized three-dimensional structure.

Solid-state imaging device

A solid-state imaging device including a substrate corresponding to a pixel. The substrate carries thereon a light receiving section, which is a stack of, in this order, a photoconductive layer for absorbing light in a wavelength region for red, a photoconductive layer for absorbing light in a wavelength region for green, and a photoconductive layer for absorbing light in a wavelength region for blue. A transparent electrode layer is provided on each of the photoconductive layers. The transparent electrode layer placed above the photoconductive layer and the transparent electrode layer placed below the photoconductive layer are sandwiching a translucent reflective layer for reflecting the light in the green wavelength region. Similarly, a translucent reflective layer is sandwiched between the transparent electrode layer placed above the photoconductive layer and the transparent electrode layer placed below the photoconductive layer for reflecting the light in the blue wavelength region. With such a structure, successfully provided is a single-plate color solid-state imaging device of a photoconductive-layer-stacked type achieving the higher color resolution and the better sensitivity.
Owner:SONY SEMICON SOLUTIONS CORP

High cri lighting device with added long-wavelength blue color

Solid state lighting devcies include least one solid state emitter and multiple lumiphors, arranged to output aggregated emissions comprising at least one short wavelength blue peak, at least one long wavelength blue (LWB) peak, at least one yellow and / or green peak, and at least one red and / or orange peak. Presence of long wavelength blue enhances color rendering. At least one solid state emitter may include a short wavelength blue LED, LWB LED, and / or UV LED. Multiple emitters may be provided. Resulting devices may provide CRI greater than 85, efficiency of greater than 50 lm / watt, and color stability in a range of Δu′v′≦0.008 over a temperature change of 75° C.
Owner:CREELED INC

Color solid-state image pickup device

A color solid-state image pickup device comprises a plurality of light-receiving sections being arranged on the surface of a semiconductor substrate; complementary color filters which are stacked on all or portions of the plurality of light-receiving sections, each complementary color filter blocking incident light of one color of the three primary colors, to thereby permit transmission of incident light of remaining two colors; at least first and second color signal detecting layers which have the complementary color filters stacked thereon and are formed so as to be separated in a depthwise direction of the light-receiving section, the first and second signal detecting layers detecting a respective color signal of the light of two colors having passed through the complementary color filters; and a signal reading unit for reading the respective color signals in a distinguished manner, the signal reading unit being connected to the respective color signal detecting layers.
Owner:FUJIFILM CORP

Multi-color solid state light emitting device

A light emitting device for simulating neon light and method for doing the same. The light emitting device includes an elongated container having a combination of fluorescent pigment and phosphorescent pigment embedded therein. The light emitting device further includes a plurality of light emitting diodes aligned within the container. Finally, the light emitting device includes electrical means for providing electricity to the plurality of diodes.
Owner:BLOOMFIELD JOSEPH +2

Method for recording and viewing stereoscopic images in color using multichrome filters

The aim of the invention is to create techniques for the encoding, production and viewing of stereograms, supplemented by methods for selecting certain optical filters needed in these novel techniques, thus providing a human observer with stereograms each of which consist of a single image for viewing through special filter pairs, the stereogram encoding essentially the full color information of the original stereogram or of the original scene, while at the same time encoding the full parallactic depth of the original stereogram or the parallactic depth that would normally be found in a conventional stereogram recorded of the scene. The invention makes use of a color-based encoding technique and viewing filters selected so that the human observer receives, in one eye, an image of nearly full color information, in the other eye, an essentially monochrome image supplying the parallactic differences prescribed by the stereoscopic principle and supplementing the color perception. For selecting the filters, the invention suggests an auxiliary test. For encoding the stereograms, the invention suggests a special process of channel separation and replacement. For color correction in the resulting image, the invention suggests a multistage process. Generally speaking, the best results are obtained when all of these are used together.
Owner:SORENSEN SVEND ERIK BORRE +2

