NEC LCD TECHNOLOGIES, LTD. Patent applications |
Patent application number | Title | Published |
20130314654 | TRANSFLECTIVE LCD UNIT - A transflective LCD unit includes a liquid crystal (LC) layer: first and second substrates sandwiching therebetween the LC layer to define an array of pixels each including a reflective area and a transmissive area; an electrode assembly for driving the LC layer such that the LC layer in the reflective area is driven in a longitudinal-electric-field mode and the LC layer in the transmissive area is driven in a lateral-electric-field mode; and a reverse-tilt control member for controlling a reverse tilt area in which a reverse tilt of LC molecules occurs near the boundary between the reflective area and the transmissive area. | 11-28-2013 |
20130182208 | LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC APPARATUS USING THE SAME - A liquid crystal display device of IPS mode includes an array of pixels arranged in a matrix pattern by crossing a plurality of video signal lines and a plurality of scanning signal lines each other. Each of the pixels is provided with at least a switching element. A transparent insulating film is provided on both signal lines, and a plurality of pixel electrodes, common electrodes and common lines are provided on the transparent insulating film. The common lines are formed in a grid-shaped pattern such that a first group of the common lines is made of a first conductor having lower reflectivity against optical light than that of metal while a second group of the common lines is made of a second conductor including a metal layer such that said first group and said second group are crossing each other along said video signal lines and said scanning signal lines. | 07-18-2013 |
20130107179 | ACTIVE MATRIX TYPE LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING PROCESS FOR THE SAME | 05-02-2013 |
20130093988 | LATERAL ELECTRIC FIELD TYPE ACTIVE-MATRIX ADDRESSING LIQUID CRYSTAL DISPLAY DEVICE - A lateral electric field type active-matrix addressing liquid crystal display device suppresses the lateral cross talk induced by the coupling capacitances (i.e., the parasitic capacitances) between the drain bus lines and the common bus line corresponding thereto with a simple structure. In each of the pixel electrodes, at least one electrically isolated light-shielding electrode is formed to extend along the drain bus lines that define the pixel electrode near the same drain bus lines. The light-shielding electrode is overlapped with a part of a corresponding one of the pixel electrodes to the pixel region in such a way that an insulating film intervenes between the light-shielding electrode and the part, the part extending along these drain bus lines in the vicinities thereof. The light-shielding electrode may be electrically connected to the corresponding one of the pixel electrodes at a point in the pixel region. | 04-18-2013 |
20130077316 | DISPLAY DEVICE, TERMINAL DEVICE, LIGHT SOURCE DEVICE, AND OPTICAL MEMBER - A display device comprising a light source and having an optical waveguide, a louver, an anisotropic scattering sheet, and a transmissive liquid crystal panel disposed along the path of light emitted from the light source. The light-restricting direction of the louver is tilted at an angle α from the Y-axis direction. The value of the angle α is set so that the arrangement direction of moiré created between the louver and the liquid crystal panel approaches the X-axis direction. A plurality of belt-shaped convex portions extending in the Y-axis direction are formed on the surface of the anisotropic scattering sheet, and are configured so that the scattering direction of the light has anisotropy. Specifically, scattering in the X-axis direction is increased, and scattering in the Y-axis direction is reduced. Moiré can thereby be reduced in a display device having increased directivity of the display. | 03-28-2013 |
20130069097 | TOP GATE TYPE THIN-FILM TRANSISTOR, DISPLAY DEVICE, AND ELECTRONIC APPARATUS - The present invention provides a thin-film transistor manufactured on a transparent substrate having a structure of a top gate type crystalline silicon thin-film transistor in which a light blocking film, a base layer, a crystalline silicon film, a gate insulating film, and a gate electrode film arranged not to overlap at least a channel region are sequentially formed on the transparent substrate; wherein the channel region having channel length L, LDD regions having LDD length d on both sides of the channel region, a source region, and a drain region are formed in the crystalline silicon film; the light blocking film is divided across the channel region; and interval x between the divided light blocking films is equal to or larger than channel length L and equal to or smaller than a sum of channel length L and a double of LDD length d (L+2d). Thereby, the cost for manufacturing the thin-film transistor is low, and the photo leak current of the thin-film transistor is suppressed. | 03-21-2013 |
20130057810 | LIQUID-CRYSTAL DISPLAY DEVICE - A liquid-crystal display device makes it possible to attach an optical element to a liquid-crystal display panel with high positional accuracy while avoiding or minimizing the enlargement of the picture-frame region (i.e., the non-display region) induced by the formation of markers on the panel and the increase of the fabrication cost. The panel comprises a main substrate, an opposite substrate, and a liquid crystal enclosed in a gap between the main and opposite substrates, wherein a polarizer plate is attached at least to the opposite substrate. Markers for attaching an optical element to the panel are formed at positions that overlap with the polarizer plate in a non-display region on the main or opposite substrate. Alignment direction regulators regulate the alignment of the liquid crystal molecules to a predetermined direction in the vicinities of the markers, allowing light to pass through at least the opposite substrate. | 03-07-2013 |
20120325776 | APPARATUS FOR PROCESSING SUBSTRATE AND METHOD OF DOING THE SAME - The apparatus for processing a substrate includes a substrate carrier for carrying a substrate, a chemical-applying unit for applying chemical to the substrate, and a gas-applying unit for applying gas atmosphere to the substrate. | 12-27-2012 |
20120182504 | ACTIVE MATRIX TYPE LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING PROCESS FOR THE SAME - An active matrix liquid crystal display device of the invention includes a liquid crystal display panel operating in a normally black mode having a first substrate provided with a color filter and a second substrate provided with an active matrix array, wherein the first substrate is provided with a laminated colored layer with three colors, a laminated colored layer with two colors and a colored layer with one color in a frame part surrounding a display area without being provided with a black matrix, and the second substrate is provided with a conductive film formed in a region which is opposed to the laminated colored layer with two colors and the colored layer with one color, between the display area and the laminated colored layer with three colors. | 07-19-2012 |
20120182204 | STACKED LCD UNIT - A LCD unit includes a plurality of LC panels stacked one on another. If a picture to be displayed on the LCD unit is a still picture, one of the LC panels consecutively scans plurality of rows of pixels in a direction opposite to the scanning direction of the rows of pixels in the rest of LC panels. If the picture is a moving picture, all the LC panels consecutively scans in the same direction. | 07-19-2012 |
20120176051 | NON-RECTANGULAR PIXEL ARRAY AND DISPLAY DEVICE HAVING SAME - There is provided a display area made up of a pixel array with a non-rectangular shaped outer circumference and the pixel array is made up of a plurality of non-rectangular pixels wherein a first conductor line group including a plurality of first conductor lines and a second conductor line group including a plurality of second conductor lines, and a third conductor line group including a plurality of third conductor lines are arranged so as to intersect with one another. Thus, without sacrificing brightness, viewability, and fidelity of an image, pixel array (display device) with the non-rectangular outer circumferential shape being excellent in design characteristics is realized. | 07-12-2012 |
20120127068 | SEMICONDUCTOR CIRCUIT, SCANNING CIRCUIT AND DISPLAY DEVICE USING THESE CIRCUITS - In a semiconductor circuit a floating node is set to any voltage by utilizing a control signal applied to a refresh terminal and has a period shorter than that of a clock signal. The circuit includes first and second transistors connected between a first clock terminal and first power supply terminal, third and fourth transistors connected between the refresh terminal and the first power supply terminal, and fifth and sixth transistors connected between a second power supply terminal and the first power supply. Gates of the fourth and fifth transistors are connected to an input terminal, a gate of the third transistor is connected to a second clock terminal, a gate of the first transistor is connected to a node between the fifth and sixth transistors, gates of the second and sixth transistors are connected, and a node between the first and second transistors is connected to an output terminal. | 05-24-2012 |
20120105775 | CIRCULAR POLARIZER, LIQUID CRYSTAL DISPLAY DEVICE, AND TERMINAL DEVICE - In an LCD device, a circular polarizer is provided to each of two substrates that hold a liquid crystal layer. The circular polarizer on the display surface side includes a polarizer, λ/2 plate in which Rth>0, and a λ/4 plate in which Rth<0; and the circular polarizer on the backlight side includes a polarizer, a λ/2 plate in which Rth<0, and a λ/4 plate in which Rth>0. Rth is a retardation in the thickness direction of a λ/2 plate or a λ/4 plate. The absolute value of the sum of the Rth between the λ/2 plate for which Rth>0 and the λ/2 plate for which Rth<0 is reduced, and in the absolute value of the sum of the Rth between the λ/4 plate for which Rth<0 and the λ/4 plate for which Rth>0. | 05-03-2012 |
20120092385 | LIQUID CRYSTAL DISPLAY UNIT AND SYSTEM INCLUDING A PLURALITY OF STACKED DISPLAY DEVICES, AND DRIVE CIRCUIT - LCD unit includes first and second LCD panels stacked one on another. An image-data processing unit outputs monochrome image data to the second LCD panel, and color image data to the first LCD panel. The monochrome image data specifies a full transmission for a pixel having a luminance not less than a threshold, the original gray-scale level for a pixel having a luminance less than the threshold. The color image data is generated based on the monochrome image data and to input image data. | 04-19-2012 |
20120091925 | PLANAR LIGHT SOURCE DEVICE, DISPLAY DEVICE, TERMINAL DEVICE, AND METHOD FOR DRIVING PLANAR LIGHT SOURCE DEVICE - A display device is provided including an optical waveguide, and a light source, and also a louver, a transparent/scattering state switching element, and a transmissive liquid crystal display panel, provided in order on the side of a light-emitting surface of the optical waveguide. The transparent/scattering state switching element switches between a state for scattering the incident light and a state for transmitting the light without scattering. The light source drive circuit causes the transparent/scattering state switching element to transfer from the transparent state to the scattering state, and when the viewing angle range of the display is switched from narrow to wide, the intensity of the light source is gradually increased in conjunction with the transition state of the transparent/scattering state switching element. | 04-19-2012 |
20120075554 | LIQUID CRYSTAL PANEL, LIQUID CRYSTAL DISPLAY DEVICE AND TERMINAL DEVICE - To provide a liquid crystal panel capable of realizing excellent display performance using a circular polarizing plate therein, and a liquid crystal display device and a terminal device using the same, with respect to a semi-transmission type liquid crystal display device in a horizontal electric field mode (In-Plane Switching: IPS). | 03-29-2012 |
20120058646 | METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE - A semiconductor device in which a semiconductor layer is formed on an insulating substrate with a front-end insulating layer interposed between the semiconductor layer and the insulating substrate is provided which is capable of preventing action of an impurity contained in the insulating substrate on the semiconductor layer and of improving reliability of the semiconductor device. In a TFT (Thin Film Transistor), boron is made to be contained in a region located about 100 nm or less apart from a surface of the insulating substrate so that boron concentration decreases at an average rate being about 1/1000-fold per 1 nm from the surface of the insulating substrate toward the semiconductor layer. | 03-08-2012 |
20120038857 | LIQUID-CRYSTAL DISPLAY DEVICE - A liquid-crystal display device makes it possible to attach an optical element to a liquid-crystal display panel with high positional accuracy while avoiding or minimizing the enlargement of the picture-frame region (i.e., the non-display region) induced by the formation of markers on the panel and the increase of the fabrication cost. The panel comprises a main substrate, an opposite substrate, and a liquid crystal enclosed in a gap between the main and opposite substrates, wherein a polarizer plate is attached at least to the opposite substrate. Markers for attaching an optical element to the panel are formed at positions that overlap with the polarizer plate in a non-display region on the main or opposite substrate. Alignment direction regulators regulate the alignment of the liquid crystal molecules to a predetermined direction in the vicinities of the markers, allowing light to pass through at least the opposite substrate. | 02-16-2012 |
20120034721 | SEMI-TRANSMISSIVE-TYPE LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MANUFACTURING SAME - A semi-transmissive-type liquid crystal display device is provided which is capable of preventing an electric erosion reaction between a reflective film made of Al (aluminum) or an Al alloy and a transparent electrode film made of ITO or a like (Indium Tin Oxide) and of inhibiting occurrence of a flicker caused by a residual DC (Direct Current) voltage in the reflective film. In the semi-transmissive-type of a liquid crystal display device, a transmissive region to provide light from a backlight source and a reflective region to receive ambient light are placed in a pixel region and a transparent electrode film is formed above a reflective film formed in the reflective region on an active matrix substrate with a second passivation film being interposed between the reflective film and the transparent electrode film. | 02-09-2012 |
20120003434 | OPTICAL SHEET LAMINATING METHOD, OPTICAL SHEET LAMINATING DEVICE AND PROGRAM USED THEREWITH, AND DISPLAY DEVICE - To provide a laminating method which achieve high accuracy and high quality in a laminating step of an optical sheet and a display panel. Contact areas between the optical sheet and the sheet holding head are read. At this time, an optical element face of the optical sheet is brought into contact with the sheet holding head, light is irradiated to the contact areas therebetween from a no-optical-element face, and positional information of the optical sheet is read based on the distribution of the reflected light thereof. | 01-05-2012 |
20110310176 | METHOD FOR EJECTING INK DROPLETS ONTO A SUBSTRATE - An ink mixed with spacer members is ejected onto one or both of a TFT substrate and a CF substrate while an ink jet head having a plurality of ink jet nozzles is moved. The excursions of a predetermined number of ink jet nozzles from an end of the ink jet head overlap those of a next excursion of the ink jet head without causing overlapping of ejected ink within the overlapping area. An abrupt stepwise change in the amount of ejected ink is suppressed whereby an uneven gap is suppressed. | 12-22-2011 |
20110310085 | IMAGE DISPLAY DEVICE, ELECTRONIC APPARATUSE USING THE SAME, DISPLAY OUTPUT CONTROL METHOD FOR IMAGE DISPLAY DEVICE, AND OUTPUT CONTROL PROGRAM THEREOF - Provided is a display device having a viewing angle changing function, which is capable of preventing leakage of information displayed on a display screen even when there is a fault generated in changing the viewing angle. The image display device including a viewing angle changing element capable of changing a wide vision display and a narrow vision display and including a display element is provided with a detection element which detects a fault generated in the viewing angle changing element and a module for changing to a narrow vision display when there is a fault based on a detection value of the detection element. For example, when there is a fault, a transparent heater is operated to heat a liquid crystal layer to set a transparent-scattering changing element to a transparent state and forcibly set the display device to a narrow vision display. | 12-22-2011 |
20110304601 | IMAGE DISPLAY DEVICE, DRIVING METHOD OF IMAGE DISPLAY DEVICE AND TERMINAL DEVICE - An image display device includes a display element having a unit of display comprising sub pixels displaying images for first and second view points, respectively, and an optical unit that distributes lights emitted from respective sub pixels into different directions. When a region surrounded by a data line, a gate line and a storage capacitor electrode in the sub pixel is defined as an aperture, the sub pixels form a base unit that is an adjoining pixel pair including two sub pixels arranged via a data line therebetween. The two sub pixels have switching elements connected to the data line between the two sub pixels and controlled by different gate lines. When virtual lines each evenly dividing a width of the sub pixel in the first direction into K+1 pieces are presumed, K number of storage capacitor lines are each arranged across at least one virtual line in the aperture. | 12-15-2011 |
20110285946 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device including a first substrate, a second substrate facing and spaced away from the first substrate, a liquid crystal layer sandwiched between the first and second substrates, a switching device formed on the first substrate, a first electrically insulating film randomly patterned on the first substrate, a second electrically insulating film covering the first electrically insulating film therewith, and having a wavy surface, and a reflection electrode formed on the second electrically insulating film, and electrically connected to an electrode of the switching device, wherein a light passing through the second substrate and the liquid crystal layer is reflected at the reflection electrode, and the second electrically insulating film extends outwardly from the first electrically insulating film by a certain length at an end of a display region in which images are to be displayed, such that a step formed by the first and second electrically insulating films in the vicinity of the end of the display region is smoothed. | 11-24-2011 |
