37th week of 2008 patent applcation highlights part 25 |
Patent application number | Title | Published |
20080218606 | IMAGE PROCESSING DEVICE, CAMERA DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM - Disclosed herein is an image processing device capable of correcting distortion of au original image picked up bad a wide-angle lens using distortion correcting parameters formed in a form of a lattice. The image processing device includes a processing unit configured to sharably process distortion correcting parameters for at least one of an arbitrary pan angle and an arbitrary tilt angle on a basis of a fact that distortion of the wide-angle lens has symmetry from a central point of an optical axis. | 2008-09-11 |
20080218607 | DISTORTION CORRECTION FOR PHOTOGRAPHING DEVICE - A photographing device comprises a lens and a camera. The camera body has an imaging device and an image-processing unit that performs distortion correction on the basis of information regarding distortion quantity, as part of an image processing of an image signal obtained by the imaging device through the lens. The distortion quantity has at least one of first distortion quantity of the lens and second distortion quantity of the imaging device. The information has a coefficient of an approximation formula for the distortion correction on a two-dimensional coordinate system for the distortion correction. The two-dimensional coordinate system is set on an image obtained by the image processing of the image signal. | 2008-09-11 |
20080218608 | Apparatus and method for reducing edge effect in an image sensor - A method and apparatus for forming dummy pixels exhibiting electrical characteristics virtually identical to the clear pixels of the imaging array. Arrays of such dummy pixels are used to form regions that isolate the main imaging array and sub-arrays of optical black pixels while preventing edge effects. The dummy pixels are preferably clear but can also be covered with optical black. By setting quiescent operation in soft reset, the dummy pixels exhibit the diode ideality and R | 2008-09-11 |
20080218609 | Cross-coupled differential Dac-based black clamp circuit - A black clamp circuit for an image sensor utilizes a differential programmable gain amplifier and a feed-back loop to adjust a black level based on comparison to a reference black level. The gain (and therefore step size and range) of the feed-back loop constant for all programmable gain amplifier gain settings. The gain of the fee-back loop is kept constant by adjusting the values of programmable capacitors in the circuit. | 2008-09-11 |
20080218610 | Methods and Apparatus for Detecting Defects in Imaging Arrays by Image Analysis - Methods for detecting defective pixels in imaging arrays involve establishing probabilities that individual pixels are defective and updating those probabilities by analysing images acquired by the imaging arrays. Probabilities may be evaluated for each of two or more defect conditions. The methods may be used to detect defects such as stuck-low, stuck-high, high-sensitivity, low sensitivity, hot, and defect-free conditions. Other more complicated defect conditions can also be detected. Apparatus for detecting defective pixels may be integrated with a camera or other imaging device or provided separately. | 2008-09-11 |
20080218611 | METHOD AND APPARATUS FOR OPERATING A DUAL LENS CAMERA TO AUGMENT AN IMAGE - An electronic camera for producing an output image of a scene from a captured image signal includes a first imaging stage comprising a first image sensor for generating a first sensor output and a first lens for forming a first image of the scene on the first image sensor, and a second imaging stage comprising a second image sensor for generating a second sensor output and a second lens for forming a second image of the scene on the second image sensor. The sensor output from the first imaging stage is used as a primary output image for forming the captured image signal and the sensor output from the second imaging stage is used as a secondary output image for modifying the primary output image, thereby generating an enhanced, captured image signal. | 2008-09-11 |
20080218612 | CAMERA USING MULTIPLE LENSES AND IMAGE SENSORS IN A RANGEFINDER CONFIGURATION TO PROVIDE A RANGE MAP - An electronic camera for producing an output image of a scene from a captured image signal includes a first imaging stage comprising a first image sensor for generating a first sensor output and a first lens for forming a first image of the scene on the first image sensor, and a second imaging stage comprising a second image sensor for generating a second sensor output and a second lens for forming a second image of the scene on the second image sensor, where the lenses have different focal lengths. A processing stage uses the sensor output from one of the imaging stages as the captured image signal and uses the images from both imaging stages to generate a range map identifying distances to the different portions of the scene. | 2008-09-11 |
20080218613 | CAMERA USING MULTIPLE LENSES AND IMAGE SENSORS OPERABLE IN A DEFAULT IMAGING MODE - An electronic camera includes first and second imaging stages for capturing separate images of a scene, one of the stages being designated as a default imaging stage. A processor enables capture and display of the separate images, and further responds to an operator selection of one of the imaging stages as a primary capture unit which is to be primarily used for capturing an image of the scene that is stored by the digital camera. If the operator selection does not occur within a predetermined time period, or if the camera is actuated before the time has run out, the processor automatically selects the default imaging stage as the primary capture unit. | 2008-09-11 |
20080218614 | Dynamic range enhancement scheme for imagers - An imaging system implementing a scheme for enhancing the dynamic range of the device. An array of radiation detecting pixels produces an output in response to a stimulus. The signal from each pixel is read once for evaluation. If the voltage at an individual pixel satisfies a programmed condition, such as exceeding a predetermined threshold voltage at a particular time, that pixel is reset and begins producing an output signal anew. If the pixel output signal does not satisfy the condition, it is allowed to continue producing the signal without being reset. After the evaluation read, all of the pixels are then read row by row into a buffer and digitally processed. A memory register tracks which pixels have been reset, and the corresponding output signals are adjusted accordingly. This scheme allows the system to process input signals across a broader range of intensity without losing information due to pixel saturation or sacrificing sensitivity. | 2008-09-11 |
20080218615 | Apparatus and method for stabilizing image sensor black level - A black clamp stabilization circuit for an image sensor utilizes a mixed-signal SoC block comprising sub-blocks to dynamically and precisely adjust the black level based on comparison to a reference black level. The black level adjustments include a first level regulation using digital control of an analog signal in a feedback loop that includes a programmable gain amplifier and high-resolution A/D converter. By applying the black clamping in the analog domain, dynamic range is extended. Additional black level regulation is subsequently performed in the digital domain to differentially eliminate line noise and column noise generated within the imaging System-on-Chip. By providing information between the sub-blocks, the algorithms can converge more quickly. The technique enables multiple signal paths to separately handle individual colors and to increase imaging data throughput. | 2008-09-11 |
20080218616 | Method and apparatus for video acquisition - A system for video acquisition has a mechanism for sensing the integrated brightness on an image sensor. When the integrated brightness at a sensor element reaches a predetermined level, a message including the spatial position of the sensor element is sent. The message may also include a timestamp indicative of the time of the message. As such, the video acquisition provides a sequence of messages. The integrated brightness can be obtained from counting the photons or measuring the electrical charges produced by the photons. When the message has been generated and sent, the photon counter or electrical charge accumulator is reset to an initial value, typically zero. It is also possible to provide the integrated brightness as sensed at a master sensor element so that the sending of messages is also based on the integrated brightness at the master sensor element. | 2008-09-11 |
20080218617 | Image Capturing Apparatus and Image Capturing Method - There are provided a device and a method for converting an electric signal attributed to a plurality of characteristic conversion into a state attributed to a linear conversion and preventing increase of the device size. An image capturing apparatus | 2008-09-11 |
20080218618 | Digital Image Capturing Device with Scan Type Flash - The invention relates to a digital image capturing device ( | 2008-09-11 |