Multi element, multi color solid state LED/laser

A light emitting diode (LED) grown on a substrate doped with one or more rare earth or transition element. The dopant ions absorb some or all of the light from the LED's active layer, pumping the electrons on the dopant ion to a higher energy state. The electrons are naturally drawn to their equilibrium state and they emit light at a wavelength that depends on the type of dopant ion. The invention is particularly applicable to nitride based LEDs emitting UV light and grown on a sapphire substrate doped with chromium. The chromium ions absorb the UV light, exciting the electrons on ions to a higher energy state. When they return to their equilibrium state they emit red light and some of the red light will emit from the LED's surface. The LED can also have active layers that emit green and blue and UV light, such that the LED emits green, blue, red light and UV light which combines to create white light. Alternatively, it can have one active layer and grown on a sapphire substrate doped with Cr, Ti, and Co such that the substrate absorbs the UV light and emits blue, green, and red light. The invention is also capable of providing a tunable LED over a variety of color shades. The invention is also applicable to solid state laser having one or more active layers emitting UV light with the laser grown on a sapphire substrate doped with one or more rare earth or transition elements.
Owner:CREE INC

Method of driving solid-state imaging device, solid-state imaging device and camera

To provide a solid-state imaging device driving method, a solid-state imaging device and a camera in which the solid-state imaging device is able to operate at a high speed without a change of an angle of view and without a mixture of colors in a color solid-state imaging device by reducing an amount of data in the horizontal direction to ½. In a solid-state imaging device of a two-dimensional arrangement having a pixel comprising a light-receiving accumulation unit, a vertical register or a vertical register having a light-receiving function and a horizontal register, signal electric charges of pixels distant from each other on one row are transferred to the horizontal register, these signal electric charges are mixed within the horizontal register, and the mixed signal electric charge is transferred in the horizontal direction.
Owner:SONY CORP

Adjustable color solid state lighting

A multi-channel light source has different channels for generating illumination of different channel colors corresponding to the different channels. An electrical power supply selectively energizes the channels using time division multiplexing to generate illumination of a selected time-averaged color.
Owner:SAVANT TECH LLC

Photoelectric-conversion-layer-stack-type color solid-state imaging device

A color solid-state imaging device including: a semiconductor substrate; a photoelectric conversion layer provided over the semiconductor substrate, for absorbing light of a first color among three primary colors so as to generate photocharges; plural charge storage regions arranged in a surface layer of the semiconductor substrate, for storing the photocharges; plural first photodiodes arranged in the surface layer of the substrate, for detecting mixed light of second and third colors among the three primary colors that has passed through the photoelectric conversion layer and for storing generated photocharges; plural second photodiodes arranged in the surface layer of the semiconductor substrate, for detecting light of the second color of the mixed light that has passed through the photoelectric conversion layer and for storing generated photocharges; color filter layers provided over the second photodiodes, for interrupting light of the third color; and signal reading units as defined herein.
Owner:FUJIFILM CORP

Colored microlens array and manufacturing method for colored microlens array, color solid-state image capturing device and manufacturing method for color solid-state image capturing device, color display apparatus and manufacturing method for color display apparatus, and electronic information device

A colored microlens array includes a plurality of microlenses for focusing incident light on a plurality of respective positions, on a substrate or a transparent film provided on the substrate, in which peripheral sections of the plurality of microlenses overlap each other at the adjacent positions and the microlenses are colored in a plurality of colors and arranged in a predetermined color arrangement.
Owner:SHARP KK

Single plate-type color solid-state image sensing device

A color solid-state image sensing device including: a semiconductor substrate having a surface portion where high density impurity regions connected to signal reading circuits respectively are formed; a blue light detecting photodiode formed in a shallow portion of the semiconductor substrate; and a red light detecting photodiode formed in a deep portion of the semiconductor substrate, wherein connection regions which are provided so as to be continued to the photodiodes respectively and exposed to the surface of the semiconductor substrate are formed only in portions adjacent to the high density impurity regions so that electric charge accumulated in each photodiode can be transferred to corresponding one of the corresponding high density impurity regions.
Owner:FUJIFILM CORP +1