20110273769 | DISPLAY PANEL, DISPLAY DEVICE, AND TERMINAL DEVICE - A display panel, a display device, and a terminal device, which can achieve a high image quality by decreasing deterioration of the image quality that may be caused due to combining a reflection plate including an uneven structure with an image distributing device, are provided. The display panel includes a lenticular lens for distributing light emitted from each of pixels towards different directions from each other along an arranging direction (a first direction) of a pixel for displaying an image for a first viewpoint and a pixel for displaying an image for a second viewpoint within a pixel unit, wherein a reflection plate including an uneven structure is formed in each of the pixels, and a layout pattern of the uneven structure on the reflection plate is different to the lenticular lens. | 11-10-2011 |
20110267333 | ACTIVE-MATRIX BISTABLE DISPLAY DEVICE - An active-matrix bistable display panel is provided in which a pixel electrode is formed at each intersection of each of a plurality of scanning lines in a row direction and each of a plurality of signal lines in a column direction and a display state is made to occur depending on a voltage of each of the pixel electrodes, a signal-line driving unit is provided in which the plurality of signal lines is connected to a plurality of terminals and image inputs are sequentially divided into a plurality of image inputs and a plurality of image signals are supplied sequentially to the plurality of terminals in a time-division manner, and a scanning-line driving unit is provided in which each scanning line making up the plurality of groups is sequentially driven for each of the groups, wherein each of TFTs (Thin Film Transistors) is made active so as to supply an image voltage to each of pixel electrodes. | 11-03-2011 |
20110249213 | LIQUID CRYSTAL DISPLAY APPARATUS - A liquid crystal display apparatus which stores a panel unit in an internal space formed by a front cover and a rear cover include a nail part which is formed on one of side panels of the front cover or the rear cover, and is perpendicular to a plate face of the side panel; and a hole part which is formed in a vicinity area of one of sides of the cover on which the nail part is not formed, and the nail part is inserted in. | 10-13-2011 |
20110234935 | METHOD OF MANUFACTURING AN LCD DEVICE - Disclosed is an active matrix liquid crystal display device including substrates and a liquid crystal layer. The substrate includes: scan signal wiring lines; common signal wiring lines; video signal wiring lines intersecting these wiring lines; and pixels surrounded with the scan signal wiring lines and the video signal wiring lines. Each of pixels includes: a thin film transistor; source electrodes in a layer with the video signal wiring lines; pixel electrodes connected to the source electrodes; and common electrodes connected to the common signal wiring lines. The source electrodes include first parts overlapping the scan signal wiring lines and second parts connecting with the pixel electrodes, which are positioned around central parts between the video signal wiring lines. Molecular axes in the liquid crystal layer rotate under an electric field applied between the pixel electrodes and the common electrodes. | 09-29-2011 |
20110234556 | DISPLAY DEVICE, DRIVING METHOD THEREOF, TERMINAL DEVICE, AND DISPLAY PANEL - To provide a plural-viewpoint display device having an image separating optical element such as a lenticular lens or a parallax barrier, which is capable of arranging thin film transistors and wirings while achieving substantially trapezoid apertures and high numerical aperture, and to provide a driving method thereof, a terminal device, and a display panel. A neighboring pixel pair arranged with a gate line interposed therebetween is connected to the gate line placed between the pixels, each of the pixels configuring the neighboring pixel pair is connected to the data line different from each other, and each of the neighboring pixel pairs neighboring to each other in an extending direction of the gate lines is connected to the gate line different from each other. | 09-29-2011 |
20110205623 | IMAGE DISPLAY DEVICE, PORTABLE TERMINAL, DISPLAY PANEL, AND LENS - In an image display device where a lenticular lens, a display panel, and a light source are provided in order from a viewer side, when cylindrical lenses of the lenticular lens are arrayed in a horizontal direction, in first-viewpoint pixels and second-viewpoint pixels of the display panel, openings whose sides which intersect with straight lines in the horizontal direction are not parallel to a vertical direction are formed. And, a shape of the openings of a pair of pixels mutually adjacent in the vertical direction is made line-symmetric with respect to edges of the pixels extending in the horizontal direction as an axis. | 08-25-2011 |
20110198607 | THIN-FILM TRANSISTOR, METHOD OF MANUFACTURING THE SAME, DISPLAY DEVICE, AND ELECTRONIC APPARATUS - A thin-film transistor manufactured on a transparent substrate has a structure of a top gate type crystalline silicon thin-film transistor in which a light blocking film, a base layer, a crystalline silicon film, a gate insulating film, and a gate electrode film arranged not to overlap at least a channel region are sequentially formed on the transparent substrate. The channel region has channel length L, LDD regions having LDD length d on both sides of the channel region, a source region, and a drain region are formed in the crystalline silicon film. The light blocking film is divided across the channel region. Interval x between the divided light blocking films is equal to or larger than channel length L and equal to or smaller than a sum of channel length L and a double of LDD length d (L+2d), allowing low the manufacturing cost and suppressed photo leak current. | 08-18-2011 |
20110187965 | DISPLAY DEVICE AND FPC BOARD FIXING METHOD THEREOF - Provided is a display device capable of preventing, in a case where a flexible printed circuit board is bent to be fixed to a support portion of the display device, a troublesome phenomenon due to a force generated in the flexible printed circuit board by recovery from deformation, that is, spring-back. The display device includes the flexible printed circuit board, and the flexible printed circuit board is disposed in a bent state, and has at least a hole formed therein. The flexible printed circuit board is fixed to a support member (for example, backlight back surface plate, frame, etc.) included in the display device by a first fixation member (for example, double-sided pressure sensitive adhesive tape) and further is fixed to the support member by a second fixation member (for example, pin) through the hole. | 08-04-2011 |
20110176312 | METHOD FOR MANUFACTURING OPTICAL ELEMENT - An optical element manufacturing method according to the present invention includes: disposing a mask on a transparent photosensitive resin; patterning said transparent resin by applying an exposure light to said transparent photosensitive resin through said mask to form a transparent layer; forming a light absorbing layer by filling a gap in the transparent layer with a black curable resin; and illuminating a mask surface of the mask with the exposure light at an angle. | 07-21-2011 |
20110176100 | LATERAL-ELECTRIC-FIELD MODE LIQUID CRYSTAL DISPLAY DEVICE - To provide a structure for achieving high transmittance in a lateral-electric-field mode liquid crystal display device through stably controlling the domains in the terminal parts of comb-shaped electrodes where the liquid crystal molecules rotate in the reverse direction. In the lateral-electric-field mode liquid crystal display device in which common electrodes and pixel electrodes are formed on a same layer, a protrusion part is provided in a direction in an obtuse angle with the comb-shaped electrode and substantially in parallel to a scan line in the terminal part of the comb-shaped electrode of the pixel electrode or the common electrode, a floating electrode is extended in the extending direction of the comb-shaped electrode to overlap with the comb-shaped electrode in the terminal part, and a liquid crystal reverse rotation locked structure is formed with the protrusion part of the comb-shaped electrode and the floating electrode. | 07-21-2011 |
20110176096 | REFLECTOR, AND A LIQUID CRYSTAL DISPLAY DEVICE HAVING SUCH REFLECTOR - A reflector for reflecting incident light from outside includes an insulating film being formed on a substrate and including multiple concavities and convexities, and a metal film formed on the insulating film. Respective convex portions constituting the multiple concavities and convexities are formed into shapes in which positions of peak portions relative to the entire convex portions are tilted in one direction when viewed from a direction of a normal line of the substrate. | 07-21-2011 |
20110170038 | Transflective liquid crystal display device - A transflective liquid crystal display device includes a liquid crystal film and a polarizing plate on a backlight source side. A transflective liquid crystal display device includes an uniaxially anisotropic film (a quarter wave plate) and a polarizing plate on a visual confirmation side. The liquid crystal film has the nematic hybrid orientation, in which a polymeric liquid crystal substance formed in a liquid state is fixed. The optical axis of the anisotropic film is disposed to be orthogonal or substantially orthogonal to that of the liquid crystal film. | 07-14-2011 |
20110169789 | DRIVING CIRCUIT AND DRIVING METHOD FOR DISPLAY DEVICE - A gate start pulse signal for a next frame is output at (m−n+k+1)-th line from a beginning of display period for a previous frame in a case where m denotes the number of the display lines, n denotes the number of extra outputs from the gate driver at a side from which the scan is performed, k denotes a positive integer, and a scan of a gate driver is performed from a side at which there is an extra output from the gate driver; k pulses of gate driver clock signals are output during a vertical blank period; and input of a gate driver clock signal is restarted from a beginning of a display period for the next frame. | 07-14-2011 |
20110163669 | DC/AC INVERTER SUBSTRATE HAVING VOLTAGE ABNORMALITY DETECTOR CIRCUIT - A DC/AC inverter substrate includes a voltage abnormality detector circuit. All of a high voltage side detection sensor, a low voltage side detection sensor, and a high-voltage and low-voltage detection sensor in the voltage abnormality detector circuit are disposed without being electrically connected to a secondary side of a transformer or to a connection point. Those detection sensors are not damaged since overvoltage is not applied to the voltage abnormality detector circuit when abnormal discharge occurs because the detection sensors are not electrically connected. | 07-07-2011 |
20110157256 | IMAGE DISPLAY CONTROL DEVICE, IMAGE DISPLAY DEVICE, IMAGE DISPLAY CONTROL METHOD, AND IMAGE DISPLAY CONTROL PROGRAM - To display an image on an electronic paper display properly, even when image data is transmitted continuously from a host of the existing LCD display system, for example. A sampling section inputs a single image data by each prescribed period from a plurality of pieces of continuously transmitted image data corresponding to one screen of the electronic paper display. A difference detecting section detects a difference amount showing a difference between previous image data and latter image data of two pieces of consecutive image data inputted by the sampling section, and determines to perform screen update by using the latter image data when the difference value is equal to or larger than a threshold value. A driving section generates a driving signal of the latter image data and outputs the signal to the electronic paper display, when the screen update is determined by the difference detecting section. | 06-30-2011 |
20110128484 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A liquid crystal display device includes a first substrate, a second substrate, and a liquid crystal layer sandwiched between the first and second substrates. The first substrate includes first to N-th 1st retardation plates arranged on the first transparent substrate, and the second substrate includes first to N-th 2nd retardation plates arranged on the second transparent substrate. Assuming that a retardation plate among the first to N-th 1st retardation plates has an optical axis arranged at a first angle relative to a reference direction and a retardation plate among the first to N-th 2nd retardation plates, corresponding to the retardation plate among the first to N-th 1st retardation plates, has an optical axis arranged at a second angle relative to the reference direction, the first and second angles are different from each other by about 90 degrees. | 06-02-2011 |
20110110115 | PLANAR LIGHT EMITTING DEVICE - A planar light emitting device (PLED) includes: a light guide plate (LGP) having upper/lower surfaces; a light source substrate (LSS) mounted with a point light source parallel with a side end of the LGP; a first chassis covering a back of the LSS and a lower surface of the LGP in parallel; and a second chassis having an emission opening; a light source member in a side surface of the PLED; and a fixing member on the side of the PLED with an inclined portion. The inclined portion of the fixing member is formed so pressing the fixing member moves the LGP toward the LSS, which is fixed between the side end of the LGP and the first chassis. Removing the fixing member forms a gap between the LSS and the side end surface of the LGP or the first chassis, and the LSS can exit the LSS take-out portion. | 05-12-2011 |
20110097962 | METHOD OF MAKING A LIQUID CRYSTAL DISPLAY DEVICE - Disclosed are a liquid crystal display device | 04-28-2011 |
20110097844 | METHOD OF FABRICATING A THIN-FILM DEVICE - A method of forming a thin-film device includes forming an oxide-semiconductor film formed on the first electrical insulator, and forming a second electrical insulator formed on the oxide-semiconductor film, the oxide-semiconductor film defining an active layer. The oxide-semiconductor film is comprised of a first interface layer located at an interface with the first electrical insulating insulator, a second interface layer located at an interface with the second electrical insulator, and a bulk layer other than the first and second interface layers. The method further includes oxidizing the oxide-semiconductor film to render a density of oxygen holes in at least one of the first and second interlayer layers is smaller than a density of oxygen holes in the bulk layer. | 04-28-2011 |
20110090412 | ERASING DEVICE AND METHOD OF DISPLAY MEDIUM, AND ERASING SIGNAL SETTING METHOD - To provide an erasing device whose power consumption required for erasing operations is suppressed, which does not spoil the portability of an optical writing type display medium. In a first display function layer, voltages applied to two cholesteric liquid crystal layers when an erasing voltage is applied between a pair of electrodes are defined as V | 04-21-2011 |
20110085182 | IMAGE FORMING APPARATUS - An image forming apparatus includes: a functional element substrate to which a pixel is formed in a predetermined cycle; an opposed substrate formed on the functional element substrate; and an optical device arranged on the opposed substrate, which includes a transparent layer and an optical absorption layer arranged in a cycle of 1/n (n is an integer number) of the cycle of arranging the pixel, and restricts spread of transmitted light. | 04-14-2011 |
20110085096 | OPTICAL WRITING DEVICE - To provide an optical writing device that outputs image light to be recorded to a display recording medium. An optical element thereof includes a two-dimensional periodic structural body including periodic structure sections sectioned along a direction orthogonal to the direction along which transparent layers and light absorption layers are arranged alternately in a repeated manner. At least a part of the periodic structure sections is in a periodic structure in which the transparent layers and the light absorption layers are arranged alternately by varying phases of spatial frequencies of the transparent layers neighboring in the orthogonal direction. Repeated period pitches of the transparent layers and the light absorption layers in the two orthogonal directions of the two-dimensional periodic structural body are set to match with each other, and the repeated period pitches are set to be narrower than a layout pitch of the pixels of the spatial light modulating element. | 04-14-2011 |
20110080538 | OPTICAL ELEMENT MANUFACTURING METHOD, OPTICAL ELEMENT EXPOSURE DEVICE, OPTICAL ELEMENT, LIGHTING OPTICAL DEVICE, DISPLAY DEVICE, AND ELECTRONIC APPARATUS - Provided is an optical element manufacturing method that is capable of forming various kinds of shapes and capable of achieving sophisticated functions, improved yields, and cost reductions. The method includes: a step that applies a transparent photosensitive resin on a transparent substrate with light-shielding patterns provided thereon; a step that forms transparent layers by performing patterning through irradiating exposure light of an arbitrary amount on the transparent photosensitive resin via the transparent substrate with the light-shielding patterns provided thereon; a step that forms light absorption layers by filling a black curable resin between the transparent layers; and an irradiation step that irradiates the exposure light in an oblique direction to the surface of the transparent substrate where the light-shielding patterns are formed in a state where the transparent substrate is being bent. | 04-07-2011 |
20110080385 | SHIFT REGISTER CIRCUIT, SCANNING LINE DRIVING CIRCUIT, AND DISPLAY DEVICE - A one-stage shift register includes: a first transistor with a drain electrode connected to a corresponding scanning line and with a source electrode connected to a power supply; a second transistor of a same conductivity type, with a drain electrode connected to a gate electrode of the first transistor, with a source electrode connected to the power supply, and with a gate electrode connected to a first external control signal line; a third transistor of the same conductivity type as the fist transistor, with a drain electrode connected to the drain electrode of the second transistor, with a source electrode connected to the power supply, and with a gate electrode connected to a node that uses a bootstrap effect; and a load circuit with one end thereof connected to a second external control signal line and the other end thereof connected to the drain electrode of the second transistor. | 04-07-2011 |