20080218619 | SOLID-STATE IMAGE SENSING DEVICE - There is provided a solid-state image sensing device including a pixel section in which cells are arrayed, each cell including a photoelectric conversion unit, a reading circuit reading out, to a detection unit, signal charges obtained by the photoelectric conversion unit, an amplifying circuit amplifying and outputting a voltage corresponding to the signal charges, and a reset circuit resetting the signal charges, an exposure time control circuit controlling an exposure time and controlling the exposure time to be equal for all cells, an A/D conversion circuit A/D-converting a signal output from the pixel section by changing a resolution of a signal level, line memories storing an A/D-converted signal, and a signal processing circuit processing output signals from the line memories to have a linear gradient with respect to an optical input signal amount by controlling an amplification factor in accordance with a resolution of a pixel output signal after A/D-conversion. | 2008-09-11 |
20080218620 | ULTRA LOW NOISE CMOS IMAGER - A column buffer for use with a pixel cell array includes an amplifier coupled to three read-out circuits in parallel providing a signal corresponding to accumulated photon-generated charge in a pixel cell plus noise, a reset level plus noise, and a pedestal level, respectively. These three signals are used to generate an ultra-low noise signal D | 2008-09-11 |
20080218621 | High intrascene dynamic range NTSC and PAL imager - The invention provides a new method and apparatus for NTSC and PAL image sensors which employs fusion of adjacent row pixel charge samples to generate image data for a row. A variety of fusion schemes are possible for fusing the pixel signals from the adjacent rows. The rows of pixels are scanned so that each scan takes an odd row signal sample and, in some cases, an adjacent even row signal sample when specified conditions are met. One sampled row of the two adjacent rows integrate an image with a first integration period while the other adjacent row integrates an image with a second integration period. | 2008-09-11 |
20080218622 | Image Pickup Camera - An image pickup apparatus includes a photographing optical system; a photographing preparation manipulation judgment device; a photographing implementing manipulation judgment device; a timer adapted for counting a time period from outputting of a signal from the photographing preparation manipulation judgment device to outputting of the signal from the photographing implementing manipulation judgment device; a focus driving device for changing a focused state of an object by changing a positional relation of the lens relative to an image pickup face; an auto focusing (AF) data detector for detecting AF data representative of a distance face up to the object or the focused state of the object; a time-series AF data collector for driving the AF data detector at an interval of a present time period and obtaining the AF data in a chronological manner; and an object movement presumption calculator for presuming changes in distance of the object from the time-series AF data calculating focus moving amount. When the time counted by the timer is not larger than the preset time period, auto focusing operation is implemented based on the focus moving amount calculated by the object movement presumption calculator. | 2008-09-11 |
20080218623 | ACCURATELY-ALIGNED CAMERA MODULE AND METHOD FOR MAKING SAME - A camera module includes an image sensor, a lens module and a holder. The holder defines a cavity, the cavity including a first receiving portion, with the lens module received therein, and a second receiving portion. The side surface of the image sensor tightly contacts the inner surface of the holder surrounding the second receiving portion. In the camera module, an optical center of the image sensor can keep accurately aligning with an optical center of the lens module. Accordingly, the camera module can keep good quality for imaging. A method for making the camera module is also provided. | 2008-09-11 |
20080218624 | IMAGE PICKUP APPARATUS - An image pickup apparatus includes an optical system which forms an image based on light from object, an image pickup device which acquires the image of the object, a display section which displays the object, and a focusing detection inoperative condition and a focusing detection operative condition. The image pickup apparatus further includes an image pickup instructing section (release button) which instructs an image of the object to be picked up, and a control section which performs control such that when the image pickup instructing section (release button) is in the focusing detection operative condition, an image in the focusing detection inoperative condition is displayed on the display section. | 2008-09-11 |
20080218625 | CAMERA HAVING AN OPTICAL FINDER - A camera according to the present invention includes a picture-taking lens unit including a picture-taking optical system having a bending optical system which optically bends incident light and an optical finder unit including a finder optical system having a bending optical system which optically bends incident light. A pre-bending optical system and a post-bending optical system in the bending optical system of the optical finder unit are arranged adjacent to a pre-bending optical system and a post-bending optical system in the bending optical system of the picture-taking lens unit, respectively. The body of the camera is therefore decreased in size. | 2008-09-11 |
20080218626 | CAMERA UNIT FOR DRIVING LENSES AND METHOD OF MANUFACTURING THE SAME - A camera unit includes a soft substrate on which electrode regions and an image pickup device region are disposed, a driving electrode group disposed on one of the electrode regions, an image pickup device disposed on the image pickup device region, stationary unit frame attaching portions disposed at positions surrounding the image pickup device region, a stationary unit frame attached to the stationary unit frame attaching portions, and movable units disposed in the stationary unit frame. The soft substrate is bent along bending positions between the electrode regions and the image pickup device region, the electrode regions are fixed on sides of the stationary unit frame inwardly thereof, and the image pickup device region is fixed on an end surface of the stationary unit frame toward the movable units. | 2008-09-11 |
20080218627 | IMAGE CAPTURING SYSTEM - An image capturing system comprises an image sensor and a mechanical shutter, wherein a charge accumulation operation of the pixels of each row of the image sensor starts at a timing of ending a reset operation, and ends at a timing of causing the mechanical shutter to set a light-shielded state of the pixels of each row, the reset operation of the pixels of each row of the image sensor is performed to select rows sequentially in a first direction from an upper surface to a lower surface of a housing, the mechanical shutter ends exposure of the image sensor while causing a shutter curtain to run in the first direction, and a readout operation of the pixels of each row of the image sensor is done to select rows sequentially in a second direction reverse to the first direction. | 2008-09-11 |
20080218628 | Decoder Device And Receiver Using The Same - A decoder apparatus which includes a de-multiplexer, which is configured to divide motion picture data from a transport stream, a video decoder, which is configured to decode the divided motion picture data, and a first re-formatter on-screen unit, which is configured to display motion picture data and at least one of first and second graphic data on a screen. The first re-formatter on-screen unit converts motion picture data of a first aspect ratio, which is decoded by the video decoder, and first graphics data, which is produced by applying information relating to a caption corresponding to the motion picture data, into a second aspect ratio, when outputting the motion picture data of the first aspect ratio after conversion into the second aspect ratio, without converting the aspect ratio of second graphic data, which is produced by applying information relating to a program guide. | 2008-09-11 |
20080218629 | Method and system for processing image data in LCD by integrating de-interlace and overdrive operations - A system for integrating de-interlace and overdrive operations includes a de-interlace device, a first frame scaling controller, a second frame scaling controller and an overdrive device. The de-interlace device performs a de-interlace operation on plural fields to thereby obtain plural frames. The first frame scaling controller receives a first frame among the plural frames and performs a vertical and horizontal scaling operation on the first frame to thereby produce a first display frame. The second frame scaling controller receives a second frame among the plural frames and performs a vertical and horizontal scaling operation on the second frame to thereby produce a second display frame. The overdrive device produces a driving voltage based on a difference between a pixel of the second display frame and a pixel of the first display frame corresponding to the pixel of the second display frame. | 2008-09-11 |