Image sensor and digital camera

InactiveUS7742088B2High-sensitivity, high-resolution, and faithful color reproductionTelevision system detailsTelevision system scanning detailsImage resolutionPhotoelectric conversion
A color solid-state image pickup device includes a plurality of photoelectric conversion areas provided in an array pattern on a surface of a semiconductor substrate. The inside of each of photoelectric conversion areas 10 is two-dimensionally partitioned into a plurality of segments R, G1, G2, and B which output a plurality of photoelectric conversion signals of different spectral sensitivities. As a result, occurrence of a false signal and a false color is suppressed, and high-sensitivity, high-resolution image data having superior color reproducibility can be obtained.
Owner:FUJIFILM CORP

Color solid-state image capturing apparatus and electronic information device

A color solid-state image capturing apparatus is provided, where a plurality of light receiving sections are arranged on a light receiving surface of an image capturing area, a plurality of color filters are positioned in a constant period above the plurality of light receiving sections, and a plurality of microlenses for focusing light on the plurality of respective light receiving sections are positioned on the plurality of color filters, and a plurality of color signals are output in accordance with the plurality of color filters, where the constant period of the plurality of color filters is defined as a unit, and the size of the plurality of microlenses is variable for each light receiving section so that the ratio of the plurality of color signals is constant in the unit.
Owner:SHARP KK

Solid-state imager and solid-state imaging device

There is provided a single-chip color solid-state imager of a backside illumination type having high sensitivity and low noise that facilitates the miniaturization of a pixel size. A pixel readout circuit is selectively disposed on a part of pixels of a readout block consisting of a plurality of pixels that share the pixel readout circuit.
Owner:KK TOSHIBA

Color solid-state image pickup device and method for reading out pixel signals

A color solid-state image pickup device includes a pixel section having sets of a total of four adjacent pixels arrayed 2×2 in horizontal and vertical directions. Each of the sets consists of an first pixel serving as an upper left pixel and having a first spectral characteristic, a second pixel serving as an upper right pixel and having a second spectral characteristic, a third pixel serving as a lower left pixel and having a third spectral characteristic, and a fourth pixel serving as a lower right pixel and having a fourth spectral characteristic. The pixel section is formed by arraying the sets in the horizontal and vertical directions so that the sets form a matrix. The color solid-state image pickup device uses, as a unit of addition, a total of 16 pixels consisting of four adjacent sets arrayed 2×2 in the horizontal and vertical directions. The color solid-state image pickup device adds up and reads out respective pixel signals of the pixels. The color solid-state image pickup device creates a luminance signal by adding up and reading out respective pixel signals of the first, second, third, and fourth pixels constituting the set. This makes it possible to achieve both high sensitivity and high resolution by inhibiting the resolution from being reduced by adding up pixel signals.
Owner:SHARP KK

Photoelectric conversion layer stack type color solid-state imaging device

A color solid state imaging device as defined herein, which includes an output signal processing section including: signal memory means provided for respective columns of the unit pixels, for holding signals read-cut from the pixels of the same color of the same unit pixel row, respectively; and row-direction scanning control means for switching between an all pixels reading operation in which the signals held by the respective signal memory means are read out individually and output to the outside and a sum reading operation in which among the signals held by the respective signal memory means signals held by signal memory means corresponding to adjoining unit pixels are read out simultaneously and output to the outside.
Owner:FUJIFILM CORP