20110076418 | Liquid crystal display device and method of fabricating the same - A method of fabricating a liquid crystal display device, includes applying an alignment film to a substrate surface, provisionally drying the alignment film, baking the alignment film; rubbing; and rubbing washing, which are performed in this sequence, wherein, in applying the alignment film, the alignment film is formed so as to cover at least a display region, and a portion of the alignment film which extends in a region outside the display region is imparted with an adsorptive property by modification during a process from the provisional drying to the rubbing washing. | 03-31-2011 |
20110074377 | TIME CONSTANT CIRCUIT, SWITCH CIRCUIT, DC/DC CONVERTER, AND DISPLAY DEVICE - To provide a time constant circuit and the like capable of acquiring a characteristic of an output voltage that attenuates gradually after attenuating steeply, compared to a characteristic that attenuates monotonously. The time constant circuit includes: a series/parallel circuit formed by serially connecting a plurality of parallel circuits each formed with a resistance element and a capacitance element between a first terminal and a second terminal; and a voltage-dividing resistance element connected between a third terminal connected to the second terminal and a fourth terminal. A first parallel circuit is formed with a first resistance element and a first capacitance element, a second parallel circuit with a second resistance element and a second capacitance element, and an n-th parallel circuit with an n-th resistance element and an n-th capacitance element. Note that “n” is the number of the parallel circuits and it is an integer of 2 or larger. | 03-31-2011 |
20110068343 | THIN FILM TRANSISTOR AND MANUFACTURING METHOD OF THE SAME - To achieve TFT having a high light-resistance characteristic with a suppressed light leak current at low cost by simplifying the manufacturing processes. The TFT basically includes: a light-shielding film formed on a glass substrate that serves as an insulating substrate; an insulating film formed on the light-shielding film; a semiconductor film formed on the insulating film; and a gate insulating film formed on the semiconductor film. Each layer of a laminate that is configured with three layers of the light-shielding film, the insulating film, and the semiconductor film is patterned simultaneously. Further, each layer of the laminate is configured with silicon or a material containing silicon. | 03-24-2011 |
20110051068 | CONNECTING STRUCTURE OF ELECTRONIC APPARATUS AND DISPLAY DEVICE USING THE SAME - A connecting structure of the present invention includes a first substrate, a second substrate on which the first substrate is laminated, and a sheet like connection body having one end connected to one principal surface of the first substrate and another end connected to one principal surface of the second substrate, wherein a lengthwise direction of the sheet like connection body is parallel to a perimeter part of the first substrate, and the sheet like connection body has a slit part extending from one of end portions thereof to a part thereof along the lengthwise direction, and has a first end and a second end divided by the slit part at one of end portions, the first end is connected to a principal surface of the first substrate in vicinity of a peripheral part of the first substrate, and the second end is connected to a principal surface of the second substrate in vicinity of a peripheral part of the first substrate. | 03-03-2011 |
20110051063 | DISPLAY APPARATUS AND MANUFACTURING METHOD THEREOF - A manufacturing method of the present invention is a manufacturing method of a display device with a functional film that is adhered to a principal plane of a display panel provided with a display part. A first resin layer is formed outside the display part on the principal plane to surround the display part, a communication part which allows an inner area surrounded by the first resin layer and an outer area outside of the first resin layer to communicate with each other in an in-plane direction of the principal plane is formed, the inner area is coated with a second resin, the functional film is superimposed on the principal plane, and the second resin is pressed and spread throughout the inner area and the communication part by pressing the functional film. | 03-03-2011 |
20110050317 | BOOTSTRAP CIRCUIT - A bootstrap circuit comprises: a first transistor connecting a first power supply with an output node; and a second transistor applying a first input signal to a gate node of the first transistor and having a conductivity type identical to that of the first transistor. A second input signal obtained by inverting a level of the first input signal, delaying the inverted signal, and adding a direct current bias to the delayed signal is inputted to a gate node of the second transistor. | 03-03-2011 |
20110044028 | BACKLIGHT DEVICE - A backlight device includes a chassis which is box in shape and having a bottom part and four side walls, a light source arranged on the bottom part of the chassis, a diffuser panel supported by a top end surface of each of the side walls of the chassis, and an optical sheet arranged on the diffuser panel, wherein the top end surface of each of the side walls is downward sloping so that height becomes continuously low toward inside the chassis. | 02-24-2011 |
20110043512 | IMAGE DISPLAY DEVICE AND VIDEO SIGNAL PROCESSING METHOD USED IN SAME - The degree of an influence from wiring crosstalk between signal lines of a data signal transmission line (video signal line) is decided on the basis of an input signal generated in display controlling unit (a timing controller) at a predetermined timing (at each frame period, at each clock pulse period, or at each horizontal period) and, based on a result of the decision, the voltage amplitude of a data signal is adjusted so that it may exceed an input amplitude specification value for data line driving circuits (data drivers) by a predetermined value. | 02-24-2011 |
20110032421 | TIMING CONTROLLER, IMAGE DISPLAY DEVICE, AND RESET SIGNAL OUTPUT METHOD - To provide a timing controller and the like, which can display an image properly regardless of the scanning direction even when an image display device is formed by using signal-line driving ICs having residual output terminals that are not connected to the signal lines. The timing controller includes: a reset signal storage section which stores a plurality of reset signals including a normal reset signal and a specific reset signal; a reset signal setting section which sets one of the plurality of reset signals stored in the reset signal storage section for each of the plurality of ports in accordance with a signal from the outside; and a reset signal synthesizing section which synthesizes the reset signals set by the reset signal setting section and the video data, and simultaneously outputs acquired data to the plurality of ports, respectively. | 02-10-2011 |
20110027460 | TRANSFLECTIVE TYPE LCD AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a transflective type LCD having a first substrate provided thereon with a plurality of scanning lines and a plurality of signal lines which are substantially perpendicular to each other and a switching element arranged near each of intersections between said scanning lines and said signal lines, includes forming a reflection region having a reflection electrode film and a transmission region having a transparent electrode film in each pixel surrounded by said scanning lines and said signal lines, a liquid crystal being sandwiched at a gap between said first substrate and a second substrate which is arranged opposite to said first substrate, and forming an organic film having irregularities thereon below said reflection electrode film and said transparent electrode film to substantially the same film thickness. | 02-03-2011 |
20110024755 | THIN FILM TRANSISTOR SUBSTRATE AND THIN FILM TRANSISTOR USED FOR THE SAME - A thin film transistor (TFT) substrate includes first and second TFTs on the same substrate. The first TFT has a feature that a lower conductive layer or a bottom gate electrode layer is provided between the substrate and a first insulating layer while an upper conductive layer or a top gate electrode layer is disposed on a second insulating layer formed on a semiconductor layer which is formed on the first insulating layer. The first conductive layer has first and second areas such that the first area overlaps with the first conductive layer without overlapping with the semiconductor layer while the second area overlaps with the semiconductor layer, and the first area is larger than the second area while the second insulating layer is thinner than the first insulating layer. The second TFT has the same configuration as the first TFT except that the gate electrode layer is eliminated. | 02-03-2011 |
20110014555 | METHOD OF MANUFACTURING A COLOR LIQUID CRYSTAL PANEL - Within a reflective display section R, a part of a light that reaches a reflective electrode through a color filter exits to the outside through slits and a part of a light that reaches the reflective electrode through the slits exits to the outside through the color filter. In addition, a light reaching the reflective electrode through the color filter and exiting to the outside through the color filter, and a light having no opportunity to pass through the slits also can be observed. Therefore, a mean film thickness of color filter through which all lights pass during the time in which they travel the associated distance after they are inputted to the inside until they are outputted to the outside becomes nearly equal to that could be observed in the transmissive section T. | 01-20-2011 |
20110013107 | SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE MANUFACTURING METHOD, LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC APPARATUS - A semiconductor device includes a supporting substrate; a semiconductor film on the supporting substrate; a gate insulating film on the semiconductor film; a gate electrode on the gate insulating film; and a source region and a drain region formed by introducing impurity elements to the semiconductor film. The thickness of the semiconductor film is within the range of 20 nm to 40 nm. Low-concentration regions are provided between the source region and a channel forming region, and between the drain region and the channel forming region, respectively. The low-concentration regions each have an impurity concentration smaller than that of the source region and that of the drain region, and the impurity concentration in a lower surface side region on the side of the supporting substrate is smaller than that of an upper surface side region on the opposite side. | 01-20-2011 |
20110012907 | IMAGE DISPLAY DEVICE AND DRIVING METHOD FOR THE SAME - In an image display device including: an electrophoretic display element having a memory property and a display/update controlling unit which outputs the first control signal and the data signal to the data line driving circuit, and the second control signal to the scanning line driving circuit, based on given image data, during the image updating period of time, and cuts off power supply to the data line driving circuit and the scanning line driving circuit, during an image holding period of time, the display/update controlling unit, during the image updating period of time, inputs sequentially a plurality of pieces of compressed image block data having a data configuration which one screen of the image data is divided into a plurality of blocks, and compressed for each block, expands the compressed image block data of a preceding screen and the compressed image block data of a corresponding updating screen sequentially inputted, and outputs the data signal for screen update to the data line driving circuit, based on the expanded image block data of the preceding screen and the expanded image block data of the corresponding updating screen. | 01-20-2011 |
20110001690 | SEMI-TRANSMISSIVE LIQUID CRYSTAL DISPLAY DEVICE - In a liquid crystal panel, a reflective pixel electrode and a transmissive pixel electrode in a unit pixel are supplied with an image signal output from a data line drive circuit, the two mutually different scanning signals output from a scanning line drive circuit, and common signals output from a common line drive circuit. The phase of the image signal is set different from that of the common signal. Further, a period during which the two scanning signals are selected is set in one horizontal period, the ending of the selection period for one of the scanning signals is set to a point in time before an electrical potential of the common signal changes, and the ending of the selection period for the other scanning signal is set to a point in time after the electrical potential of the common signal changes. | 01-06-2011 |
20100328778 | BEAM DIRECTION CONTROL ELEMENT AND METHOD OF MANUFACTURING SAME - A beam direction control element has transparent areas and light absorption areas alternately arranged on a surface of a substrate, wherein the light absorption areas function as a louver for controlling the direction of a beam of light. The beam direction control element is manufactured by disposing an optically transparent material on a first transparent substrate to form transparent ridges which constitute the transparent areas, filling curable and photo-absorptive fluid in gaps between the transparent ridges, and then curing the fluid to form the light absorption areas. | 12-30-2010 |
20100328594 | LIQUID CRYSTAL DISPLAY ELEMENT, DISPLAY DEVICE, AND METHOD FOR DRIVING THE SAME - A liquid crystal display element includes a liquid crystal composition sandwiched between substrates, wherein at least two types of liquid crystal compositions which exhibit liquid crystal phase in different temperature ranges are contained within each one pixel, and each of the at least two types of liquid crystal compositions is sealed and isolated within each pixel. | 12-30-2010 |
20100328571 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a liquid crystal panel, a backlight, a frame having flexibility which includes a base portion and a side portion, and a case which is attached on a side opposite to the display surface side of the frame and engages with the frame, wherein a claw portion which is provided on an inner surface of the side portion of the frame and projected toward a liquid crystal panel and, a protruding portion which pushes the claw portion toward the liquid crystal panel is provided on at least one of the inner surface of the side portion of the case and an outer surface of the side portion of the frame, and the claw portion which is contact with the display surface of the liquid crystal panel in a state in which the claw portion is pressed by the protruding portion. | 12-30-2010 |
20100328245 | INPUT AND OUTPUT DEVICE AND TERMINAL DEVICE - A lenticular lens is provided in front of a liquid crystal panel composed of a plurality of pixels. In this case, the lenticular lens is arranged so that one cylindrical lens corresponds to two pixels adjacent to each other. Then, light rays outgoing from two pixels are refracted by this one cylindrical lens and intersect with each other at a point positioned on the surface of a tablet, and then reach the right eye and the left eye of a user, respectively. | 12-30-2010 |
20100327218 | CHEMICAL SOLUTION FOR SELECTIVELY TREATING OR REMOVING A DETERIORATED LAYER AT A SURFACE OF AN ORGANIC FILM, AND METHOD FOR USING SUCH - A method for forming an organic mask, includes: | 12-30-2010 |
20100320471 | THIN-FILM TRANSISTOR ARRAY, METHOD OF FABRICATING THE SAME, AND LIQUID CRYSTAL DISPLAY DEVICE INCLUDING THE SAME - A thin-film transistor array includes an electrically insulating substrate, a plurality of thin-film transistors arranged in a matrix on the substrate, and each including a channel, a source, and a drain each comprised of an oxide-semiconductor film, a pixel electrode integrally formed with the drain, a source signal line through which a source signal is transmitted to a group of thin-film transistors, a gate signal line through which a gate signal is transmitted to a group of thin-film transistors, a source terminal formed at an end of the source signal line, and a gate terminal formed at an end of the gate signal line. The source terminal and the gate terminal are formed in the same layer as a layer in which the channel is formed. The source terminal and the gate terminal have the same electric conductivity as that of the pixel electrode. | 12-23-2010 |
20100314045 | LIQUID CRYSTAL DISPLAY PANEL AND METHOD OF MANUFACTURING THE SAME - A spherical spacer is used as a spacer member defining a gap, and is fixed to a color filter substrate. A concave portion coming in contact with a part of the spherical spacer is formed in a position in a TFT substrate, the position being opposite to the spherical spacer. The substrates are bonded with each other by engaging the spherical spacer and the concave portion with each other. | 12-16-2010 |
20100296036 | Semi-transparent reflector with plural reflecting surfaces and liquid crystal display unit using the same - A semi-transparent reflecting plate including plural reflecting surfaces extending substantially over an entire surface of a reflecting plate, not only permitting light to pass therethrough, but also reflecting the light on the reflecting surfaces. | 11-25-2010 |
20100295842 | TIMING CONTROLLER, IMAGE DISPLAY DEVICE, TIMING SIGNAL GENERATING METHOD, AND IMAGE DISPLAY CONTROL METHOD - A timing controller is provided which is capable of achieving normal image display at a time of reverse scanning in upward and downward directions and right and left directions. In an image display device having a plurality of scanning line driving ICs (Integrated Circuits), a valid line counting section counts a count of valid driving lines based on a DE (Data Enable) signal and DCK (Dot Clock) signal. A cascade signal counting section counts up a total count of outputs from a count of VCK (Vertical Clock) signals including a VSP (Vertical Start Pulse) | 11-25-2010 |
20100289994 | COLOR IMAGE DISPLAY DEVICE, COLOR FILTER SUBSTRATE, COLOR PIXEL ARRAY SUBSTRATE, AND ELECTRONIC DEVICE - A color image display device is provided which is capable of displaying an image with no differences in color balance between end portions and inner portions of anon-rectangle image display region. The color image display device includes an end portion unit pixel formed in an edge portion of a display region in which a color image is displayed and including end portion sub-pixels which correspond to a plurality of kinds of primary colors respectively in a one-to-one relationship and an inner unit pixel formed in an inside of the display region with respect to the end portion unit pixels and including inner sub-pixels which correspond to the plurality of kinds of primary colors respectively in a one-to-one relationship. With such a configuration, a relative area proportion of the end portion sub-pixels that correspond to the primary colors respectively in a one-to-one relationship is set equal to that of the inner sub-pixels that correspond to the primary colors respectively in a one-to-one relationship. The plurality of kinds of the end portion sub-pixels is arrayed in accordance with a position or a shape on an outer edge of the display region, an array direction of the plurality of kinds of the end portion sub-pixels and an array direction of the plurality of kinds of the inner sub-pixels configured to intersect each other. | 11-18-2010 |