20080218630 | Content-Dependent Scan Rate Converter with Adaptive Noise Reduction - A content-dependent scan rate converter with adaptive noise reduction that provides a highly integrated, implementation efficient de-interlacer. By identifying and using redundant information from the image (motion values and edge directions), this scan rate converter is able to perform the tasks of film-mode detection, motion-adaptive scan rate conversion, and content-dependent video noise reduction. Adaptive video noise reduction is incorporated in the process where temporal noise reduction is performed on the still parts of the image, thus preserving high detail spatial information, and data-adaptive spatial noise reduction is performed on the moving parts of the image. A low-pass filter is used in flat fields to smooth out Gaussian noise and a direction-dependent median filter is used in the presence of impulsive noise or an edge. Therefore, the selected spatial filter is optimized for the particular pixel that is being processed to maintain crisp edges. | 2008-09-11 |
20080218631 | Television set and audio output unit - An audio output device includes an audio control circuit outputting to an audio amplifier an audio control signal generated based on a volume signal supplied from an audio adjustment switch, the audio amplifier including a control IC, a power control circuit generating a predetermined drive voltage from a power supply voltage supplied thereto and supplying the generated drive voltage to the audio amplifier, and a microcomputer monitoring a temperature of the control IC of the audio amplifier and gradually reducing the audio control signal output from the audio control circuit and the drive voltage output from the power control circuit when the temperature of the control IC has reached a set temperature, the microcomputer gradually returning the audio control signal and the drive voltage to respective levels before reduction. | 2008-09-11 |
20080218632 | METHOD AND APPARATUS FOR MODIFYING TEXT-BASED SUBTITLES - A method of modifying text-based subtitles reproduced with an audio visual (AV) data, a method of decoding text subtitles, a text subtitle decoder for modifying text-based subtitles, and a reproduction apparatus. The method of modifying text subtitles includes receiving source and target words; searching first text subtitle data for the source word and generating second text subtitle data by changing instances of the source word in the first text subtitle data to the target word; generating connection information between the first and second text subtitle data; and upon a reproduction request, selecting the first text subtitle data or the second text subtitle data with reference to the connection information and reproducing the first text subtitle data or the second text subtitle data with the AV data. According to aspects of the present invention, a user may easily modify text subtitles without performing a complicated editing process. | 2008-09-11 |
20080218633 | Method and System for Transmitting Video Signals - The first device receives the video signal to encode a horizontal sync signal and a vertical sync signal of the video signal into a composite sync signal, compresses the composite sync signal into one of three color signals of the video signal, and transmits the three color signals. The second device is in communication with the first device, decompresses the composite sync signal from the compressed color signal, and decodes the horizontal sync signal and the vertical sync signal from the composite sync signal. A method for transmitting video signals and a KVM device are also disclosed. | 2008-09-11 |
20080218634 | METHOD AND APPARATUS FOR AUTOMATIC STARTUP AND SHUTDOWN INCLUDING AUTOMATIC SOURCE SWITCHING - A method and apparatus for automatic startup and shutdown including automatic source selection is provided for the selection of one of many video input sources provided on a visual display device in response to a new video signal being transmitted over a particular input port. The visual display device is also provided with means to power on the television in response to user input or a new video signal input source detection. The television may automatically revert to the previously-viewed source upon the powering off or lack of signal from the most newly-acquired video signal source. | 2008-09-11 |
20080218635 | IMAGE PROCESSING SYSTEM, IMAGE PROCESSING METHOD, AND COMPUTER PROGRAM PRODUCT - An image processing system includes a multiresolution decomposition section for frequency decomposing an image signal into high and low frequency components at an nth stage, a correction coefficient calculation section for calculating at least one of a gradation correction coefficient, a noise correction coefficient, and an edge correction coefficient with respect to the high frequency component at an ith decomposition stage (1≦i≦n) based on at least one of the low frequency component at the ith decomposition stage, a visual system adaptation model, a noise amount estimation model, and an edge enhancement model, a correction section for correcting the high frequency component based on the calculated correction coefficient, and a multiresolution composition section for composing the image signal corrected based on the low frequency component and the corrected high frequency component. | 2008-09-11 |
20080218636 | APPARATUS AND METHOD FOR ADJUSTING INPUTTED COLOR CONCERNING TOTAL AND SPECIFIC COLORS - A specific color-adjusting stage adjusts data of an inputted color with respect to a specific color. A total color-adjusting stage adjusts the data of the inputted color with respect to a total color. The specific color-adjusting stage and the total color-adjusting stage are provided in parallel. A composing unit composes linearly an output of the specific color-adjusting stage and an output of the total color-adjusting stage. When a degree that the total color-adjusting stage adjusts the data of the inputted color increases, then a degree that the specific color-adjusting stage adjusts the data of the inputted color decreases, and vice versa. | 2008-09-11 |
20080218637 | RECEIVING APPARATUS, METHOD OF CONTROLLING APPARATUS, AND PROGRAM FOR IMPLEMENTING THE METHOD - A receiving apparatus for receiving a digital television broadcast includes an amplification unit that amplifies radio frequency signals supplied from an antenna at a predetermined gain to output the amplified radio frequency signals, a channel selection unit that selects a broadcast wave from the radio frequency signals output from the amplification unit to produce output signals, a demodulation unit that processes the output signals to demodulate content data transmitted on the broadcast wave, and a control unit that controls the gain of the amplification unit so that the signal level of the output signals becomes a predetermined value. The control unit controls the gain of the amplification unit using the control start value and changes the control start value in accordance with the result of processing by the demodulation unit. | 2008-09-11 |
20080218638 | Receiver - This receiver includes a receiver body having an antenna connection portion connected with an antenna, a control portion controlling the receiver body, a first internal power source provided on the receiver body for supplying power to the control portion and a second internal power source provided on the receiver body to be electrically insulated from the first internal power source for supplying power to the antenna. | 2008-09-11 |
20080218639 | Receiver - This receiver includes a control portion detecting whether or not an antenna is connected and whether or not the connected antenna is an active antenna and a power supply portion supplying power to the antenna, while the control portion controls the power supply portion to supply power to the antenna when detecting that the connected antenna is an active antenna and controls the power supply portion not to supply power to the antenna when at least detecting that the antenna is not connected. | 2008-09-11 |
20080218640 | Display - A display is formed such that a control portion reads second channel data corresponding to channels not displayed at start-up from a second storage portion after reading first channel data corresponding to a prescribed channel displayed on a display portion at the start-up from a first storage portion, at the start-up. | 2008-09-11 |
20080218641 | Method and System for a User-Following Interface - Techniques are disclosed for projecting an image onto a surface suitable for interaction with a user while avoiding user occlusion, and while correcting for distortion due to oblique projection. The displayed image moves to a suitable surface at a suitable size and orientation as a user moves around an environment, resulting in a user-following interface. Surfaces are selected in which the projected interface is not occluded by the user or other objects in the environment. Displayed images may be interactive, and moved into an interaction area on a suitable surface that is convenient for the user. The interaction area may or may not coincide with the display area. Adaptation of the projected interface is allowed so that the content of the display and the style of interaction widgets are modified based on distance from the user and orientation of the user with respect to a projected interface. | 2008-09-11 |
