AU OPTRONICS CORPORATION Patent applications |
Patent application number | Title | Published |
20150268511 | COLOR FILTER SUBATRATE AND DISPLAY PANEL - A color filter substrate is provided. The color filter substrate has a plurality of first sub-pixel areas and a plurality of second sub-pixel areas. The color filter substrate includes a first substrate, a plurality of first filters, a plurality of second filters, and a plurality of protrusions. The plurality of first filters are disposed on the first substrate and respectively located in the plurality of first sub-pixel areas. The plurality of second filters is disposed on the first substrate and respectively located in the plurality of second sub-pixel areas. The color of the first filters is different from that of the second filters. The protrusions are disposed on the first substrate and adjacent to two of the first sub-pixel areas adjacent to each other. | 09-24-2015 |
20150263050 | Pixel Structure and Manufacturing Method thereof - A pixel structure includes a gate electrode, a gate dielectric layer, a silicon channel layer, a silicon source ohmic contact layer, a silicon drain ohmic contact layer, a source auxiliary ohmic contact layer, a drain auxiliary ohmic contact layer, a transparent conductive portion, a transparent pixel electrode, a source electrode, and a drain electrode. The silicon channel layer is disposed on the gate dielectric layer and above the gate electrode. The silicon source ohmic contact layer, the source auxiliary ohmic contact layer, the transparent conductive portion, and the source electrode are disposed on the silicon channel layer in sequence. The silicon drain ohmic contact layer and the drain auxiliary ohmic contact layer are disposed on the silicon channel layer in sequence. At least a portion of the transparent pixel electrode is disposed between the drain electrode and the drain auxiliary ohmic contact layer. | 09-17-2015 |
20150236073 | ORGANIC LIGHT EMITTING DEVICE AND FABRICATING METHOD THEREOF - A fabricating method of an organic light emitting device is provided. First to fourth lower pixel electrodes are respectively formed in first to fourth pixel regions of a substrate. By ink-jet printing processes, an interlayer is formed on the first to fourth lower pixel electrodes, and first to third color patterns are respectively formed on the interlayer in the first to third pixel regions. A fourth color layer is formed to cover the first to third color patterns and the interlayer in the fourth pixel region. Colors of the first to third color patterns and the fourth color layer are different. An upper pixel electrode is formed on the fourth color layer. A color filter arranging over the upper pixel electrode filters out a first color light, a second color light, light of third and fourth colors, and the fourth color light corresponding to the first to fourth pixel regions. | 08-20-2015 |
20150228673 | DISPLAY PANEL AND ACTIVE DEVICE THEREOF - A display panel and an active device thereof are provided. The active device includes a gate, a semiconductor layer, a first source and a plurality of first drains. The first source includes a first side and a second side opposite to each other, the first side has a plurality of first recesses, and the second side has a plurality of second recesses. Each of the first recesses and a corresponding second recess are disposed opposite to each other to constitute a recess-pair. A minimum distance between the first recess and the second recess of each recess-pair is A, a minimum distance between two neighboring recess-pairs is B, wherein A is greater than B. The first drains are electrically connected to each other, and each of the first drains is respectively disposed in one of the recesses of the first source. | 08-13-2015 |
20150228214 | DISPLAY PANEL - A display panel including a plurality of unit regions is provided. The unit regions are arranged along a first direction and a second direction to form a plurality of columns and a plurality of rows. Each of the unit regions of the display panel includes a plurality of first color sub-pixels, a plurality of second color sub-pixels, and a plurality of third color sub-pixels. In any of the rows, a first pitch between any one of the first color sub-pixels and a next of the first color sub-pixels has at least four kinds of distances. | 08-13-2015 |
20150200281 | TRANSISTOR AND METHOD FOR FABRICATING THE SAME - A method for fabricating a transistor including the following steps is provided. First, a gate electrode is formed on a substrate, and a gate insulating layer is formed on the substrate in sequence, wherein the gate insulating layer covers the substrate and the gate electrode. Next, a patterned channel layer and a hard-mask layer are formed on the gate insulating layer, wherein the patterned channel layer and the hard-mask layer are located above the gate electrode, and the hard-mask layer is disposed on the patterned channel layer. Afterwards, a source and a drain are formed on the gate insulating layer by a wet etchant. The part of the hard-mask layer that is not covered by the source and the drain is removed by the wet etchant until the patterned channel layer is exposed, so as to form a plurality of patterned hard-mask layers. | 07-16-2015 |
20150198814 | STEREOSCOPIC DISPLAY METHOD - A stereoscopic display method includes the following acts. A plurality of stereoscopic images are provided by providing a plurality of stereoscopic display panels. At least one border is disposed between two of the stereoscopic display panels adjacent to each other. At least one stripe segment is added in each of the stereoscopic images. The stripe segments are adjacent to the border, such that the stripe segments and the border form a floating frame when an observer observes the stripe segments and the border using both eyes of the observer. A width of each of the stripe segments is adjusted, such that a depth of field of the floating frame is substantially the same as a depth of field of the stereoscopic images adjacent to the floating frame. | 07-16-2015 |
20150179969 | ORGANIC ELECTROLUMINESCENT DEVICE HAVING CONDUCTIVE LAYERS IN A CATHODE LAYER AND AN ELECTRON TRANSPORTING LAYER HAVING A LETAL COMPLEX - An organic electroluminescent device including an anode layer, an organic functional layer and a cathode layer is provided. The organic functional layer is disposed between the anode layer and the cathode layer. The cathode layer includes a first conductive layer and a second conductive layer. The first conductive layer is disposed between the organic functional layer and the second conductive layer, and work function of the first conductive layer is higher than work function of the second conductive layer. | 06-25-2015 |