20100283106 | SEMICONDUCTOR DEVICE HAVING SEMICONDUCTOR LAYER ON INSULATING STRUCTURE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device in which a semiconductor layer is formed on an insulating substrate with a front-end insulating layer interposed between the semiconductor layer and the insulating substrate is provided which is capable of preventing action of an impurity contained in the insulating substrate on the semiconductor layer and of improving reliability of the semiconductor device. In a TFT (Thin Film Transistor), boron is made to be contained in a region located about 100 nm or less apart from a surface of the insulating substrate so that boron concentration decreases at an average rate being about 1/1000-fold per 1 nm from the surface of the insulating substrate toward the semiconductor layer. | 11-11-2010 |
20100265284 | DISPLAY CONTROLLER, DISPLAY DEVICE, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM - To overcome issues generated due to the light-shield part in a display device which displays different images towards a plurality of viewpoints, and to provide a device for easily synthesizing images to be displayed on a display part. A display controller includes: an image memory which stores viewpoint image data for a plurality of viewpoints; a writing control device which writes the viewpoint image data inputted from outside to the image memory; a parameter storage device which stores parameters showing a positional relation between a lenticular lens and the display part; and a readout control device which reads out the viewpoint image data from the image memory according to a readout order obtained by applying the parameters to a repeating regulation that is determined based on layout of the sub-pixels, number of colors, and layout of the colors, and outputs it to the display module as synthesized image data. | 10-21-2010 |
20100259535 | SCANNING LINE DRIVING CIRCUIT, DISPLAY DEVICE, AND SCANNING LINE DRIVING METHOD - A scanning line driving circuit includes a first transistor having a source electrode connected to a power supply and a drain electrode to a scanning line and a second transistor having a source electrode connected to the scanning line and a drain electrode connected to a clock signal line. The conductivity type of the second transistor is identical to that of the first transistor. A bias can be supplied, so that the first and second transistors are caused to be in an off-state simultaneously. | 10-14-2010 |
20100259503 | TOUCH SENSOR DEVICE AND ELECTRONIC APPARATUS HAVING THE SAME - To provide a touch sensor device and the like, which can improve the detecting accuracy of a surface-capacitive type touch sensor. A touch sensor device of the present invention includes: a touch panel which forms a capacitance between a human body and itself when the human body makes a contact or approaches thereto; a power supply part which has a battery or the like which outputs a DC voltage, converts the DC voltage to an AC voltage, and outputs the AC voltage from the touch panel; a reference potential part to be a reference potential of the AC voltage; a wrist strap and a cable which are electrically connected to the reference potential part and to which the human body makes a contact; and a current detecting part which detects electric currents flown from the power supply part to the human body. | 10-14-2010 |
20100253672 | LIQUID CRYSTAL DISPLAY DEVICE, AND TIMING CONTROLLER AND SIGNAL PROCESSING METHOD USED IN SAME - A liquid crystal display device is provided which is capable of reducing EMI (ElectraMagnetic Interference) noises while simultaneously responding to requirements for the high-speed transmission of image data, miniaturization and thinning of a signal processing board. A timing controller outputs, in accordance with an input data signal and input clock signal, a data line driving circuit controlling signal, internal data signal, internal clock signal to a data line driving circuit and outputs a scanning line driving circuit controlling signal to a scanning line driving circuit. The timing controller has a clock signal frequency setting mode in which a frequency of each of clock signals is set to a different value and the clock signals are supplied to the data line driving circuits and other data line driving circuits in one region and another region. | 10-07-2010 |
20100248157 | METHOD FOR MANUFACTURING A REFLECTION PLATE - It is to suppress the interference of the reflected light easily and securely even in a highly fine liquid crystal display device. The reflection plate comprises recessed or protruded parts and a reflection film formed over the recessed or protruded parts. A unit shape of the recessed or protruded parts is a polygon, an arbitrary point other than a centroid of the polygon that constitutes the recessed or protrude part is placed at a position that meets with an orderly-mannered lattice point as an origin, and each of the unit-shape polygons is arranged at a position that is rotated randomly with respect to the origin. | 09-30-2010 |
20100244037 | THIN FILM TRANSISTOR, ITS MANUFACTURING METHOD, AND LIQUID CRYSTAL DISPLAY PANEL AND ELECTRONIC DEVICE USING SAME - A thin film transistor (TFT) is provided which is capable of reducing leakage currents in a polycrystalline silicon TFT without causing an increase in manufacturing processes. Source/drain regions of an activated layer of the TFT to be formed in a circuit region and pixel region formed on a glass substrate of a liquid crystal display panel for a mobile phone is formed so that its boron impurity falls within a range of 2.5×10 | 09-30-2010 |
20100238105 | LIQUID CRYSTAL DISPLAY DEVICE, ELECTRONIC DEVICE COMPRISING SAME, AND CONTROLLER FOR LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device provided herein can be switched between a display mode and a mirror mode, and can ensure a high image quality in the display mode. | 09-23-2010 |
20100231559 | LIQUID CRYSTAL DISPLAY DEVICE, AND TIMING CONTROLLER AND SIGNAL PROCESSING METHOD USED IN SAME - A liquid crystal device is provided which is capable of being free from degradation of signal receiving sensitivity and/or malfunction without performing thinning-out and complementing on video signals of an electronic device having an embedded peripheral circuit to receive and transmit data. A stop period during which outputting of horizontal synchronizing signal made up of a video signal strobe signal STB and vertical drive clock signal VCK is stopped at least one time or more and for two horizontal periods or more during a display period in one vertical period is set by a control device (for example, timing controller). In this horizontal synchronizing stop period setting mode processing, a first signal (for example, status signal) indicating that the outputting of the horizontal synchronizing signal is in a stop state is transmitted to an electronic circuit (for example, peripheral circuit). | 09-16-2010 |
20100225850 | SURFACE EMITTING DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - A surface emitting device comprises a light guide plate having a light outgoing surface and a reflection surface and an LED light source that includes an LED element and is provided so that light emitted from the LED element enters the light guide plate through a light incoming end surface of the light guide plate. The light guide plate includes a concave portion correspondingly to the LED element on a side of the reflection surface just in front of the LED light source. The concave portion has dimensions in which a width in a width direction of the light guide plate is equal to or larger than a width of a light outgoing surface of the LED element, and a depth from the reflection surface in a thickness direction of the light guide plate is set so that the concave portion is free from overlapping with a region opposed to the light outgoing surface of the LED element. | 09-09-2010 |
20100214504 | VACUUM ADSORPTION CONTROL MECHANISM DEVICE, FILM APPLYING DEVICE, AND DISPLAY DEVICE - An object of the present invention is to provide a vacuum suction control mechanism apparatus capable of accurately bonding a film to a bonding object with a simple structure. A vacuum suction control mechanism apparatus according to the present invention includes a bonding head including a space defined therein, a plurality of suction holes attracting a film, the plurality of suction holes extending from a surface of the bonding head to the space defined in the bonding head, a movable piece partitioning the space into two regions, the movable piece being movable relative to the bonding head within the space in contact with the suction holes, and a connection portion connectable to a decompression source, the connection portion being provided in a first region of the two regions. | 08-26-2010 |
20100208187 | Liquid crystal display device and electronic apparatus using the same and manufacturing method thereof - A liquid crystal display device of IPS mode includes an array of pixels arranged in a matrix pattern by crossing a plurality of video signal lines and a plurality of scanning signal lines each other. Each of the pixels is provided with at least a switching element. A transparent insulating film is provided on both signal lines, and a plurality of pixel electrodes, common electrodes and common lines are provided on the transparent insulating film. The common lines are formed in a grid-shaped pattern such that a first group of the common lines is made of a first conductor having lower reflectivity against optical light than that of metal while a second group of the common lines is made of a second conductor including a metal layer such that the first group and the second group are crossing each other along the video signal lines and the scanning signal lines. | 08-19-2010 |
20100206485 | VACUUM ADSORPTION CONTROL MECHANISM DEVICE, FILM PASTING DEVICE, METHOD OF PASTING FILM, AND DISPLAY DEVICE - An object of the present invention is to provide a vacuum suction control mechanism apparatus capable of accurately bonding a film to a bonding object with a simple structure. A vacuum suction control mechanism apparatus according to the present invention includes a first member including a plurality of suction holes formed in a surface thereof, the plurality of suction holes being connectable to a decompression source, and a second member capable of contacting the plurality of suction holes, the second member being movable relative to the first member, wherein the second member includes connecting member connecting some of the suction holes, the number of which corresponds to a relative position between the first member and the second member, to the decompression source. | 08-19-2010 |
20100188634 | METHOD OF MANUFACTURING AN LCD DEVICE - Disclosed is an active matrix liquid crystal display device including substrates and a liquid crystal layer. The substrate includes: scan signal wiring lines; common signal wiring lines; video signal wiring lines intersecting these wiring lines; and pixels surrounded with the scan signal wiring lines and the video signal wiring lines. Each of pixels includes: a thin film transistor; source electrodes in a layer with the video signal wiring lines; pixel electrodes connected to the source electrodes; and common electrodes connected to the common signal wiring lines. The source electrodes include first parts overlapping the scan signal wiring lines and second parts connecting with the pixel electrodes, which are positioned around central parts between the video signal wiring lines. Molecular axes in the liquid crystal layer rotate under an electric field applied between the pixel electrodes and the common electrodes. | 07-29-2010 |
20100188593 | THIN-FILM TRANSISTOR ARRAY SUBSTRATE, METHOD OF MANUFACTURING SAME AND LIQUID CRYSTAL DISPLAY DEVICE - A vertically aligned thin-film transistor array substrate in which there is no reduction in aperture ratio includes an etching-stop layer formed on an insulating layer; a passivation layer formed on the insulating layer that includes the etching-stop layer; a depression formed in the passivation layer and hollowing the passivation layer to the surface of the etching-stop layer; and a pixel electrode, which is recessed in conformity with the depression, formed on the passivation layer that includes the depression; wherein the etching-stop layer comprises a transparent semiconductor. | 07-29-2010 |
20100182292 | LIQUID CRYSTAL DISPLAY DEVICE, AND DRIVING METHOD AND INTEGRATED CIRCUIT USED IN SAME - A liquid crystal display device is provided which is capable of realizing high-quality display screen with low power consumption. A charge equilibration control signal VCST is outputted by a control unit (for example, driving timing generating section) for charge equilibration time in accordance with a video signal. At time of change in polarities of common voltages vCOM1 and vCOM2, a charge equilibration unit causes a shorting of a circuit between common electrodes COM | 07-22-2010 |
20100173556 | LCD DEVICE INCLUDING A REFLECTION FILM HAVING A CONVEX-CONCAVE SURFACE - An LCD device includes a reflective area in each pixel. A reflection film having a convex-concave surface is provided in the reflective area, film in cross section configuration is formed. Each pixel includes a pixel electrode and a common electrode for applying a lateral electric field on a LC layer. The inclination angle of the reflection film has an inclination angle distribution, wherein the angle component in an area corresponding to the electrodes has a lower angle distribution than the angle components in an area corresponding to a gap between adjacent two of the electrodes. | 07-08-2010 |
20100173231 | LCD DEVICE INCLUDING A REFLECTION FILM HAVING A CONVEX-CONCAVE SURFACE - An LCD device includes a reflective area in each pixel. A reflection film having a convex-concave surface is provided in the reflective area, film in cross section configuration is formed. Each pixel includes a pixel electrode and a common electrode for applying a lateral electric field on a LC layer. The inclination angle of the reflection film has an inclination angle distribution, wherein the angle component in an area corresponding to the electrodes has a lower angle distribution than the angle components in an area corresponding to a gap between adjacent two of the electrodes. | 07-08-2010 |
20100149467 | LIQUID CRYSTAL DISPLAY DEVICE - A normally-black active-matrix-type liquid crystal display device comprises a first substrate having color layers of three or more colors and a second substrate on which an active-matrix array is formed. The first substrate has a structure, which is devoid of a black matrix, in which the color layers are stacked in a frame portion surrounding the display area. A first light-shielding layer in which color layers of three of more colors are stacked is formed on the frame portion on a side of the display area from which scanning lines are led out and on a side of the display area from which data lines are led out, from among four sides of the display area. A second light-shielding layer in which color layers of two colors are built up is formed on the frame portion on at least one side of the other remaining sides of the display area. | 06-17-2010 |
20100149450 | LENS SHEET AND DISPLAY PANEL - To suppress malshaping in a lenticular lens sheet formed by using ultraviolet curing resin, which is caused due to an increase in the aspect ratio of cylindrical lenses and anisotropy of curing contraction. Notch sections are provided to the cylindrical lenses for sectioning the cylindrical lenses in a pseudo manner in the major axis direction (extending direction) of the cylindrical lenses so as to suppress the anisotropy of the curing contraction of the resin. | 06-17-2010 |
20100136871 | MANUFACTURING METHOD OF A LIQUID CRYSTAL DISPLAY PANEL, AND A LIQUID CRYSTAL DRIPPING DEVICE USED THEREFOR - A manufacturing method of the liquid crystal display panel and a liquid crystal dripping device for the liquid crystal dripping and panel pasting method, by which residual moisture, gas constituents, and foreign substances mixed in the liquid crystal can be removed assuredly, and an occurrence of display fault can be suppressed, and can also improve display quality and a yield of the liquid crystal display panel, is provided. In this manufacturing method, prior to drip the liquid crystal on the substrate, pre-treatments, which combines suitably vacuum treatment which removes residual moisture and gas constituents from the liquid crystal maintaining the liquid crystal in a reduced pressure environment, filtration treatment which removes foreign substances from the liquid crystal, and heat treatment which heats the liquid crystal as required for carrying out distributed removal of the organic substances, are performed. | 06-03-2010 |
20100128060 | LIQUID CRYSTAL DISPLAY APPARATUS AND METHOD FOR RESTRAINING A BRIGHT POINT - A sheet presence detecting apparatus includes a plurality of dots including a control area whose display state can be controlled and at least one dot with a bright point including the control area whose display state is controlled to be in an always black state and a bright point area which is always bright. | 05-27-2010 |
20100123863 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY APPARATUS - To provide a transflective liquid crystal display apparatus that employs in-plane switching mode (in-plane switching system), which exhibits a reflection property of wide view angles. Provided is a transflective liquid crystal display apparatus which comprises: a reflective area and a transmissive area; an uneven reflective plate provided in the reflective area; a flattening film laminated on the uneven reflective plate; and common electrodes and pixel electrodes arranged on the flattening film, wherein, the uneven reflective plate comprises a diffusive reflecting function that is capable of diffusely reflecting light making incident at an incident angle of 30 degrees towards directions at exit angles of 0-10 degrees, and a surface of the flattening film is set to be substantially flat. | 05-20-2010 |
20100118255 | DISPLAY DEVICE - Disclosed is a display device including a first substrate and a second substrate bonded to the first substrate. The first substrate includes a first surface and a second surface, on which a columnar spacer is formed. The second substrate includes a third surface, on which a columnar spacer facing portion is formed, and a fourth surface. The second surface is opposed to the third surface, and at least one of a top portion of the columnar spacer and the columnar spacer facing portion has an inclined surface, which is inclined relative to the second surface or the third surface. An inclination direction of the inclined surface, when viewed from a normal direction of the first surface or the fourth surface, is parallel to or perpendicular to a first direction, which is parallel to the first surface or the fourth surface. | 05-13-2010 |