Method and system of forming a stereo image

The invention relates to systems for performing color stereoscopic images and can be used for creating stereoscopic computer monitors and TV sets. A technical result consists in performing a color stereoscopic image with high sharpness without geometric distortions, with a maximum of resolution and a wide field of vision.A concept of the invention consists in that produced are the “left” and “right” color frames of a stereoscopic pair, decomposing the “left” and “right” color frames of the stereoscopic pair with reference to two different kits of primary colors Z1 and Zr, respectively (a primary color kit includes at least three spectral independent colors), displaying the “left” and “right” color frames of the stereoscopic pair using the kits of primary colors Z1 and Zr, respectively (“left” frame—with the use of the kit of primary colors Z1, “right” frame—with the use of the kit of primary colors Zr), filtering the colors of kits Z1 and Zr such that a viewer can see the “left” frame of the stereoscopic pair by the left eye and cannot see the “right” one and can see the “right” frame of the stereoscopic pair by the right eye and cannot see the “left” one.
Owner:GASKEVICH EVGENY BORISOVICH

Multi element, multi color solid state LED/laser

A light emitting diode (LED) grown on a substrate doped with one or more rare earth or transition element. The dopant ions absorb some or all of the light from the LED's active layer, pumping the electrons on the dopant ion to a higher energy state. The electrons are naturally drawn to their equilibrium state and they emit light at a wavelength that depends on the type of dopant ion. The invention is particularly applicable to nitride based LEDs emitting UV light and grown on a sapphire substrate doped with chromium. The chromium ions absorb the UV light, exciting the electrons on ions to a higher energy state. When they return to their equilibrium state they emit red light and some of the red light will emit from the LED's surface. The LED can also have active layers that emit green and blue and UV light, such that the LED emits green, blue, red light and UV light which combines to create white light. Alternatively, it can have one active layer and grown on a sapphire substrate doped with Cr, Ti, and Co such that the substrate absorbs the UV light and emits blue, green, and red light. The invention is also capable of providing a tunable LED over a variety of color shades. The invention is also applicable to solid state laser having one or more active layers emitting UV light with the laser grown on a sapphire substrate doped with one or more rare earth or transition elements.
Owner:CREE INC

Single plate-type color solid-state image sensing device

A color solid-state image sensing device including: a semiconductor substrate having a surface portion where high density impurity regions connected to signal reading circuits respectively are formed; a blue light detecting photodiode formed in a shallow portion of the semiconductor substrate; and a red light detecting photodiode formed in a deep portion of the semiconductor substrate, wherein connection regions which are provided so as to be continued to the photodiodes respectively and exposed to the surface of the semiconductor substrate are formed only in portions adjacent to the high density impurity regions so that electric charge accumulated in each photodiode can be transferred to corresponding one of the corresponding high density impurity regions.
Owner:FUJIFILM CORP +1

Color solid plate manufacture method

The invention provides a method for manufacturing a colored solid wood panel, belongs to a processing method for wood utilization, and in particular relates to a method for manufacturing a multi-layer colored panel. The invention aims to provide a method for manufacturing a multi-layer colored panel which overcomes the defects of natural wood and effectively solves the problems of looseness and softness, susceptibility to corrosion, flammability, and the like of fast growing wood. The multi-layer colored panel has the characteristics of environmental protection, inflame retarding, moisture resistance, corrosion resistance, wearing resistance, difficult deformation and strong plasticity.
Owner:王殿国

Use of one LED to represent various utility rates and system status by varying frequency and/or duty cycle of LED

A demand supply management system for an appliance receives information related to cost of energy use and communicates data to the associated appliance in response thereto. A single chip, light emitting diode (LED) device is preferably associated with a module or portion of the home appliance. The LED device conveys information relating to at least two of cost of energy use, signal strength, and module status. The LED device is preferably a single chip, single color solid-state LED device that is selectively actuated between “illuminated” and “non-illuminated” states, steady on, slow flash, fast flash, varying duration, intermittent “illuminated” and “non-illuminated”, etc. to convey information to the user.
Owner:HAIER US APPLIANCE SOLUTIONS INC

Color solid-state imaging device, solid-state imaging apparatus using the color solid-state imaging device, and digital camera