20080218642 | Automobile Entertainment System - An automobile entertainment system includes a video system mounted within an automobile headrest. The headrest includes a headrest body in which the video system is mounted. The video system also includes an integrated housing supporting a video monitor and a television receiver. | 2008-09-11 |
20080218643 | Automobile Entertainment System - An automobile entertainment system includes a video system mounted within an automobile headrest. The headrest includes a headrest body in which the video system is mounted. The video system also includes an integrated housing supporting a video monitor and a television receiver. | 2008-09-11 |
20080218644 | PROJECTION DISPLAY DEVICE - A projection display device comprises: a light source; liquid crystal panels disposed corresponding to R light, G light and B light; a light guiding optical system for guiding R light, G light and B light among light from the light source to respective corresponding liquid crystal panels; a dichroic prism for synthesizing the R light, G light and B light modulated by the liquid crystal panels; a projection optical system having a curved mirror for enlarging and projecting the light synthesized by the dichroic prism; and a bending mirror. A placement plane for optical members is orthogonal to a projection plane (screen surface), and shorter sides of optical members forming the liquid crystal panels and the light guiding optical system are placed on the placement plane. | 2008-09-11 |
20080218645 | LIQUID CRYSTAL DISPLAY - A display includes pixel circuits, each pixel circuit including a first electrode, a second electrode, a third electrode, and a liquid crystal layer doped with a chiral material. The first electric is electrically coupled to a first reference voltage. The second electrode receives a pixel voltage corresponding to a gray scale level, the second electrode including a conducting layer having openings. The third electrode is electrically coupled to a second reference voltage. The second electrode is between the first and third electrodes, and the liquid crystal layer is between the first and second electrodes. | 2008-09-11 |
20080218646 | Liquid Crystal Display Device and Method for Driving the Same | 2008-09-11 |
20080218647 | Liquid crystal display device - A liquid crystal display device includes: a liquid crystal panel including a plurality of pixel cells formed at every regions defined by a plurality of data lines and gate lines; a gate built-in circuit, built-in the liquid crystal panel, for supplying gate-on voltages to the gate lines; a driving integrated circuit for driving the gate built-in circuit and supplying video signals to the data lines; and a pad region including a plurality of input/output terminals electrically connected to input/output bumps of the driving integrated circuit in the liquid crystal panel. | 2008-09-11 |
20080218648 | LIQUID CRYSTAL DEVICE, METHOD OF DRIVING LIQUID CRYSTAL DEVICE AND ELECTRONIC APPARATUS - A liquid crystal device includes a first substrate, a second substrate, liquid crystal which is in between the first and the second substrate, and a detection electrode provided on a side of the first substrate, opposite to a side of the liquid crystal. The second substrate includes pixel electrodes connected through switching elements to signal lines, opposite electrodes formed between the pixel electrodes and the liquid crystal and are connected to control lines, a selection circuit that conducts the switching element during a selection period and interrupts conduction after the selection period has elapsed, a signal supplying circuit which supplies a data electric potential during the selection periods, a electric potential control circuit which sets the control lines to an predetermined electric potential when the scanning lines to the control line is selected and sets to a reference electric potential after the selection period has elapsed. | 2008-09-11 |
20080218649 | Active array substrate for a liquid crystal display - An active array substrate for an LCD is disclosed. The active array substrate uses one end of the second scan line to electrically connect to the first scan line and electrically insulates the remaining second scan line from the first scan line. Accordingly, the second scan lines can be shielded the voltage of the transmission waveform on the first scan lines, and obtain a result of reduce a distortion level of a waveform, enhance the uniformity of the brightness, enhance the contrast of the LCD, and reduce the image flicker phenomenon of the LCD. | 2008-09-11 |
20080218650 | LIQUID CRYSTAL DEVICE, METHOD OF DRIVING LIQUID CRYSTAL DEVICE AND ELECTRONIC APPARATUS - A liquid crystal device includes a first substrate, a second substrate, liquid crystal, a detection electrode, a liquid crystal capacitor, a storage capacitor, a switching element, a selection circuit, a signal supplying circuit, and an electric potential control circuit. The first substrate is opposed to the second substrate. The liquid crystal is sealed in a gap between the first substrate and the second substrate. The detection electrode is provided on a side of the first substrate, opposite to a side on which the liquid crystal is provided. The detection electrode detects a contact on the basis of variation in capacitance. The liquid crystal capacitor includes a pixel electrode, an opposite electrode, and the liquid crystal between the pixel electrode and the opposite electrode. The storage capacitor includes a first electrode and a second electrode that is connected to the pixel electrode. The switching element is connected between the pixel electrode and a signal line. The selection circuit conducts the switching element during a selection period and interrupts conduction of the switching element after the selection period has elapsed. The signal supplying circuit supplies a data electric potential (for example, an electric potential VDP or an electric potential VDN shown in FIG. | 2008-09-11 |
20080218651 | Electro-optical device and substrate for electro-optical device - An electro-optical device includes: a holding capacitor provided in each pixel; a holding capacitance line connected to the holding capacitor; and an electric potential applying portion that applies an electric potential to the holding capacitance line. Both ends of the holding capacitance line are connected to the electric potential applying portion. | 2008-09-11 |
20080218652 | Liquid crystal display device - A liquid crystal display device for reducing power consumption is disclosed. | 2008-09-11 |
20080218653 | ARRAY SUBSTRATE, DISPLAY PANEL HAVING THE SAME AND A METHOD THEREOF - An array substrate includes a base substrate, a plurality of gate lines, a plurality of data lines, a plurality of pixel portions and a gate driving section. The base substrate includes a display area, a boundary area surrounding the display area and a light-blocking area surrounding the boundary area. The gate lines extend in a first direction on the base substrate. The data lines extend in a second direction crossing the first direction on the base substrate. The pixel portions are disposed in the display area and electrically connected to the gate and data lines. The gate driving section is electrically connected to the gate lines. A portion of the gate driving section overlaps the boundary area. The gate driving section overlaps the boundary area. | 2008-09-11 |
20080218654 | Substrate having pattern, color filter, liquid crystal display and method of manufacturing color filter - A color filter and a method of manufacturing a color filter is provided, wherein fluctuation of chromaticity of a color pattern for every opening can be controlled and the color filter has little color shading. One embodiment of the present invention is a substrate having a pattern comprising a transparent substrate and a grid partition wall pattern formed on the transparent substrate, wherein there are openings partitioned by the grid partition wall pattern, and wherein there is a pass through the grid partition wall pattern between at least two adjacent openings. | 2008-09-11 |
20080218655 | Liquid crystal display and tablet computer having the same - The present invention relates to a liquid crystal display and a tablet computer having the same. According to the present invention, there is provided a liquid crystal display, comprising: a liquid crystal display panel for displaying an image; a driving circuit unit connected to the liquid crystal display panel and including a printed circuit board mounted with a circuit component; a top chassis disposed over the liquid crystal display panel; and a fastening member for fastening the printed circuit board of the driving circuit unit to the top chassis. | 2008-09-11 |