20100118254 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a TFT substrate, a counter substrate, more than one columnar spacer formed on the counter substrate side, a step film of convex shape formed onto the TFT substrate side and arranged at a position facing the columnar spacer, and a liquid crystal sealed between the TFT substrate and the counter substrate, wherein a difference between a central coordinate of the step film and a central coordinate of the columnar spacer seen in a normal direction of a display surface of the liquid crystal display device varies with standard deviation σ of no smaller than 3 μm in at least one direction within an appropriate range in a display area of the display surface. | 05-13-2010 |
20100118006 | LIQUID CRYSTAL DISPLAY DEVICE, LIQUID CRYSTAL DISPLAY CONTROL DEVICE, ELECTRONIC DEVICE, AND LIQUID CRYSTAL DISPLAY METHOD - To provide a liquid crystal display device and the like, which can improve the contrast ratio. The liquid crystal display device includes a liquid crystal display unit and an image processing unit which supplies video signals inputted from a video source section to the liquid crystal display unit. The liquid crystal display unit is formed by stacking a single first liquid crystal display element and a single or a plurality of second liquid crystal display element(s). For each pixel unit of the second liquid crystal display element, the image processing unit generates, by having each dot of the video signal as a reference point, a drive signal for displaying an image according to processing for extracting a maximum value of relative gradations or relative transmittances among a region of a pixel unit (dot) group including the reference pixel units and the pixel units (dots) neighboring to the reference pixel units. | 05-13-2010 |
20100085528 | SPACER SPRAYING SYSTEM, SPACER SPRAYING METHOD AND LIQUID CRYSTAL DISPLAY PANEL - A spacer spraying system and spacer spraying method are provided which are capable of spraying spacers uniformly in a liquid crystal display panel forming region on a substrate. A stage includes a main stage section having a predetermined size and an auxiliary stage section supported in the main stage section so as to be slid in the main stage section or another auxiliary stage section having a structure in which the auxiliary stage section can be connected to the main stage section. By making the auxiliary stage section be slid in the main stage section or be connected to the main stage section according to a size of a substrate mounted on the stage, a size of the stage is made changeable so that a distance between an edge portion of the stage and a liquid crystal display panel forming region existing near the edge portion of the stage falls within a predetermined range. | 04-08-2010 |
20100085294 | SHIFT REGISTER, DISPLAY AND METHOD FOR DRIVING SHIFT REGISTER - A shift register comprises: a first output circuit controlled by a first clock signal to output a signal to a first output signal line; a second output circuit controlled by a second clock signal with a phase different from a phase of the first clock signal to output a signal to a second output signal line; a first control signal line connected to the first and second output circuits; and a second control signal line connected to the first and second output circuits. | 04-08-2010 |
20100066709 | INTERCONNECTION LINE DEVICE, IMAGE DISPLAY APPARATUS, AND METHOD FOR MANUFACTURING INTERCONNECTION LINE DEVICE - An interconnection line device includes an insulating layer for electrical insulation; an external connection terminal which is formed on one surface of the insulating layer: an interconnection line which is formed on another surface of the insulating layer and whose one end portion area is connected to a predetermined signal line; and a connection portion which is arranged so as to penetrate through the insulating layer and connects another end portion area of the interconnection line to the external connection terminal. | 03-18-2010 |
20100053617 | ALIGNMENT MARKER, DISPLAY DEVICE USING THE SAME, AND FABRICATION METHOD THEREOF - An alignment marker includes first marker element pieces for a first viewpoint and second marker element pieces for a second viewpoint different in plan shape. The first and second marker element pieces are respectively formed by dividing marker elements in such a way as to be equal in width to a predetermined marker element pitch. These pieces are arranged at the marker element pitch along an optical image separation direction of the optical image separation element. A predetermined number of the adjoining first and second pieces constitute one repetition cycle. A width of the repetition cycle is in accordance with an arrangement pitch of constituent elements of the optical image separation element. An existing optical image separation element can be used without the formation of the markers thereon and the alignment operation can be performed with a usual aligning and bonding apparatus. | 03-04-2010 |
20100045922 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a pair of substrates, liquid crystal material, a sealing member and pillar spacers. The substrates are provided with an alignment film respectively and the liquid crystal material is disposed between the substrates. The sealing member is provided between the substrates for sealing the liquid crystal material. The pillar spacers are provided on either one of the substrates and the pillar spacers includes asymmetric pillar spacers each having a major axis and a minor axis viewed from a normal direction of the substrates with a round front end and a sharp rear end of the major axis. The asymmetric pillar spacers are arranged on a pixel region in a vicinity of at least one corner of one of the substrates so that the rear end in a direction of the major axis is directed toward the corner. | 02-25-2010 |
20100039354 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A display panel which can be applied to a display device comprises a first substrate, a second substrate and a display element layer. The first substrate has a structure in which a device layer is stacked on an insulating substrate via a first conductive layer. A device layer has at least, a pixel electrode and a wiring that are connected to a pixel switch. The second substrate includes a second conductive layer that is provided so as to face the pixel electrode arranged on the above first substrate. A display element layer is interposed between the above first substrate and the above second substrate. | 02-18-2010 |
20100013853 | NON-RECTANGULAR PIXEL ARRAY AND DISPLAY DEVICE HAVING SAME - There is provided a display area made up of a pixel array with a non-rectangular shaped outer circumference and the pixel array is made up of a plurality of non-rectangular pixels wherein a first conductor line group including a plurality of first conductor lines and a second conductor line group including a plurality of second conductor lines, and a third conductor line group including a plurality of third conductor lines are arranged so as to intersect with one another. Thus, without sacrificing brightness, viewability, and fidelity of an image, pixel array (display device) with the non-rectangular outer circumferential shape being excellent in design characteristics is realized. | 01-21-2010 |
20100013791 | DISPLAY AND METHOD FOR DRIVING THE DISPLAY - A display comprising: an electro-optical material arranged between first and second planes facing each other; a first substrate arranged on the first plane and including a conductor that affords an electrical signal to the electro-optical material; a first electrically conductive film arranged on the second plane to afford an electrical signal to the electro-optical material; a second electrically conductive film arranged outside an area sandwiched between the first and second planes; and a current detection circuit that detects the current on the second electrically conductive film. The display further comprises a control circuit that, during a time period the current is detected by the current detection circuit, applies substantially the same voltage as that applied to the second electrically conductive film to one of the conductor and the first electrically conductive film, which is arranged more proximate to the second electrically conductive film, and sets the other in a floating state, or applies substantially the same voltage as that applied to the second electrically conductive film to both the conductor and the first electrically conductive film. | 01-21-2010 |
20100007593 | LIQUID CRYSTAL DISPLAY UNIT DRIVEN IN A LONGITUDINAL-ELECTRIC-FIELD MODE - A LCD unit includes a drive unit that drives a LC layer in at least a part of a unit pixel by applying thereto a longitudinal electric field. The drive unit drives the at least a part of the unit pixel in an image period by applying thereto an image voltage corresponding to an image, and in a preliminary period preceding to the image period by applying a preliminary voltage equal to or higher than a threshold voltage that allows LC molecules in the LC layer to start change of orientation of the LC molecules. | 01-14-2010 |
20100002404 | DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A display device includes a glass substrate having a display area and a peripheral area. A drive circuit component is mounted on the glass substrate by thermocompression bonding on the peripheral area, and a stress absorption region is provided within the glass substrate close to the circuit component so as to absorb stress produced by thermal deformation of the circuit component. A method of manufacturing the display device of the present invention includes a step of forming stress absorption region into the glass substrate so as to absorb the stress caused by thermocompression bonding of the the circuit component. | 01-07-2010 |
20100002168 | Liquid crystal display apparatus and method for grounding liquid crystal display apparatus - Disclosed is a liquid crystal display apparatus, including: a liquid crystal display panel; a polarizing plate which is processed to be conductive and is attached to a surface of the liquid crystal display panel; and a conductive frame, wherein the polarizing plate includes a projecting area which projects outward from the edge of the liquid crystal display panel, and wherein the conductive frame presses the projecting area of the polarizing plate in order to ground the polarizing plate. A method for grounding a liquid crystal display apparatus is also disclosed. | 01-07-2010 |
20100002163 | LIQUID CRYSTAL DISPLAY DEVICE AND DRIVING METHOD OF THE SAME - To provide a liquid crystal display device capable of improving a moving picture characteristic at a low cost by achieving high luminance of the liquid crystal display device which performs quasi-impulse drive. In the liquid crystal display device of the present invention, a first switching device constituting each pixel has a control terminal connected to a gate line, another control terminal connected to another gate line, and becomes electrically conductive when one of the control terminals is low level while the other is high level. A second switching device has a control terminal connected to the gate line and a control terminal connected to the other gate line. A pixel capacitance and a storage capacitance are connected to data lines via the first switching device, and connected to a black signal supplying wiring via the second switching device. The black signal supplying wiring is common to all the pixels. | 01-07-2010 |
20090323003 | IN-PLANE SWITCHING MODE ACTIVE MATRIX LIQUID CRYSTAL DISPLAY UNIT - In order to improve the light transmissivity above the transparent comb-teeth electrodes provided in an in-plane switching mode active matrix liquid crystal display unit, the liquid crystal gaps above the transparent comb-teeth electrodes are made larger than the liquid crystal gaps between the transparent comb-teeth electrodes. | 12-31-2009 |
20090315183 | LAYER-STACKED WIRING AND SEMICONDUCTOR DEVICE USING THE SAME - A layer-stacked wiring made up of a microcrystalline silicon thin film and a metal thin film is provided which is capable of suppressing an excessive silicide formation reaction between the microcrystalline silicon thin film and metal thin film, thereby preventing peeling of the thin film. In a polycrystalline silicon TFT (Thin Film Transistor) using the layer-stacked wiring, the microcrystalline silicon thin film is so configured that its crystal grains each having a length of the microcrystalline silicon thin film in a direction of a film thickness being 60% or more of a film thickness of the microcrystalline silicon thin film amount to 15% or less of total number of crystal grains or that its crystal grains each having a length of the microcrystalline silicon thin film in a direction of a film thickness being 50% or less of a film thickness of the microcrystalline silicon thin film amount to 85% or more of the total number of crystal grains making up the microcrystalline silicon thin film. | 12-24-2009 |
20090314741 | APPARATUS FOR PROCESSING SUBSTRATE AND METHOD OF DOING THE SAME - The apparatus for processing a substrate includes a substrate carrier for carrying a substrate, a chemical-applying unit for applying chemical to the substrate, and a gas-applying unit for applying gas atmosphere to the substrate. | 12-24-2009 |
20090310078 | ACTIVE MATRIX SUBTRATE AND LIQUID CRYSTAL DISPLAY DEVICE WITH THE SAME - Disclosed is a liquid crystal display device that includes a TFT substrate. A plurality of gate lines and a plurality of common lines extend in a first direction on the TFT substrate. Drain lines extend in a second direction substantially perpendicularly to these lines. Bus lines are located outside a display area and are extending parallel to the drain lines. Common line terminals are provided on either side of each block that is constituted by a predetermined number of gate terminals. The common line terminals and the lead lines therefor are formed on the same layer as the drain lines and are connected to the bus lines on the same layer without any contacts being used. Resistance along the routes taken by common lines can be reduced. | 12-17-2009 |
20090295699 | DRIVE CIRCUIT, ACTIVE MATRIX SUBSTRATE, AND LIQUID CRYSTAL DISPLAY DEVICE - Off-leak current of a TFT, required for a drive circuit configured with a TFT of a single conductivity type, is realized with simple manufacturing steps. The impurity concentration of a source region and a drain region of a TFT is set between 2*10 | 12-03-2009 |
20090290677 | BOOTSTRAP CIRCUIT, SHIFT REGISTER EMPLOYING THE SAME AND DISPLAY DEVICE - Disclosed is a shift register which includes first transistor connected between a first clock signal terminal and an output terminal, a second transistor with a gate connected to an input terminal and a source connected to a gate of the first transistor, a third transistor with a gate connected to a second clock signal terminal, an inverter with an input connected to the input terminal, a fourth transistor cascode connected to the third transistor with a gate connected to an output of the inverter, a fifth transistor connected between the gate of the first transistor and a power supply terminal, a sixth transistor connected between the fourth transistor and the power supply terminal with a gate connected to the input terminal, and a seventh transistor connected between the output terminal and the power supply terminal, the fifth and seventh transistors having gates connected in common to a connection node of the fourth and the sixth transistors. | 11-26-2009 |
20090290112 | DISPLAY DEVICE - A display device includes an optical member arranged on a display surface side of a display device, wherein the optical member comprises a plurality of concaves on a surface thereof, and wherein each of the concaves is formed with three planes crossing at right angles each other. | 11-26-2009 |
20090290095 | Optical unit and LCD device using the optical unit - An optical unit includes a light conductive plate having a first surface and a second surface, at least one optical sheet on the first surface of the light conductive plate, and a light reflective sheet extending over an entire second surface of the light conductive plate and fastened on a portion of a first surface of the optical sheet adjacent a periphery thereof to fasten the light conductive plate, the optical sheet, and the light reflective sheet as an optical unit, and to define a light discharge region on the first surface of the optical sheet and the first surface of the light conductive plate. | 11-26-2009 |
20090289257 | EXPOSURE MASK USING GRAY-TONE PATTERN, MANUFACTURING METHOD OF TFT SUBSTRATE USING THE SAME AND LIQUID CRYSTAL DISPLAY DEVICE HAVING THE TFT SUBSTRATE - Disclosed are an exposure mask capable of improving uniformity of a resist film thickness of a half film thickness part and reducing a display defect to increase a manufacturing yield, a method of manufacturing a TFT substrate using the exposure mask and a liquid crystal display comprising the TFT substrate manufactured by the method and having no display defect. The exposure mask includes a light-shielding pattern on a transparent substrate in which a gray-tone area is provided to at least a part of the light-shielding pattern, the gray-tone area having an oblong light-shielding pattern having a width of a submarginal resolution of an exposure apparatus and sandwiched between oblong slit-type transmissive patterns having a width of the submarginal resolution, and a light-shielding rate of the gray-tone area is gradually reduced toward a center of the oblong light-shielding pattern from longitudinal ends thereof. | 11-26-2009 |
20090286374 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - A base layer is formed on an insulating substrate, and a semiconductor layer is formed in localized fashion thereon. A gate insulating film is then formed so as to cover the semiconductor layer, and a gate electrode is formed on a portion of the gate insulating film. An impurity is then implanted into the semiconductor layer via the gate insulating film, and a source region, a drain region, and an LDD region are formed. The gate insulating film is etched with dilute hydrofluoric acid. An electrode-protecting insulating film is then formed so as to cover the gate electrode, and the entire surface of the surface layer portion of the electrode-protecting insulating film is etched away using dilute hydrofluoric acid. Carrier traps introduced into the electrode-protecting insulating film and the gate insulating film are thereby removed. | 11-19-2009 |