A color solid-state imaging device used in combination with an interference-type infrared cut filter, the element comprises a coloring material which is contained in or formed on any of layers provided within an incident light path in the color solid-state imaging device, wherein the coloring material absorbs an incident light within a wavelength range in which a cut wavelength of the interference-type infrared cut filter shifts toward shorter wavelengths when the incident light obliquely enters the interference-type infrared cut filter.
Owner:FUJIFILM CORP

Solid Polymeric Colorant Compositions

This invention relates to solid forms of polymeric colorants and the methods and processes for manufacturing the solid colorants. These solid polymeric colorants may be provided in the form of a free-flowing powder and may be useful for coloring solid pucks, tablets, powder detergents, soaps, fertilizers, personal care products, adhesives, sealants, thermoplastic polymers, thermosetting polymers, and the like.
Owner:MILLIKEN & CO

Led-based large area display

ActiveUS20140014983A1Eliminates color driftDifficult to calibrateSolid-state devicesNanoopticsPhotoluminescenceLed array
An improved approach is described to implement an LED-based large area display which uses an array of single color solid state lighting elements (e.g. LEDs). In some embodiments, the panel comprises an array of blue LEDs, where each pixel of the array comprises three blue LEDs. An overlay is placed over the array of blue LEDs, where the overlay comprises a printed array of phosphor portions. Each pixel on the PCB comprised of three blue LEDs is matched to a corresponding portion of the overlay having the printed phosphor portions. The printed phosphor portions of the overlay includes a number of regions of blue light excitable phosphor materials that are configured to convert, by a process of photoluminescence, blue excitation light generated by the light sources into green or red and colored light. Regions of the overlay associated with generating blue light comprise an aperture / window that allows blue light to pass through the overlay.
Owner:INTEMATIX

Adhesive caulking material which can mimic the appearance of a multicolored stone surface

An adhesive caulking material comprising granular solid colored particles dispersed in a base formulation is disclosed. The adhesive caulking material exhibits a cosmetic capacity to take on the appearance of a natural or synthetic solid substrate. A method is provided for producing the adhesive caulking material comprising the steps of: (a) providing a base formulation exhibiting a desired background color; and (b) adding to the base formulation an amount of granular solid colored particles effective to achieve a desired appearance. The invention also relates to colored solid chips comprising a coagulated or aggregated mixture comprising a polymeric resin and an amount of one or more pigments sufficient to obtain a desired single- or multi-colored appearance. The chips have a granular shape and have a size in the range from about 0.25 mm to about 20 mm in diameter. A solid material is also described which comprises: (a) a solid substrate comprising a plurality of sections with gaps therebetween; the substrate having a speckled or grainy appearance; and (b) a curable adhesive caulking material comprising granular solid colored particles dispersed in a base formulation, the adhesive caulking material substantially filling the gaps and essentially matching the appearance of the substrate.
Owner:GLOUCESTER

Color solid photographic device

To solve problems of a conventional moving picture photographing using a high pixel density color solid-state imaging element that reflected noise intruded to a low frequency region of a high frequency video signal due to resampling is unavoidable and the effective sensitivity is remarkably deteriorated through aborted pixel signals although interleaved pixel reading represented by pixel interleaving in the vertical direction is generally employed. Pixel areas of the high pixel density color solid-state imaging element are divided into areas in units of pixel mixture, and all pixels in the same color are respectively mixed in each of the area divisions (16 to 19) to increase the pixel utilizing rate to 100%, and the spatial LPF effect of area pixel mixing remarkably suppresses the intrusion of reflected noise to the low frequency region of the high frequency video signal.
Owner:PANASONIC SEMICON SOLUTIONS CO LTD
Who we serve
  • R&D Engineer
  • R&D Manager
  • IP Professional
Why Patsnap Eureka
  • Industry Leading Data Capabilities
  • Powerful AI technology
  • Patent DNA Extraction
Social media
Patsnap Eureka Blog
Learn More
PatSnap group products