20080218656 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes an upper panel comprising an alignment layer, the alignment layer attached on an inner surface of the upper panel and a polarizer attached on an outer surface of the upper panel, a lower panel including a first surface and an opposite second surface, the first surface facing the inner surface of the upper panel, and the lower panel comprising a plurality of metallic lines disposed on the first surface of the lower panel, the plurality of metallic lines disposed substantially parallel to each other and which extend in a first direction and a phase retardation layer, liquid crystal molecules injected between the upper and lower panels and a backlight unit comprising a light source which emits light toward the lower panel and a reflector which reflects light reflected from the lower panel, wherein the phase retardation layer is disposed between the plurality of metallic lines and the second surface of the lower panel. | 2008-09-11 |
20080218657 | Display Device and Mobile Terminal Having the Same - Provided are a display device and a mobile terminal having the same. The display device comprises a transmissive liquid crystal panel, a first backlight unit on a rear side of the transmissive liquid crystal panel, a second backlight unit on a front side of the transmissive liquid crystal panel, and an optical shutter outside at least one of the first and second backlight units. | 2008-09-11 |
20080218658 | LIGHT SOURCE DEVICE AND LIQUID CRYSTAL DISPLAY - A light source device capable of realizing a color display having the high light-use efficiency with a simple configuration is provided. Provided is a light source device including a prism sheet disposed to face a plane to be irradiated, and to bend an incident light to a direction substantially orthogonal to an incident direction; a light source section separately emitting a plurality of color lights having wavelength regions different from each other so that each of the color lights enters into the prism sheet at a small angle with respect to an extending direction of the prism sheet; and a light source drive means for driving the light source section so that each of the color lights periodically scans the plane to be irradiated so as to perform the line-sequential irradiation operation. | 2008-09-11 |
20080218659 | WHITE SURFACE LIGHT SOURCE AND LIQUID CRYSTAL DISPLAY - A white surface light source comprising a light diffuser plate and a light source provided on the back side of the light diffuser plate, wherein the light source comprises at lease one LED element which emits lights including a red color, and the light diffuser plate comprises a transparent material and light diffusing particles dispersed in the transparent material, and wherein an absolute value An of a refractive index difference between the transparent material and the light diffusing particles, and a 50% cumulative particle diameter D | 2008-09-11 |
20080218660 | Liquid crystal display module - In a liquid crystal display module of edge light system, a periphery of a liquid crystal panel, a light guide plate and a reflective sheet are laid one upon another and surrounded by a case, and a lamp and a reflecting plate are disposed between an incidence surface of the light guide plate and a side of the case. A rear side of the module is not covered by the case. The reflecting plate is of a groove type that the lamp is held in the groove while an opening of the groove is opposed to the incidence surface. The case has an opening formed in a predetermined side of the case. The reflecting plate is insertable through the opening. The reflecting plate is slid from the opening while a reflecting plate bottom is in abutment against a side of the case, thereby being detachably attachable. | 2008-09-11 |
20080218661 | Liquid crystal display having flexible printed circuit sandwiched between liquid crystal panel and light guide plate thereof - A liquid crystal display includes a liquid crystal panel and a backlight module parallel to the liquid crystal panel. The backlight module includes a light guide plate, a light source and a flexible printed circuit. The light guide plate includes a light incident surface. The light source is provided adjacent to the light incident surface of the light guide plate. The flexible printed circuit includes a light source driving end. The light source driving end is electrically connected with the light source. The light source driving end is bent and is sandwiched between the liquid crystal panel and the light guide plate. The light source driving end abuts the light guide plate. | 2008-09-11 |
20080218662 | LED BACKLIGHT DEVICE AND LCD DEVICE - A backlight device includes a first substrate, and an LED thin-film layered structure (epitaxially grown inorganic material layers) fixed to a surface of the first substrate. An anode electrode and a cathode electrode are formed on the LED thin-film layered structure. An anode driver IC and a cathode driver IC are provided for driving the LED thin-film layered structure. A wiring structure electrically connects the anode driver IC and the anode electrode of the LED thin-film layered structure, and electrically connects the cathode driver IC and the cathode electrode of the LED thin-film layered structure. A second substrate has an optical transparency and is disposed to face the surface of the first substrate on which the LED thin-film layered structure is formed. A phosphor is formed on a surface of the second substrate facing the first substrate and is disposed on a position corresponding to the LED thin-film layered structure. | 2008-09-11 |
20080218663 | FLUORESCENT TUBE DRIVING METHOD AND APPARATUS - A fluorescent tube driving method for driving a fluorescent tube on the basis of an alternating current driving signal generated by an inverter circuit that uses a direct current power supply produced by directly rectifying the voltage of a commercial power supply includes the steps of: detecting an input voltage supplied to the inverter circuit by a voltage detector; detecting an output current of the inverter circuit that drives the fluorescent tube on the basis of the alternating current driving signal by using an electric current detector; and controlling an alternating current driving signal generated by the inverter circuit on the basis of the output current of the inverter circuit, which is detected by the electric current detector, and an input voltage supplied to the inverter circuit, the input voltage being detected by the voltage detector, and suppressing a variation in the output current detected by the electric current detector. | 2008-09-11 |
20080218664 | FLUORESCENT LAMP AND IMAGING DEVICE USIGN THE SAME - In conventional fluorescent lamps and imaging devices using the same, there have been challenges that lighting efficiency should be enhanced and variation in emission colors should be reduced. The present invention has solved these challenges by providing a novel fluorescent lamp. The phosphor layers of the fluorescent lamp is composed of at least two types of phosphors, in which at least the most outer surface is a phosphor layer made of one of the phosphors (the first phosphor); and the rest portion of the phosphor layers, is made of mixed phosphors including a plurality of phosphors having respective emitting colors. | 2008-09-11 |
20080218665 | POLARIZING ELEMENT, POLARIZING ELEMENT MANUFACTURING METHOD, LIQUID CRYSTAL DEVICE, AND PROJECTION DISPLAY - A polarizing element manufacturing method includes (a) forming a plurality of fine metal wires by forming a metal film on a substrate and patterning the metal film, (b) applying, onto a base material, a glass precursor solution for forming a protective layer for protecting the fine metal wires, (c) placing the substrate on the base material so that ends of the fine metal wires are immersed in the glass precursor solution, and (d) forming the protective layer by drying the glass precursor solution, and bonding together the base material and the substrate with the protective layer therebetween. | 2008-09-11 |
20080218666 | Liquid crystal display device - The present invention provides a liquid crystal display device containing: a liquid crystal cell; a backlight; a first polarizing plate disposed between the liquid crystal cell and the backlight and having a polarizer and at least two protective films disposed so as to sandwich the polarizer; and a second polarizing plate disposed on a side of the liquid crystal cell opposite to a side on which the first polarizing plate is provided and having a polarizer and at least two protective films disposed so as to sandwich the polarizer, wherein a moisture permeability of the protective films on both sides of the first polarizing plate at 60° C. and 95% RH is more than 300 g/m | 2008-09-11 |
20080218667 | LIQUID CRYSTAL DISPLAY DEVICE CAPABLE OF MAKING BOUNDARY OF DISPLAY AREA AND PICTURE FRAME AREA UNREMARKABLE - In the liquid crystal display device, the overcoat layer enters the area where a color filter layer is not formed. The opposing substrate when the overcoat layer is formed is thin. This makes the difference between the cell-gap length in the display area and the cell-gap length in the picture frame area become small. | 2008-09-11 |