20090284704 | LATERAL ELECTRIC FIELD TYPE LIQUID CRYSTAL DISPLAY DEVICE - A lateral electric field type LCD device displays images uniformly and stably, where abnormally displayed areas caused by mechanical deformation such as a press with a finger do not remain on the display screen for a long time. A first liquid crystal driving electrode and a second liquid crystal driving electrode comprise a first bend and a second bend, respectively. Each pixel region is divided into a first sub-region and a second sub-region by the first and second bends as a boundary in such a way that a rotation direction of liquid crystal molecules in the first sub-region is different from that in the second sub-region. A boundary stabilization electrode is formed at least one of the first and second bends, wherein a shape or position of the boundary stabilization electrode deviates from a line of symmetry of the first and second bends. | 11-19-2009 |
20090281754 | METHOD AND APPARATUS FOR TESTING A SUBSTRATE FOR DISPLAY DEVICE - Disclosed is a test method an apparatus in which an area for test and an area for analysis are specified based on the design information of the display device having a non-rectangular display area. To carry out testing, parasitic capacitances are found using the design information, and operations for weighting are performed on test data or threshold values based on which a decision on pass/fail is to be made (FIG. | 11-12-2009 |
20090268124 | Backlight module with detachable light source unit and liquid crystal display device having the same - A backlight module with a detachable light source unit includes a light guide plate and a light source unit housed in a module case. The light source unit can slide along a lengthwise direction of one end face of the light guide plate. The light source unit is equipped with a U-shaped cover member for holding a plurality of point light sources such as LEDs along a lengthwise direction. The backlight module further includes a coupling member to change a positional relationship between the light guide plate and the light source unit such that a distance between an emitting surface of the LED and an incident plane of the light guide plate during a process of exchanging the light source unit is larger than that between the emitting surface and the incident plane at a time of home position of the light source unit in the module case. | 10-29-2009 |
20090267969 | IMAGE DISPLAY DEVICE HAVING MEMORY PROPERTY, DRIVING CONTROL DEVICE AND DRIVING METHOD TO BE USED FOR SAME - There is provided an image display device capable of obtaining a renewed screen giving normal feelings by simple LUT (Look Up Table) adjustment even at a time of displaying with multiple gray levels. A screen of the electronic paper section making up the display device is renewed by driving for a period of time corresponding to a plurality of frames according to input gray level data of a renewed screen. The renewed screen is displayed with a coarse gray level during a first displaying period in a renewing period corresponding to a plurality of frames at an output voltage specified by a high-order bit of its gray level data and, thereafter, is displayed with a fine gray level during a second displaying period in the renewing period at an output voltage specified by a low-order bit of its gray level data. | 10-29-2009 |
20090262148 | CONTROLLER, HOLD-TYPE DISPLAY DEVICE, ELECTRONIC APPARATUS, AND SIGNAL ADJUSTING METHOD FOR HOLD-TYPE DISPLAY DEVICE - To provide a hold-type display device having a fine luminance efficiency while suppressing generation of motion blur. A controller according to the invention adjusts a signal outputted to a hold-type image display panel, which includes: a double-speed drive converting part which divides one frame of an inputted video signal to a plurality of sub-frames; a color converting part which converts a video signal of three primary colors including the plurality of sub-frames to a video signal of four or more colors including the three primary colors and a compound color; and a sub-frame converting part which converts, the video signal converted by the color converting part, to a signal having a plurality of different gradations whose average luminance value becomes equivalent to luminance of the video signal converted by the color converting part, and takes each of the plurality of gradations as each of gradations of the plurality of sub-frames. | 10-22-2009 |
20090257119 | DISPLAY PANEL, DISPLAY DEVICE, AND TERMINAL DEVICE - A translucent liquid crystal display panel ( | 10-15-2009 |
20090256820 | DISPLAY DEVICE, LIQUID CRYSTAL DISPLAY DEVICE, ELECTRONIC APPARATUS, AND DISPLAY DEVICE MANUFACTURING METHOD - To provide a low-cost display device which can accurately detect a position touched by a finger. A display device displays an image by having display elements capable of performing electro-optic responses formed between conductible first and second substrates, and detects a contact position touched by a contact body by having a conductive impedance surface formed on the second substrate side. The display device includes: linearization pattern sections formed on the first substrate, which include a plurality of electrodes capable of detecting electric currents on a conductive impedance surface; and a conductive member which electrically connects the linearization pattern sections with the conductive impedance surface on the second substrate. | 10-15-2009 |
20090251626 | LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - To provide a structure and a manufacturing method which can manufacture, at a low cost and with good yield, a liquid crystal display panel having a lenticular lens and a substrate formed in a unified manner. When forming a lenticular lens onto a mother CF substrate by using a wet etching method, substrates are dipped into an etching solution while being raised up in such a manner that the length direction of slit openings of a mask is aligned with a vertical direction and an area having no mask pattern comes on a bottom side. With this, the residuals generated due to glass impurities can be drained towards the lower side along the lenticular lens shape to be discharged to the flat area, which makes it possible to suppress deterioration in the etching processed shape. | 10-08-2009 |
20090244449 | LIQUID CRYSTAL DISPLAY DEVICE - In a liquid crystal display device, a first substrate is provided with sub-pixels arranged in an array such that each sub-pixel is arranged in each partitioned area surrounded with wiring lines respectively extending in a direction so as to be crossed each other. A second substrate is provided with color layers such that three consecutive sub-pixels with three color layers as one unit are repeatedly arranged in a predetermined pattern, and a primary color layer for a first sub-pixel of said three sub-pixels and other color layer extended from an adjacent sub-pixel next to the first sub-pixel are arranged on an area opposing to an aperture of at least one sub-pixel among the three sub-pixels. And a liquid crystal layer sandwiched between the first substrate and the second substrate. | 10-01-2009 |
20090244421 | DISPLAY APPARATUS - A display apparatus includes a plurality of internal wirings and a protective element which includes a first terminal and a second terminal at least. The first terminal is connected to at least one of the plurality of internal wirings, and the second terminal is connected to an external circuit. | 10-01-2009 |
20090243995 | DISPLAY PANEL CONTROL DEVICE, LIQUID CRYSTAL DISPLAY DEVICE, ELECTRONIC APPARATUS, AND DISPLAY PANEL DRIVE CONTROL DEVICE - To provide a display panel control device capable of improving gap of moving pictures, etc., without increasing the dividing number of the backlight. The device includes: a black image insertion driving part which performs, on a display panel, black image insertion drive in which video display scanning and black image display scanning are executed in a specific period; and a light-up timing control part which controls a light-up start timing and a light-off start timing of each light source block based on a synchronous signal which synchronizes with the start timing of the video display scanning or the black image display scanning. The light-off period of the light source block is equal to or less than a period from the end of black image display scanning performed on all display lines within a block area to the start of video scanning performed on the first display line within the area. | 10-01-2009 |
20090243971 | DISPLAY DEVICE, ELECTRONIC APPLIANCE, OPTICAL MEMBER, DISPLAY PANEL, CONTROLLER, AND CONTROL METHOD FOR DRIVING DISPLAY PANEL - To provide a display device that is capable of achieving a sufficient confidentiality keeping performance for directions other than a specific direction without a troublesome work such as wearing special eyeglasses. The display device includes: a plurality of display units each having a main pixel for displaying a first image and a sub-pixel for displaying a second image arranged in matrix in a first direction and a second direction; and an optical member which distributes light emitted from the plurality of display units towards different directions along the first direction. The display unit has a first display area in which the main pixel and the sub-pixel are formed in the second direction, and a second display area in which only the main pixel is formed. | 10-01-2009 |
20090242885 | MANUFACTURING PROCESS OF LIQUID CRYSTAL DISPLAY DEVICE, AND LIQUID CRYSTAL DISPLAY DEVICE - A manufacturing process of an LCD de vice of the invention includes forming a first substrate provided with a pixel part with thin film transistors and a seal portion arranged around the pixel part, forming a second substrate opposed to the first substrate, filling a liquid crystal layer between the first substrate and the second substrate, and adhering the first substrate to the second substrate with a sealant provided for the seal portion, wherein the forming the first substrate includes forming a semiconductor layer composing the thin film transistor, forming in the seal portion a semiconductor connection layer made of a same material as the semiconductor layer, and forming an organic interlayer insulating film, wherein the forming the semiconductor layer and the forming the semiconductor connection layer are performed in the same step. | 10-01-2009 |
20090237600 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY UNIT - A LCD unit includes a reflective area and a transmissive area in each pixel, which are driven by respective drive electrode assemblies. A first substrate and a second substrate that sandwich therebetween a LC layer include respective shied films in the boundary area between the reflective area and the transmissive area. | 09-24-2009 |
20090237578 | TRANSFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE - A transflective liquid crystal display device is provided with a liquid crystal layer sandwiched between a first substrate with an array of switching elements and a second substrate with a black matrix so as to form a first area for a normally black display and a second area for a normally white display A first electric potential difference formed between the black matrix and both of the first common electrode and the first pixel electrode formed in the first area on the first substrate is made to be smaller than a larger one of the second electric potential difference formed between the black matrix and both of the second common electrode and the second pixel electrode formed in the second area. | 09-24-2009 |
20090231715 | OPTICAL ELEMENT ARRAY SHEET, DISPLAY DEVICE, AND FABRICATION METHOD FOR SAME - An optical element array sheet is provided with: a first area in which an optical element array is arranged that is composed of a plurality of optical elements arranged at a prescribed period, a second area formed at the end of the first area with a surface shape that differs from the first area, and a trough formed at the border of the first area and the second area. The side-wall on the second-area side of the trough is formed inclined with respect to a reference line that extends in the thickness direction of the optical element array with the bottom of the trough as the point of origin. | 09-17-2009 |
20090209070 | METHOD FOR MANUFACTURING A THIN FILM TRANSISTOR HAVING A MICRO-CRYSTALLINE SILICON HYDROGEN FEEDING LAYER FORMED BETWEEN A METAL GATE AND A GATE INSULATING FILM. - A TFT (Thin Film Transistor) is provided in which a hydrogen feeding layer is able to be formed in a position where diffusing distance of hydrogen can be made short without causing an increase in photolithography processes. In the TFT, the hydrogen feeding layer to diffuse hydrogen into a dangling bond existing at an interface between a polycrystalline silicon thin film and a gate insulating film is formed in a position between the gate insulating film and a gate electrode. According to this configuration, diffusing distance of hydrogen at a period of time during hydrogenation can be made short and the hydrogenation process can be sufficiently performed without taking time in heat treatment. | 08-20-2009 |
20090207348 | OPTICAL DISPLAY DEVICE AND MANUFACTURING PROCESS FOR THE SAME - An optical display device of the invention includes an optical display panel, an optical film arranged so that at least one side of a surface on the optical display panel can be covered, and an adhesive layer for fixing the optical film on the optical display panel, wherein the adhesive layer is arranged outside a transparent substrate constituting the optical display panel as seen from a normal direction to a display surface of the optical display panel, and there is no gas layer between said optical film and the display area on the optical display panel. | 08-20-2009 |
20090204840 | BROWSING TERMINAL, CHARGING TERMINAL, AND COMMUNICATION SYSTEM AS WELL AS TRANSMITTING/RECEIVING SYSTEM USING THE SAME - To provide a browsing terminal and the like with high security, which can effectively prevent contents data stored in a terminal from being stolen unlawfully by a third party even if the terminal is accidentally lost. The browsing terminal includes: a receiving part for receiving contents data; a volatile memory for storing the received contents data; a display device with a memory function, which displays the contents data stored in the volatile memory; and a secondary battery for supplying power to the volatile memory and the display device. | 08-13-2009 |
20090191656 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - An in-plane switching liquid crystal display device is designed in such a way that an angle defined by the lengthwise direction of a common electrode and a pixel electrode and a rubbing direction of an alignment layer is set to 10 to 20°, a cell gap d is set to 2.7 μm or smaller, the dielectric anisotropy Δ∈ of a liquid crystal constituting a liquid crystal layer is set to 8 to 20, a white voltage V | 07-30-2009 |
20090185115 | ACTIVE MATRIX TYPE LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING PROCESS FOR THE SAME - An active matrix liquid crystal display device of the invention includes a liquid crystal display panel operating in a normally black mode having a first substrate provided with a color filter and a second substrate provided with an active matrix array, wherein the first substrate is provided with a laminated colored layer with three colors, a laminated colored layer with two colors and a colored layer with one color in a frame part surrounding a display area without being provided with a black matrix, and the second substrate is provided with a conductive film formed in a region which is opposed to the laminated colored layer with two colors and the colored layer with one color, between the display area and the laminated colored layer with three colors. | 07-23-2009 |
20090185105 | DC/AC INVERTER SUBSTRATE HAVING VOLTAGE ABNORMALITY DETECTOR CIRCUIT - A DC/AC inverter substrate includes a voltage abnormality detector circuit. All of a high voltage side detection sensor, a low voltage side detection sensor, and a high-voltage and low-voltage detection sensor in the voltage abnormality detector circuit are disposed without being electrically connected to a secondary side of a transformer or to a connection point. Those detection sensors are not damaged since overvoltage is not applied to the voltage abnormality detector circuit when abnormal discharge occurs because the detection sensors are not electrically connected. | 07-23-2009 |
20090185090 | LATERAL ELECTRIC FIELD TYPE LIQUID CRYSTAL DISPLAY DEVICE - A lateral electric field type LCD device makes it possible to increase the degree of freedom in designing the constituent elements thereof and to improve the aperture ratio easily compared with the related-art LCD structure. The drain bus lines are entirely covered with the at least one first liquid crystal driving electrode (e.g., the common electrode). The gate bus line corresponding to each pixel region is covered with the at least one first liquid crystal driving electrode except for a predetermined non-overlapped area existing in a part that does not overlap witt the corresponding TFT. The predetermined non-overlapped area of the gate bus line corresponding to each pixel region is covered with the storage capacitor electrode corresponding to the adjacent pixel region. Preferably, the at least one first liquid crystal driving electrode comprises openings that expose the channel regions of the TFTs, respectively. | 07-23-2009 |
20090168167 | DISPLAY DEVICE AND TERMINAL UNIT USING THE SAME - A display device reduces the image quality degradations by suppressing the effect of the defective alignment regions caused by the spacers while minimizing the aperture ratio lowering, and prevents the image quality change dependent on the observation positions. The display device has a display panel and a lenticular lens. Each unit pixel of the display panel includes the sub-pixel for the left eye and the sub-pixel for the right eye. To keep the pair of substrates at a predetermined gap, spacers are arranged at predetermined positions in the gap. The spacers are stripe-shaped and extended along a direction perpendicular to the image separation axis of the lenticular lens. The spacers are equally overlapped with the sub-pixels for the left eye and those for the right eye. The spacers may be isolated for the respective unit pixels, or the first or second sub-pixels. | 07-02-2009 |
20090167996 | COLOR FILTER SUBSTRATE AND LIQUID CRYSTAL DISPLAY UNIT - A light shield member in a LCD unit includes a first shield section that includes a pile of two color filter patterns and separates each effective opening of pixel from an effective opening of the adjacent pixel, and a second shield section that includes a pile of three color filter patterns and shields a TFT area including a TFT and the vicinity thereof. | 07-02-2009 |
20090167731 | DISPLAY DEVICE | 07-02-2009 |