20080218668 | LIQUID CRYSTAL DISPLAY DEVICE CAPABLE OF PREVENTING REFLECTANCE AND WHITE BALANCE VALUE FROM SHIFTING - In the liquid crystal display device, a transparent area is formed in a part of the color filter layer which opposes the reflective electrode. A part of the transparent area opposes a part of the structure formed to make liquid crystal molecules incline. The structure and the transparent area are configured to keep a ratio constant, the ratio being a ratio between a size of the transparent area's part opposing the structure's part and a size of the rest of the transparent area. | 2008-09-11 |
20080218669 | Liquid crystal device and electronic apparatus - The invention provides a liquid crystal device including: a pair of substrates; a liquid crystal layer having a negative dielectric anisotropy; a pixel electrode; a counter electrode, the counter electrode being opposed to the pixel electrode; a vertical alignment film that aligns liquid crystal molecules of the liquid crystal layer in a direction in which the long axes of the liquid crystal molecules are oriented perpendicular to the pair of substrates. The pixel electrode is made up of island-pattern sub pixel elements each two adjacent ones of which are connected to each other via a connection portion having a width narrower than that of the sub pixel element. In addition, the light shielding film is formed, on one of the pair of substrates, in each region not corresponding to the connection portion between each two of the sub pixel elements that are adjacent to each other. | 2008-09-11 |
20080218670 | LIQUID CRYSTAL DEVICE AND ELECTRONIC APPARATUS - A liquid crystal device of semi-transmissive reflective type includes a first substrate and a second substrate opposed to each other, a liquid crystal layer interposed therebetween, a pixel region having a reflection display region and a transmission display region, a first electrode having a plurality of strip electrode portions electrically connected to each other, a second electrode provided in the first substrate and facing the first electrode to produce an electric field between the first and the second electrodes, an electrode insulating film interposed between the first and the second electrodes, the electrodes and the electrode insulating film being arranged in a side of the first substrate toward the liquid crystal layer, a reflective polarizing layer for selectively reflecting a predetermined polarized light component of incident light, a light scatterer for scattering reflected light, and a layer for adjusting a thickness of the liquid crystal layer to make the thickness thereof in a light-scatterer formation region different from the thickness thereof in a light-scatterer non-formation region, the reflective polarizing layer, the light scatterer and the liquid-crystal-layer thickness adjusting layer being provided in the reflection display region. | 2008-09-11 |
20080218671 | TRANSPARENT PROTECTIVE FILM, OPTICAL COMPENSATION FILM, POLARIZING PLATE, AND LIQUID CRYSTAL DISPLAY DEVICE - To provides a transparent protective film, an optical compensation film, a polarizing plate, and a liquid crystal display device in which the variation of Rth in response to variations in humidity of the environment in which they are used is sufficiently small. The protective film in accordance with the present invention is a transparent protective film that satisfies the following Formulas (I) to (III) at a relative humidity of 60% RH; Formula (I): 0≦Re | 2008-09-11 |
20080218672 | Liquid Crystal Display Device - A novel liquid crystal display device is disclosed. The liquid crystal display device comprises a first polarizing film, a first retardation area with an Re of 70 to 330 nm and a value of Nz of not less than 0 to less than 0.5 and a slow axis perpendicular to a transmission axis of the first polarizing film; a second retardation region with an Re of not greater than 50 nm and an Rth of 10 to 140 nm; and a liquid crystal cell comprising a liquid crystal layer with a slow axis in a black state parallel to the transmission axis of the first polarizing film; and a second polarizing film in this order. | 2008-09-11 |
20080218673 | DISPLAY APPARATUS AND METHOD FOR MANUFACTURING SUBSTRATE FOR DISPLAY APPARATUS - A display apparatus includes a substrate including a display area of an approximate rectangle, and at least one film pattern which is formed over the substrate and extends to outside of the display area. A perimeter of the at least one film pattern has a shape of a smooth curved line at vicinity of at least one of corner portions of the display area. | 2008-09-11 |
20080218674 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel including an active device array substrate, an opposite substrate and a liquid crystal layer is provided. The active device array substrate includes a substrate, a plurality of scan lines, a plurality of data lines, and a plurality of pixel units. The scan lines, the data lines and the pixel units are disposed on the substrate. Each of the pixel units is electrically connected to one of the scan lines and one of the data lines correspondingly and crosses over two sides of the corresponding scan line. The opposite substrate includes a plurality of alignment protrusions. The alignment protrusions are located over the scan lines. Besides, the liquid crystal layer is disposed between the opposite substrate and the active device array substrate. The above-mentioned liquid crystal display panel has higher aperture ratio. | 2008-09-11 |
20080218675 | Liquid crystal display panel having dielectric spacers - An exemplary liquid crystal display panel ( | 2008-09-11 |
20080218676 | LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD OF THE SAME - A liquid crystal display device includes: a first insulating substrate having a first alignment film formed thereon; a second substrate which faces the first substrate having a second alignment film formed thereon; and a liquid crystal layer in a vertically aligned mode disposed between the first alignment film and the second alignment film, at least one of the first alignment film and the second alignment film comprising a silicon oxide layer of which a dielectric constant is 5 to 14. | 2008-09-11 |
20080218677 | Liquid crystal display device and fabrication method therefor - The liquid crystal display device includes a first substrate | 2008-09-11 |
20080218678 | LIQUID CRYSTAL DISPLAY DEVICE - A power supply wiring which is disposed on an array substrate and supplies a predetermined potential to a counter-electrode, includes a power supply pad which is included in a third electrically conductive layer, a first wiring which is included in a first electrically conductive layer and is electrically connected to the power supply pad, a second wiring which is included in a second electrically conductive layer, and a bridge wiring which is included in the third electrically conductive layer and electrically connects the first wiring and the second wiring, the power supply wiring being electrically connected to the counter-electrode via an electrically conductive member which is disposed on the power supply pad. | 2008-09-11 |
20080218679 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display device includes a first display panel, a second display panel facing the first display panel, and a plurality of spacers maintaining a distance between the first display panel and the second display panel. Each of the spacers includes column spacers, ball spacers, and an adhesive. | 2008-09-11 |
20080218680 | HIGH EXTINCTION RATIO LIQUID CRYSTAL OPTICAL SWITCH - An optical switch for performing high extinction ratio switching of an optical signal includes a beam polarizing element and one or more optical elements. The optical elements are configured to direct an optical signal along a first or second optical path based on the polarization state of the optical signal as it passes through the optical elements. The optical switch performs high extinction ratio switching of the optical signal by preventing unwanted optical energy from entering an output port by using an absorptive or reflective optical element or by directing the unwanted optical energy along a different optical path. | 2008-09-11 |
20080218681 | Eyesight correction lens - An eyesight correction lens includes a seeing region and a combining surface that is made of a material able to be sucked on a smooth lens. The eyesight correction lens can be positioned on the lens of eyeglasses so that a person with poor eyesight can not only protect his eyes but also see things clearly through the seeing region of the eyesight correction lenses. Since the seeing region of the eyesight correction lens does not contact with the lens of the eyeglasses, no air bubbles will be produced therebetween and hence things can be seen clearly through them. The eyesight correction lens of this invention can be combined on the lens of different eyeglasses for use and also can be removed from the eyeglasses when a user need not see things at a short distance, convenient in use. | 2008-09-11 |