20090153214 | DELAY ELEMENT, VARIABLE DELAY LINE, AND VOLTAGE CONTROLLED OSCILLATOR, AS WELL AS DISPLAY DEVICE AND SYSTEM COMPRISING THE SAME - To provide, with a simple structure, a voltage controlled oscillator, etc., whose center oscillation frequency is stable even if there is a change in the temperature. A delay element includes: a delay generating part which adds a delay amount to an input signal to generate an output signal; and a delay control part which controls the delay. The delay control part has a delay adjusting circuit which outputs a first control signal for adjusting the delay amount, and a temperature compensating circuit which outputs a second control signal for compensating property changes caused by the temperature. The delay control part outputs a third control signal obtained by synthesizing the first control signal and the second control signal to the delay generating part to control the delay amount. The delay control part obtains the third control signal by having the delay adjusting circuit and the temperature compensating circuit connected in series. | 06-18-2009 |
20090135381 | APPARATUS FOR PROCESSING SUBSTRATE AND METHOD OF DOING THE SAME - An apparatus for processing a substrate includes a substrate carrier for carrying a substrate, a chemical-applying unit for applying chemical to the substrate, and a development unit for developing the substrate. | 05-28-2009 |
20090128754 | MANUFACTURING METHOD THEREOF AND LIQUID CRYSTAL DISPLAY PANEL - A color filter substrate includes a display area for displaying images, a frame area being adjacent to the display area and at least two kinds of laminated pieces which are composed by laminating at least two pieces of colored layers each including a different color. Here, the laminated pieces are arranged in the frame area in a shape of mosaic. | 05-21-2009 |
20090128721 | ACTIVE MATRIX LIQUID CRYSTAL DISPLAY DEVICE - Disclosed is an active matrix liquid crystal display device including: an active matrix liquid crystal display device of a normally black mode which includes an active matrix substrate and an opposed substrate and in which a black matrix is not provided on the opposed substrate, wherein a gap between opaque electrodes which are closely located and whose electric potentials are different from each other in a frame portion around a display area of the active matrix substrate is covered with a constant-potential transparent electrode arranged in an upper layer of the gap. | 05-21-2009 |
20090122244 | LIQUID CRYSTAL DISPLAY PANEL AND METHOD OF MANUFACTURING THE LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel has a pair of opposed substrates, a seal material and a liquid crystal material. The seal material bonds the pair of substrates to each other, and is formed into a closed curve shape enclosing a region including a pixel region. The liquid crystal material is filled in a region enclosed by the pair of substrates and the seal material. A surface of interface which is a surface made up of at least one substrate of the pair of substrates, and which is in contact with the liquid crystal material in a frame region enclosed by an outer periphery of the pixel region and an inner periphery of the seal material, includes a low wettability structure in which wettability to the liquid crystal material is lower than that of the surface of the one substrate in the pixel region. | 05-14-2009 |
20090122211 | TRANSFLECTIVE LCD UNIT - A transflective LCD unit includes a liquid crystal (LC) layer: first and second substrates sandwiching therebetween the LC layer to define an array of pixels each including a reflective area and a transmissive area; an electrode assembly for driving the LC layer such that the LC layer in the reflective area is driven in a longitudinal-electric-field mode and the LC layer in the transmissive area is driven in a lateral-electric-field mode; and a reverse-tilt control member for controlling a reverse tilt area in which a reverse tilt of LC molecules occurs near the boundary between the reflective area and the transmissive area. | 05-14-2009 |
20090109356 | LIQUID CRYSTAL DISPLAY DEVICE AND DRIVING METHOD FOR THE SAME - A liquid crystal display device of the present invention includes a TFT substrate having a substrate and a display pixel arranged in a matrix form on the substrate, a counter substrate opposed to the TFT substrate and being stuck therewith and a liquid crystal enclosed between the TFT substrate and the counter substrate, the pixel electrode and the first common electrode are arranged so that an electric field along a principal plane of the TFT substrate can be applied to the liquid crystal, a second common electrode for inputting a common electric potential is formed on the counter substrate, the second common electrode is opposed to the first common electrode, and a conduction part for electrically connecting the second common electrode and the first common electrode mutually and transmitting the common electric potential to the first common electrode is formed near each display pixel or near a predetermined display pixel. | 04-30-2009 |
20090109247 | DISPLAY PANEL CONTROL DEVICE, LIQUID CRYSTAL DISPLAY DEVICE, ELECTRONIC APPLIANCE, DISPLAY DEVICE DRIVING METHOD, AND CONTROL PROGRAM - To provide a display panel control device capable of preventing generation of step-like tailing and ghost when executing black insertion drive. A first correction device performs first correction on a gradation value of a video signal by considering response delay of the display panel when changing from a second gradation voltage to a first gradation voltage. A second correction device performs second correction on one of or both of the gradation value of the video signal and the gradation voltage of a monochrome image signal by considering accumulative luminance reaching delay of the video part caused due to a difference between each monochrome display luminance of each monochrome image part in different unit frame cycle periods, when the gradation value of the video signal changes from a unit frame cycle period to another unit frame cycle period. A monochrome image insertion drive control device generates the monochrome image inserted video signal including the video part and the monochrome image part to which the first correction or the second correction is performed, and controls the monochrome image insertion drive of the display panel. | 04-30-2009 |
20090109202 | LIQUID CRYSTAL DISPLAY DEVICE AND DRIVING METHOD FOR THE SAME - A liquid crystal display device according to an exemplary aspect of the invention includes a thin film transistor (TFT) substrate having a substrate and a display pixel arranged in a matrix form on the substrate, a counter substrate opposed to the TFT substrate, the pixel electrode and the first surface common electrode are arranged so that an electric field along a principal plane of said TFT substrate can be applied to the liquid crystal, a second surface common electrode is formed on the counter substrate, a same common electric potential is inputted into the second surface common electrode as well as into the first surface common electrode, the second surface common electrode is opposed to the first surface common electrode, and the second surface common electrode is arranged so that an electric field along a principal plane of the counter substrate can be applied to the liquid crystal. | 04-30-2009 |
20090109169 | DISPLAY DEVICE AND ELECTRONIC APPLIANCE - To provide a liquid crystal display device capable of switching the range of viewing angles while being able to reduce the cost and thickness of the device, and to provide an electronic appliance having the same. The display device according to the present invention includes: a liquid crystal type display panel having a diffusive reflection part which diffusively reflects light irradiated from the front side while transmitting light from the back side; and a backlight source disposed on a back face of the display panel along the display panel for switchably outputting transmission light of different directivities. | 04-30-2009 |
20090103283 | LIQUID CRYSTAL DISPLAY BACKLIGHT AND LIQUID CRYSTAL DISPLAY DEVICE - To provide a liquid crystal display backlight and a liquid crystal display device, which can improve the heat dissipating effect, can reduce the thickness and weight of the device. The liquid crystal display backlight includes: an emission light guide plate for emitting illuminating light for a liquid crystal display panel from one face; one and other mixed-color light guides mounted on a same plane of other face of the emission light guide plate via a spacer; a heat-dissipating spatial area provided between the mixed-color light guide plates; light-emitting devices disposed within the heat-dissipating spatial area; and reflectors for guiding output light, propagated inside each mixed-color light guide plate, towards corresponding end faces of the emission light guide plate from outside end face of each mixed-color light guide plate. A holding plate for holding the light-emitting devices is provided, facing each mixed-color light guide plate with an airing gap provided therebetween. | 04-23-2009 |
20090103282 | DISPLAY DEVICE - A display device including a display panel which displays an image and a backlight unit which illuminates a light to the display panel, include the backlight unit with a fixing member fixed on a device casing; a flexible printed circuit substrate which is fixed on the fixing member; and a spacer which is fixed on the flexible printed circuit substrate, wherein the flexible printed circuit substrate in an end part of the display panel is sandwiched between the fixing member and the spacer. | 04-23-2009 |
20090103035 | LATERAL ELECTRIC FIELD TYPE ACTIVE-MATRIX ADDRESSING LIQUID CRYSTAL DISPLAY DEVICE - A lateral electric field type active-matrix addressing liquid crystal display device suppresses the lateral cross talk induced by the coupling capacitances (i.e., the parasitic capacitances) between the drain bus lines and the common bus line corresponding thereto with a simple structure. In each of the pixel electrodes, at least one electrically isolated light-shielding electrode is formed to extend along the drain bus lines that define the pixel electrode near the same drain bus lines. The light-shielding electrode is overlapped with a part of a corresponding one of the pixel electrodes to the pixel region in such a way that an insulating film intervenes between the light-shielding electrode and the part, the part extending along these drain bus lines in the vicinities thereof. The light-shielding electrode may be electrically connected to the corresponding one of the pixel electrodes at a point in the pixel region. | 04-23-2009 |
20090102769 | IMAGE DISPLAY DEVICE, AND IMAGE DISPLAY METHOD USED FOR SAME - An image display device is provided which is capable of improving reproducibility of a white color. An RGB video signal is converted by a gamma converting section into three color luminance values and the maximum luminance value and minimum luminance value of the three color luminance values are calculated by a Min/Max calculating section. The first four color luminance values are calculated by an RGB luminance calculating section. A scaling factor is calculated by a scaling factor calculating section based on the first four color luminance values and the maximum luminance value. The second four color luminance values are calculated by an RGBW scaling luminance calculating section based on the first four color luminance values and on the scaling factor. An RGBW video signal corresponding to a gray level value of four color is generated by a reverse gamma converting section. | 04-23-2009 |
20090096943 | DISPLAY DEVICE, DRIVING METHOD THEREOF, TERMINAL DEVICE, AND DISPLAY PANEL - To provide a plural-viewpoint display device having an image separating optical element such as a lenticular lens or a parallax barrier, which is capable of arranging thin film transistors and wirings while achieving substantially trapezoid apertures and high numerical aperture, and to provide a driving method thereof, a terminal device, and a display panel. A neighboring pixel pair arranged with a gate line interposed therebetween is connected to the gate line placed between the pixels, each of the pixels configuring the neighboring pixel pair is connected to the data line different from each other, and each of the neighboring pixel pairs neighboring to each other in an extending direction of the gate lines is connected to the gate line different from each other. | 04-16-2009 |
20090096726 | DISPLAY DEVICE, TERMINAL DEVICE, DISPLAY PANEL, AND DISPLAY DEVICE DRIVING METHOD - To provide a plural-viewpoint display device having an image separating optical element such as a lenticular lens or a parallax barrier, which is capable of achieving a high image quality by suppressing deterioration in the display image quality caused when a block division driving method is employed, and to provide a terminal device, a display panel, and a driving method thereof, which can be preferably used for those devices. A pixel group configured with pixels for displaying a right-eye image includes a pixel connected to a data line phase-deployed in the first phase of a block division driving method, and a pixel connected to a data line phase-deployed in the third phase, and a pixel connected to a data line phase-deployed in the second phase. In this manner, it is designed to have no deviation in the phase deployment orders in the pixel groups for each viewpoint. | 04-16-2009 |
20090091692 | LCD DEVICE INCLUDING A BIAXIAL OPTICAL ANISOTROPIC LAYER - A LCD device includes a LC cell including a homogeneously-oriented LC layer and a pair of transparent substrates. A pair of polarizing films sandwiching therebetween the LC cell. A protective layer of the light-emitting-side polarizing film has an optical isotropy, and protective layer of the light-incident-side polarizing film has an thickness-wise retardation of 20 to 90 nm. A biaxial optical anisotropic film is interposed between the light-emitting-side polarizing film and the LC cell, and a second optical anisotropic film for cancelling the wavelength dispersion caused by the biaxial optical anisotropic film is interposed between the light-incident-side polarizing film and the LC cell. | 04-09-2009 |
20090080148 | DEVICE AND MANUFACTURING METHOD THEREOF - A device includes a module, a flexible unit fixed on a fixing part of which relative position to a position of the module is variable, a casing covering the module and the flexible unit, and a protector which is made of material having less scratch hardness than material of the casing. The protector has a fixing part, a protruding part and a protecting part. The fixing part, which is a part of a first surface of the protector, is fixed on the casing. The protruding part, which is a part of the protector, protrudes from an edge of the casing. The protecting part, which is a part of a second surface behind the first surface excluding the protruding part, contacts with the flexible unit. | 03-26-2009 |
20090079921 | LIQUID CRYSTAL DISPLAY DEVICE - To suppress light leakage at the time of dark state, and to provide a liquid crystal display device whose electrodes in the reflection areas can be formed with high precision. The liquid crystal display device has a reflection area within a pixel unit by corresponding at least to a reflection plate forming part, and the reflection area is driven with a lateral electric field mode and normally-white. A driving electrode for forming an electric field to a liquid crystal layer of the reflection area is formed on the reflection plate via an insulating film by using a non-transparent electric conductor. | 03-26-2009 |
20090079919 | DISPLAY DEVICE, AND PORTABLE DEVICE AND TERMINAL DEVICE INCORPORATING SUCH DISPLAY DEVICE - A liquid crystal display device comprises a plurality of pixels arrayed in a first direction and a second direction, each of the pixels having a reflective area in at least a portion thereof. The reflective area comprises a surface-irregularity film that is a film having a plurality of surface irregularities, a light reflecting film disposed as an upper layer over the surface-irregularity film, and an electrode group disposed as an upper layer over the light reflecting film. The electrode group in each of the pixels that are arrayed in at least the first direction comprises at least two types of electrode patterns having different layouts. | 03-26-2009 |
20090079918 | Liquid crystal display device and method of fabricating the same - A liquid crystal display device including a first substrate, a second substrate facing and spaced away from the first substrate, a liquid crystal layer sandwiched between the first and second substrates, a switching device formed on the first substrate, a first electrically insulating film randomly patterned on the first substrate, a second electrically insulating film covering the first electrically insulating film therewith, and having a wavy surface, and a reflection electrode formed on the second electrically insulating film, and electrically connected to an electrode of the switching device, wherein a light passing through the second substrate and the liquid crystal layer is reflected at the reflection electrode, and the second electrically insulating film extends outwardly from the first electrically insulating film by a certain length at an end of a display region in which images are to be displayed, such that a step formed by the first and second electrically insulating films in the vicinity of the end of the display region is smoothed. | 03-26-2009 |
20090073364 | Lateral electric-field type Liquid Crystal Display device and method of fabricating the same - A liquid crystal display device improves the adhesion property between the organic transparent insulating film and the transparent electrodes formed thereon and the transmittance of the insulating film in the non-electrode regions, thereby increasing the display brightness while preventing the defective patterning of the electrodes. An organic transparent insulating film is formed on or over a transparent substrate. The organic transparent insulating film includes a reformed layer in its surface. Transparent electrodes are formed on the organic transparent insulating film to be in contact with the reformed layer. In electrode regions where the transparent electrodes are present, the reformed layer has a first thickness. In non-electrode regions where the transparent electrodes are not present, the reformed layer is not present, or a remainder of the reformed layer is present in such a way as to have a thickness less than the first thickness. | 03-19-2009 |
20090073357 | COLOR FILTER SUBSTRATE AND LCD DEVICE USING IT - In a color filter substrate without an overcoat layer, a planarization pattern layer is further provided so as to cover at least an outer step portion of a frame-shaped resin black matrix. | 03-19-2009 |
20090073346 | BACKLIGHT AND LIQUID CRYSTAL DISPLAY APPARATUS - The backlight includes a first light guide plate which emits a light inputted from an end face thereof from a main surface thereof, a second light guide plate which includes an end face for an incoming light and an end face for an emitting light, and which is arranged behind the first light guide plate, a reflection sheet which is arranged between the first light guide plate and the second light guide plate, a chassis which houses the first light guide plate, the second light guide plate and the reflection sheet, and a rear cover which fixes the first light guide plate, the second light guide plate and the reflection sheet with the chassis. The first light guide plate and the second light guide plate are positioned in a thickness direction thereof. | 03-19-2009 |