20080218682 | Eyewear and methods of use - Described herein are various embodiments of eyewear provided for advantageous use in sports and work, as well as in casual activity, and, if desired, in conjunction with helmets or other headgear. According to one exemplary embodiment, eyewear can include a frame and respective spaced-apart temple portions coupled to the frame. Each temple portion can include a proximal portion, a distal portion, and a biasing element that is movable along at least the distal portion in a longitudinal direction of the temple portion. Each biasing element can urge the distal portion of the respective temple portion in a lateral direction, which is generally perpendicular to the longitudinal direction, as the biasing element is moved along the distal portion. | 2008-09-11 |
20080218683 | EYEGLASSES AND EYEGLASS FRAMES COMPRISING GLYCOL MODIFIED COPOLYESTERS - Disclosed herein are eyeglass frames and eyeglass frame kits made from a polymer composition comprising PCTG, and eyeglasses comprising a pair of lenses mounted on the eyeglass frames or eyeglass frame kits disclosed herein. The polymer composition disclosed herein may optionally comprise one or more additives such as colorants and fillers. | 2008-09-11 |
20080218684 | Eyeglasses with RFID tags - A pair of glasses includes a clock that is at least partially embedded in the glasses. The clock can be in one of the temples of the glasses. In one implementation, the clock can be positioned at a region close to a hinge of the corresponding temple, with the clock facing inward towards the user. The clock can also be in a temple arrangement. Instead of or in addition to a clock, other types of electrical components can be at least partially embedded into a pair of glasses or a temple arrangement of a pair of glasses. For example, the other electrical components can pertain to a RFID tag, a temperature sensor or an eyewear finder. | 2008-09-11 |
20080218685 | Goggles for Improved Ocular Vision - A device for improved vision into or out of at least one eye of a subject. The device comprises an enclosing vessel for holding one or more lenses in front one or two eyes of the subject and for holding a substance whose refractive index is matched to the refractive index of the cornea. The vessel is adapted to seal the substance to the face around the eye or eyes of the subject thereby allowing focusing into or out of the eye or eyes. | 2008-09-11 |
20080218686 | LENS CARE SOLUTIONS FOR USE WITH CONTACT LENSES OR CONTACT LENS CASES THAT CONTAIN SILVER - Contact lens care solutions that are formulated for disinfecting or packaging contact lenses that comprise silver, or for disinfecting or storing contact lenses in contact lens cases that comprise silver. | 2008-09-11 |
20080218687 | Contact lens and method - Contact lenses and methods for preventing or slowing progression of myopia are described. The contact lenses include a vision correction area and a myopic defocus area. Various examples of the contact lenses are described. Methods include providing the present contact lenses, or applying one or more of the contact lenses to an eye or eyes of a person. The contact lenses and methods are particularly useful in children. | 2008-09-11 |
20080218688 | VISION IN MACULAR DEGENERATION PATIENTS - An eyeglass lens and manufacturing method using a variable refractive index material, such as epoxy. In one embodiment, a method of making an eyeglass lens includes: imaging a patient's eye to determine a wavefront prescription for the patient; and curing the lens based on the wavefront prescription such that the wavefront guided lens corrects for aberrations over the lens for a plurality of gazing angles of the patient. | 2008-09-11 |
20080218689 | MULTIFOCAL LENS HAVING A PROGRESSIVE OPTICAL POWER REGION AND A DISCONTINUITY - Embodiments of the present invention relate to a multifocal lens having a mostly spherical power region and a progressive optical power region. Embodiments of the present invention provide for the proper alignment and positioning of each of these regions, the amount of optical power provided by each of the regions, the optical design of the progressive optical power region, and the size and shape of each of the regions. The combination of these design parameters allows for an optical design having less unwanted astigmatism and distortion as well as both a wider channel width and a shorter channel length compared to conventional PALs. Embodiments of the present invention may also provide a new, inventive far-intermediate distance zone and may further provide for increased vertical stability of vision within a zone of the lens. | 2008-09-11 |
20080218690 | EYEGLASS LENS PROCESSING METHOD - An eyeglass lens processing method for processing a hole for attaching a rimless frame to an eyeglass lens, the method includes: selecting a pattern used for a processing from a plurality of hole patterns; selecting a first drilling in which an angle of the processed hole is normal at least to a lens surface of a demo lens or a second drilling in which the angle of the processed hole is normal to a lens surface of the eyeglass lens; and when the first drilling is selected, (a) inputting a surface curve of the demo lens, (b) inputting hole position data of the demo lens for the selected pattern, (c) determining an hole angle and a hole position for the eyeglass lens based on the surface curve of the demo lens and the hole position data to obtain drilling data. | 2008-09-11 |
20080218691 | Short-Coherence Interferometeric Measurement of Length on the Eye - Two problems arise when measuring length at the eye by short-coherence interferometry. First, the measurement focus and coherence window usually do not coincide. Second, the scanning process along the eye axis is time-consuming. Both result in poor signal quality and inaccurate measurements. The present application is directed to a short-coherence interferometer in which a right-angle mirror and focusing optics jointly carry out a periodic back-and-forth movement in such a way that the measurement beam focus which is generated by the focusing optics and imaged on the eye by relay optics is moved synchronously with the coherence window from the cornea along the optic axis of the eye to the fovea centralis. Further, different path lengths are generated in the measurement beam path and reference beam path by means of a plurality of reflectors, so that the scanning process is limited to distances which are smaller than the optical length of the eye. The present invention is advantageously implemented using on a fiber-optic interferometer. According to the invention, the reference interferometer arm and measurement interferometer arm are combined with the arms of a fiber-optic interferometer. | 2008-09-11 |
20080218692 | Reflectometry/Interferometry System and Method for Corneal Plane Positioning - A system for positioning an eye of a patient, for example, for laser ophthalmic surgery includes a reflectometer adapted to receive as input a reflected beam from an anterior surface of a cornea of an eye of a patient. The interferometer is calibratable to a desired position of the corneal anterior surface. A comparator is in signal communication with the interferometer and is adapted to calculate from the input a difference between an actual position and the desired position of the corneal anterior surface. A device is in signal communication with the comparator for moving the patient a distance in a direction for matching the actual position to the desired position of the corneal anterior surface. | 2008-09-11 |
20080218693 | CORRECTION OF PRESBYOPIA USING ADAPTIVE OPTICS AND ASSOCIATED METHODS - Devices, systems, and methods measure, diagnose, and/or treat one or both eyes of a patient. Adaptive optics systems (such as those having a deformable mirror) may be configured to an aspherical or multi-spherical presbyopia-mitigating prescriptive shape to allow objective and/or subjective measurements of a candidate prescription. A plurality of viewing distances allow subjective and/or objective evaluations of performance using a light spot or a test viewing image. Measurements of aberrations at selected viewing conditions (including distances and/or brightness) with correlating pupil sizes may also be provided. | 2008-09-11 |
20080218694 | High-resolution Adaptive Optics Scanning Laser Ophthalmoscope with Multiple Deformable Mirrors - An adaptive optics scanning laser opthalmoscopes is introduced to produce non-invasive views of the human retina. The use of dual deformable mirrors improved the dynamic range for correction of the wavefront aberrations compared with the use of the MEMS mirror alone, and improved the quality of the wavefront correction compared with the use of the bimorph mirror alone. The large-stroke bimorph deformable mirror improved the capability for axial sectioning with the confocal imaging system by providing an easier way to move the focus axially through different layers of the retina. | 2008-09-11 |
20080218695 | Optical device, use of an optical device according to the invention as well as method for blocking light reflections in the observation beam path of an optical device - The invention relates to an optical device for the examination of an eye, with at least one objective disposed facing the eye, at least one lighting source for illuminating the eye, an optical element and/or an optical arrangement disposed between the objective and the eye being examined, which optical element or arrangement produces an intermediate image of the plane examined within the eye, which is observed with the objective, whereby in the observation beam path of the optical device, at least one locally resolved attenuating element is disposed, which can be switched in a locally resolved manner into at least two transparency states. In addition, the invention relates to a method for blocking light reflections in the observation beam path of an optical device as well as the use of such an optical device for examining an eye. | 2008-09-11 |
20080218696 | Non-Invasive Monitoring System - A monitoring system includes a light source that illuminates at least a portion of a subject's eye with an incident light beam, and a contact lens with a coupler. The coupler couples the incident light beam into an aqueous humor of the eye, creating an aqueous light beam. The coupler also couples the aqueous light beam out of the aqueous humor of the eye, creating an output light beam. The monitoring system also includes a sensor that measures at least one spectral characteristic of the output light beam. The monitoring system further includes a processing system that determines at least one measurable characteristic of the subject based on the at least one spectral characteristic of the output light beam. A method for monitoring is provided, as well as a contact lens for use with a monitoring systems, and a method of manufacturing a contact lens. | 2008-09-11 |
20080218697 | Polarization luminaire and projection display - A polarization luminaire is disclosed having a light source, a system of the optical integrator, a polarized light splitting device for splitting a light emitted from the light source into two kinds of polarized lights whose polarization directions are perpendicular to each other and whose traveling directions are apart from each other by an angle of less than 90 degrees, and a polarization conversion device for causing the two kinds of polarized lights to have the same polarization direction. The polarized light splitting device is placed on one of the entrance side and the outputting side of the first lens plate of the system of the optical integrator or is placed within the second lens plate. A prism beam splitter having a polarized light splitting film constituted by a thermally stable dielectric multi-layer film is suitable for the polarized light splitting device. Most of the polarized lights can be utilized by causing the polarized lights to have the same polarization direction. Further, the polarized lights, which have uniform brightness, can be emitted. Consequently, the polarization luminaire is suited to be a luminaire for use in a projection display that has liquid crystal light valves. | 2008-09-11 |
20080218698 | PROJECTION SYSTEM INCLUDING INTRINSIC POLARIZER - A projection system including an intrinsic polarizer is disclosed. The projection system includes a light source producing illumination light, an imager disposed to receive the illumination light, and a projection lens disposed to receive the illumination light from the imager. The imager includes an intrinsic polarizer. An intrinsic polarizer stack including a U.V. curable adhesive is also disclosed. | 2008-09-11 |
20080218699 | DISPLAY DEVICE HAVING PLURALITY OF LIGHT SOURCES AND USING DIFFRACTIVE LIGHT MODULATOR, CAPABLE OF REDUCING SPECKLES - Disclosed herein is a display device using a diffractive light modulator, which is provided with a plurality of light sources that emit different wavelengths, thus being capable of reducing speckles. The display device using a diffractive light modulator includes a light source unit, an illumination unit, a diffractive light modulator, and a projection unit. | 2008-09-11 |
20080218700 | BAR-TYPE DISPLAY DEVICE USING DIFFRACTIVE LIGHT MODULATOR - Disclosed herein is a display device using a diffractive light modulator. The display device includes a light source unit, a light condensing unit, an illumination unit, a diffractive light modulator, a light path adjustment unit, and a projection unit. The light path adjustment unit causes the linear light to enter the diffractive light modulator, and emits the diffracted light along a line extending from an incident light path. | 2008-09-11 |
20080218701 | PROJECTOR AND CONTROL METHOD THEREOF - Disclosed herein is a projector that can be loaded with lamps of a plurality of kinds, each of a plurality of the lamps loadable into the projector being given a lamp serial code formed by arranging lamp information including at least a minimum wattage and a maximum wattage of the lamp and a check sum in predetermined order. The projector includes: a lamp power supply for driving the lamp loaded in the projector, the lamp power supply being provided in advance with a plurality of mode ranges each as a range from a minimum wattage to a maximum wattage of output of the lamp power supply, and one predetermined mode range of the plurality of mode ranges being freely set in the lamp power supply; and a control circuit for controlling the lamp power supply. | 2008-09-11 |
20080218702 | LIGHT AMOUNT CONTROL DEVICE AND PROJECTOR - A light amount control device that controls an amount of light acquired from a light source provided in an image display apparatus includes: a pulse generator; an operation processing portion for light amount control that outputs a transfer start signal at timing when the amount of light is controlled; a data setting circuit that is provided outside the operation processing portion and that stores data, in which various kinds of signals instructing the operation processing portion to set transfer data beforehand are set, in a memory; an address generator that is provided outside the operation processing portion and that sets an address in response to the transfer start signal output from the operation processing portion; a memory that is a main component included in the pulse generator and that outputs data on the basis of a memory address generated by the address generator; a pulse driven body whose operation direction and speed are determined by a pulse signal formed by data output from the memory and which is driven by a pulse; an actuator connected to the pulse driven body; and an opening capable of adjusting the amount of transmitted light according to an operation of the actuator inserted in an emission path of the light source. | 2008-09-11 |
20080218703 | PROJECTOR AND CONTROL METHOD THEREFOR - Disclosed herein is a projector for projecting an image to a screen, including: a lamp configured to emit light; an elliptic reflecting mirror configured to reflect and condense the light from the lamp; a sensor configured to detect the amount of the light reflected and condensed by the elliptic reflecting mirror; a lamp power supply configured to supply power to the lamp to drive the lamp; and a control circuit configured to successively increase the power to be supplied from the lamp power supply to the lamp until after a variation value of the amount of the reflected light detected by the sensor becomes equal to or lower than a predetermined threshold value. | 2008-09-11 |
20080218704 | Projection display - A projection display includes first and second light sources, a reflection/transmission member which partially transmits a first light beam from the first light source and partially reflects a second light beam from the second light source, and a light valve which converts the light beam from the reflection/transmission member into an optical image in accordance with a video signal. The reflection/transmission member has a reflective surface which is one side main surface, a light-shielding surface which is the other side main surface, and a plurality of openings extending through the both main surfaces. The first light beam is transmitted through the openings from the light-shielding surface to the reflective surface, and the second light beam is reflected off the reflective surface in the direction that the first light beam is transmitted. | 2008-09-11 |
20080218705 | Projection display device - A projection display device comprises a main body cabinet, a projection lens section to which light modulated by a light modulating element entered, and a mirror section for reflecting the light emitted from the projection lens section to a projection plane. A level difference depending on an arrangement shift of the projection lens section and the mirror section is formed on a second side surface facing a first side surface having light projection port of the main body cabinet. Furthermore, the projection display device comprises a level difference correction section for directing the light from the mirror section in a desired direction by correcting the level difference, when the main body cabinet is planed on a plane to be placed, the second side surface facing the plane to be placed. | 2008-09-11 |