20090059153 | DISPLAY DEVICE - A display device includes a first substrate having a group of terminal electrodes on one side thereof, at least one of the terminal electrodes forming a branched electrode with an isolation region extending along an elongating direction of each the terminal electrode and a second substrate opposing the first substrate such that the terminal electrodes are exposed from an overlapping area of the first substrate and the second substrate. | 03-05-2009 |
20090059107 | TRANSFLECTIVE LCD UNIT - A transflective LCD unit includes an array of pixels each including a reflective area and a transmissive area. The LC layer has an effective retardation of λ/4 in the reflective area, and an effective retardation of λ/2 in the transmissive area. A retardation film disposed in the reflective area provides a retardation of λ/2 to the light passed thereby. An angle of θ between the optical axis of the retardation film and the polarized direction of the light is in a range of 0 degree<θ<22.5 degrees. | 03-05-2009 |
20090058306 | BLACKLIGHT UNIT AND DISPLAY DEVICE - The light-guide plate has an extended portion. The extended portion has a recess formed in a thickness direction, and the optical sensor is arranged within the recess. | 03-05-2009 |
20090046232 | LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME - A liquid crystal display panel for displaying an image by controlling an orientation direction of a liquid crystal mixture with respect to each pixel, includes a first common electrode which is formed on a first substrate; a second common electrode which is formed on a second substrate and includes a predetermined opening; and a pixel electrode which is formed on the second substrate, wherein the first substrate faces the second substrate so that the liquid crystal mixture with positive dielectric anisotropy is sandwiched between the first common electrode and the second common electrode, and wherein the orientation direction of the liquid crystal mixture changes mainly in a face parallel to the substrate according to an electric field generated from electric potential of the first common electrode, the second common electrode, and the pixel electrode. | 02-19-2009 |
20090040192 | FLAT- PANEL DISPLAY DEVICE AND ELECTRONIC APPARATUS - A combination flat-panel touch sensor/display device includes a display device substrate on which signal lines, scanning lines and storage capacitance lines for applying electrical signals to liquid crystal are formed. A surface of the flat-panel display device corresponding to a display area has a transparent conductive film serving as an impedance surface. The device further includes current detecting circuits for detecting currents that flow through the impedance surface. In an interval over which the current detecting circuits detect current, at least one of the signal lines, scanning lines and storage capacitance lines is placed at a high impedance. The device reduces thickness without decline in display characteristics. | 02-12-2009 |
20090033826 | DISPLAY DEVICE - A display device which enables size reduction, particularly in the frame thereof, and allows a thinner liquid crystal panel and a larger screen is provided. Positioning of a liquid crystal panel is performed by contacting the outer periphery of a back side polarizing plate, which is affixed to a second transparent substrate configuring the main part of the liquid crystal panel, with the inside of a protruded fitting portion formed on the frame of a backlight assembly. Thereby, the display panel can be positioned securely without enlarging the outside dimension of the front chassis and the frame. This enables to realize a small-size display device, particularly, size reduction in the frame of the front chassis and reduction of the outside dimension. | 02-05-2009 |
20090033650 | VIDEO PROCESSING METHOD, VIDEO DISPLAY DEVICE AND ITS TIMING CONTROLLER - Video processing method, a video display device and its timing controller can support video signals having different types of resolutions from ones set in advance without a special circuit identifying the resolution. Timing controller of video display device generates a first horizontal reference signal (HRST_start) indicating start of an active period of a data enable signal and a second horizontal reference signal (HRST_end) indicating end of the active period from an input video signal. Next, timing controller generates control signals (HSP, STB, POL, VCK, and VOE) based on the number of clocks from the rise of the first and second horizontal reference signals (HRST_start and HRST_end) and on signal generation timing values (α, A to D) predetermined for each control signal supplied to drivers. | 02-05-2009 |
20090027598 | STACKED LCD UNIT - A LCD unit includes a plurality of LC panels stacked one on another. If a picture to be displayed on the LCD unit is a still picture, one of the LC panels consecutively scans plurality of rows of pixels in a direction opposite to the scanning direction of the rows of pixels in the rest of LC panels. If the picture is a moving picture, all the LC panels consecutively scans in the same direction. | 01-29-2009 |
20090027592 | Display device, manufacturing method of display device, and manufacturing apparatus for the same - A display device includes a first display device, a second display device bonded to the first display device, and an adhesive provided between the first display device and the second display device to fix the first display device on the second display device, and including a light diffusion particle. | 01-29-2009 |
20090021466 | SEMICONDUCTOR CIRCUIT, DISPLAY APPARATUS EMPLOYING THE SAME, AND DRIVING METHOD THEREFOR - Disclosed is a display apparatus including two scanning circuits of the same configuration and layout, arranged on either sides of the display part. As long as one of the scanning circuits is in operation, the other scanning circuit is in a state in which no output signal is output. | 01-22-2009 |
20090015777 | FLAT DISPLAY MODULE - In a display module, a flexible wiring substrate is connected to a terminal portion of a flat display panel, and a reinforcing member is attached to at least one surface of the display panel. The reinforcing member is made wider than the flexible substrate and is arranged so as to cover those regions extending from an overlapping region of two substrates of the display panel to a region extending and reaching the flexible substrate located outside of the terminal portion. | 01-15-2009 |
20090015759 | LIGHT EMISSION CONTROL CIRCUIT, LIGHT EMISSION CONTROL METHOD, FLAT ILLUMINATING DEVICE, AND LIQUID CRYSTAL DISPLAY DEVICE HAVING THE SAME DEVICE - There is provided a light emission control circuit being capable of simplifying a power source circuit reducing costs and power consumption. A constant current circuit is serially connected to a specified light emitting device group out of a plurality of light emitting device groups and a power source circuit supplies power to each light emitting device group and a current detecting unit detects a current flowing through a specified light emitting device group and a power control unit controls a power source circuit based on a pre-set current value and on a detected value. | 01-15-2009 |
20090015748 | Liquid crystal display device - A liquid crystal display device includes a liquid crystal display panel and a light source consisting of a plurality of light emitting devices and the light emitting devices are divided into a plurality of groups, and each group's light emitting device is mounted on a different structural member, respectively. | 01-15-2009 |
20090015744 | LIQUID CRYSTAL DISPLAY DEVICE - To provide a pixel matrix and the like, which are capable of improving the picture quality by suppressing generation of flicker and crosstalk without deteriorating the numerical aperture of the pixels and without increasing the manufacturing cost. A first switch device has transistors connected in series. When selected by a gate line, the transistors are set ON simultaneously to apply a voltage, which is supplied from a data line, to a pixel electrode. A second switch device has a transistor and a control capacitor. When selected by a gate line different from the one mentioned above, the transistor is set ON to supply a prescribed potential to a connection point between the transistors of the first switch, and the prescribed potential is stored at the control capacitor. When not selected by the both gate lines, the potential of the connection point is kept to the potential stored at the control capacitor. | 01-15-2009 |
20090015541 | BACKLIGHT DRIVING METHOD OF LIQUID CRYSTAL DISPLAY DEVICE, BACKLIGHT DRIVING DEVICE, AND LIQUID CRYSTAL DISPLAY DEVICE - There is provided a method of driving a backlight of a liquid crystal display device capable of eliminating leakage of light from adjacently-placed light emitting blocks. A gray level and maximum gray level of an input video signal are inputted for every light-emitting block. An output average gray level is calculated and a lighting control signal corresponding to converted luminance is outputted. The drivers responding to the lighting control signal makes LEDs (Light Emitting Diodes) emit light. An average gray level from an output from sensors is calculated. An average gray level, based on an average gray level and a light leakage rate, by taking light leakage into consideration. A gray level correcting signal is outputted in the light-emitting block based on the above output average gray level. An output average gray level is corrected in response to a gray level correcting signal. | 01-15-2009 |
20090014722 | ACTIVE-MATRIX-DRIVE DISPLAY UNIT INCLUDING TFT - An active-matrix-drive LCD includes a TFT substrate, on which a TFT is formed. The TFT includes a gate electrode layer, a gate insulating film, a patterned semiconductor layer, and a source/drain electrode layer, which are consecutively formed on an insulating substrate of the TFT substrate. The gate electrode layer has a thickness smaller than a thickness of the gate insulating film. | 01-15-2009 |
20090014721 | THIN FILM TRANSISTOR AND MANUFACTURING METHOD OF THE SAME - To achieve TFT having a high light-resistance characteristic with a suppressed light leak current at low cost by simplifying the manufacturing processes. The TFT basically includes a light-shielding film formed on a glass substrate that serves as an insulating substrate; an insulating film formed on the light-shielding film; a semiconductor film formed on the insulating film; and a gate insulating film formed on the semiconductor film. Each layer of a laminate that is configured with three layers of the light-shielding film, the insulating film, and the semiconductor film is patterned simultaneously. Further, each layer of the laminate is configured with silicon or a material containing silicon. | 01-15-2009 |
20090009447 | TRANSFLECTIVE TYPE LCD DEVICE HAVING EXCELLENT IMAGE QUALITY - An LCD device has a reflective area that reflects light incident from a polarizing film side using a reflection film, and a transmissive area that transmits light of a backlight incident from a TFT substrate side. The drive voltages of the reflective area and transmissive area are Vr and Vt, the black voltage in the reflective area is Vr (K), the black voltage in the transmissive area is Vt (K). The reflectance R, the transmittance T, characteristics of R with respect to drive voltage [Vr(K)-Vr] and characteristics of T with respect to drive voltage [Vt-Vt (K)] substantially match each other. | 01-08-2009 |
20090002580 | LIQUID CRYSTAL DISPLAY DEVICE WITH TOUCH PANEL AND TERMINAL DEVICE - A liquid crystal display device with a touch panel has a reflective display region and a transmissive display region, at least the transmissive display region including a liquid crystal layer energizable according to a lateral electric field mode. The liquid crystal display device includes a liquid crystal layer held between a pair of substrate disposed in confronting relation to each other, observer-side circular polarizer | 01-01-2009 |
20080316382 | DISPLAY DEVICE - Disclosed is a display device including: a display panel on which a plurality of driver chips are mounted by using a COG configuration; a signal substrate on which a timing controller for generating a differential signal inputted into each of the driver chips is formed; and a connecting substrate which connects the plurality of driver chips with the timing controller, wherein the connecting substrate includes a first connecting substrate on which a first line for inputting the differential signal into a driver chip excluding a driver chip located at a terminating area is formed and a second connecting substrate on which a second line for inputting the differential signal into the driver chip located at the terminating area, and wherein a termination resistor connects the second line for transmitting the differential signal which is formed on the second connecting substrate. | 12-25-2008 |
20080297704 | LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A liquid crystal display panel according to an exemplary aspect of the invention includes a pair of substrates, liquid crystal being arranged between the pair of substrates and spherical spacers being arranged between the pair of substrates. A partial area of at least one substrate of the pair of substrates is roughened, and each of the spherical spacers includes a plurality of projections on a surface thereof and is arranged on the roughened partial area. | 12-04-2008 |
20080296580 | SILICON OXIDE FILM, PRODUCTION METHOD THEREFOR AND SEMICONDUCTOR DEVICE HAVING GATE INSULATION FILM USING THE SAME - The present invention provides a high-performance silicon oxide film as a gate insulation film and a semiconductor device having superior electric characteristics. The silicon oxide film according to the present invention includes CO | 12-04-2008 |
20080291378 | Transmittance control device and an image display apparatus - A transmittance control device which controls a transmittance factor, include a liquid crystal which is sandwiched with a pixel electrode and a common electrode; a control line which a predetermined control signal inputs; and an optical passive element which controls an electric potential difference on the pixel electrode and the common electrode by connecting with the control line, and the pixel electrode and changing a conduction state of the control line and the pixel electrode according to brightness of an incidence light. | 11-27-2008 |
20080291176 | DISPLAY UNIT - A display unit includes a display panel having a display screen on which images are displayed, and (b) a touch panel covering the display screen therewith and detecting a touch thereto made by a user. The touch panel detects the touch in accordance with touch-panel drive signals input thereto. The display panel displays images in accordance with display-drive signals input thereto. The touch panel is switched between a first condition in which the touch-panel drive signals are input into the touch panel and a second condition in which the touch panel is electrically open. | 11-27-2008 |
20080286890 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A liquid crystal display device including a first substrate, a second substrate facing and spaced away from the first substrate, a liquid crystal layer sandwiched between the first and second substrates, a switching device formed on the first substrate, a first electrically insulating film randomly patterned on the first substrate, a second electrically insulating film covering the first electrically insulating film therewith, and having a wavy surface, and a reflection electrode formed on the second electrically insulating film, and electrically connected to an electrode of the switching device, wherein a light passing through the second substrate and the liquid crystal layer is reflected at the reflection electrode, and the second electrically insulating film extends outwardly from the first electrically insulating film by a certain length at an end of a display region in which images are to be displayed, such that a step formed by the first and second electrically insulating films in the vicinity of the end of the display region is smoothed. | 11-20-2008 |
20080285223 | Display - A display includes: a display panel including a display surface; a frame including a cover part which partially faces the display surface; and a film whose fixing area is fixed to the cover part and which is arranged between the display surface and the cover part. The cover part includes a flat part and a stepped part which projects toward the display surface, and the film comes in contact with the display surface to be bent. | 11-20-2008 |
20080284958 | LIQUID-CRYSTAL DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A liquid-crystal display device makes it possible to attach an optical element to a liquid-crystal display panel with high positional accuracy while avoiding or minimizing the enlargement of the picture-frame region (i.e., the non-display region) induced by the formation of markers on the panel and the increase of the fabrication cost. The panel comprises a main substrate, an opposite substrate, and a liquid crystal enclosed in a gap between the main and opposite substrates, wherein a polarizer plate is attached at least to the opposite substrate. Markers for attaching an optical element to the panel are formed at positions that overlap with the polarizer plate in a non-display region on the main or opposite substrate. Alignment direction regulators regulate the alignment of the liquid crystal molecules to a predetermined direction in the vicinities of the markers, allowing light to pass through at least the opposite substrate. | 11-20-2008 |
20080284928 | LIQUID CRYSTAL DISPLAY DEVICE AND TERMINAL UNIT - A liquid crystal display device includes an array of pixels each including a plurality of sub-pixels, a plurality of pixel electrodes disposed in the respective sub-pixels, and a plurality of common electrodes disposed in the respective sub-pixels. The common electrode disposed in each of the sub-pixels in one of the pixels on each row is connected to the common electrodes disposed in the corresponding sub-pixels in the others of the pixels on the each row, to form a group of common electrodes connected together. | 11-20-2008 |
20080284927 | LIQUID CRYSTAL DISPLAY AND TERMINAL UNIT - A liquid crystal display device includes an array of pixels each including a plurality of sub-pixels, a plurality of pixel electrodes disposed in the respective sub-pixels, and a plurality of common electrodes disposed in the respective sub-pixels. The common electrode disposed in each of the sub-pixels in one of the pixels on each row is connected to the common electrodes disposed in the corresponding sub-pixels in the others of the pixels on the each row, to form a group of common electrodes connected together. | 11-20-2008 |