20150179835 | Solar Cell - A solar cell includes an opto-electrical conversion structure, a first electrically-conductive structure, and a second electrically-conductive structure. The opto-electrical conversion structure has a light receiving surface and a back surface opposite to the light receiving surface. The first electrically-conductive structure is disposed on the light receiving surface and electrically connected to the opto-electrical conversion structure. The first electrically-conductive structure includes a first transparent electrically-conductive layer, an electrode structure, and a second transparent electrically-conductive layer. The first transparent electrically-conductive layer is disposed on the light receiving surface of the opto-electrical conversion structure. At least one portion of the first transparent electrically-conductive layer is disposed between the electrode structure and the light receiving surface of the opto-electrical conversion structure. The second transparent electrically-conductive layer covers the electrode structure and the first transparent electrically-conductive layer. The second electrically-conductive structure is disposed on the back surface of the opto-electrical conversion structure. | 06-25-2015 |
20150175291 | CARTON - A carton includes a top casing and a bottom casing. The top casing includes plural first sidewalls and plural first tongue parts connecting to the first sidewalls. The first tongue stripes parts are used for fixing on the inner surfaces of the adjacent first sidewalls. The bottom casing includes plural second sidewalls and plural second tongue parts connecting to the second sidewalls. The second tongue parts are used for fixing on inner surfaces of the adjacent second sidewalls. The bottom casing further includes plural reinforcing pieces respectively connected to one of the second sidewalls. The reinforcing pieces are disposed at the outside of the second sidewalls. When the top casing is coupled to the bottom casing, the reinforcing pieces are utilized for filling the gap between the top casing and the bottom casing caused by the first tongue parts. | 06-25-2015 |
20150163942 | ACTIVE DEVICE ARRAY SUBSTRATE AND DISPLAY PANEL - An active device array substrate including a substrate, a first and a second gate driving chips, pixels, first signal lines and a gate voltage supply line is provided. The first and second gate driving chips neighbor with each other and respectively have at least two first bonding pads and first output pad. The pixels are disposed in the display region. The first signal lines are connected to the pixels and the first output pads. The gate voltage supply line is disposed on the periphery circuit region. No conductive line is disposed between a side of the gate voltage supply line away from the pixels and an edge of the substrate. Each of the first and second gate driving chips is overlapped with at least a portion of the gate voltage supply line such that the first and second gate driving chips are bonded to the gate voltage supply line. | 06-11-2015 |
20150144179 | SOLAR CELL MODULE - A solar cell module includes a solar panel, a first frame strip, a second frame strip, and a connecting member. The first frame strip and the second frame strip are both assembled at the edges of the solar panel. The connecting member includes two top wind plates, a bottom wind plate, a connecting web, and two connecting terminal portions. A gap is formed between the two top wind plates. The connecting web is connected to the two top wind plates and the bottom wind plate, and has a breach and at least one corner. The breach and the gap form a drainage ditch to expose a corner of the solar panel. The two connecting terminal portions extend from the connecting web, so as to be detachably connected to the first frame strip and the second frame strip via the two connecting terminal portions. | 05-28-2015 |
20150138465 | DISPLAY PANEL - A display panel, which has a display region and a non-display region, includes an active array substrate and an opposite substrate disposed opposite to the active array substrate. The active array substrate includes a substrate, a pixel array, and a driving circuit. The pixel array and the driving circuit are disposed on the substrate, wherein the pixel array is located in the display region and the driving circuit is located in the non-display region. The driving circuit includes a first transparent electrode layer, a second transparent electrode layer, and a dielectric layer. The dielectric layer is located between the first transparent electrode layer and the second transparent electrode layer, wherein the first transparent electrode layer and the second transparent electrode layer are electrically coupled to each other to form at least one transparent capacitor. | 05-21-2015 |
20150131318 | BACKLIGHT MODULE AND DISPLAY DEVICE - A backlight module and a display device are provided. The backlight module includes a light guide, a bottom frame, and a first light bar. The light guide has a first light incident surface. The bottom frame has a clip portion, a first hole, and a first tongue piece, wherein the light guide is disposed in the bottom frame and clipped by the clip portion. A driver board is locked to the first tongue piece, and the first tongue piece is folded from the first hole. The first light bar is disposed between the first light incident surface of the light guide and the bottom frame, and the first light bar has a first connector. The first connector passes through the first hole, so that the first connector is outside the bottom frame. | 05-14-2015 |
20150129984 | PIXEL ARRAY - A pixel array includes a plurality of scan lines, a plurality of data lines, a first active device, a second active device, a first pixel electrode and a second pixel electrode. The first active device and the second active device are electrically connected to the corresponding scan line and data line respectively. The first pixel electrode is electrically connected to the first active device through a contact hole. The second pixel electrode is electrically connected to the second active device through the contact hole. | 05-14-2015 |
20150124206 | PIXEL STRUCTURE AND DISPLAY PANEL - A pixel structure disposed on a first substrate is provided. The pixel structure includes a scan line, a data line, an active component, a pixel electrode, a first dielectric layer, a common electrode, and a protrusion. The scan line and the data line are disposed on the first substrate. The pixel electrode is disposed on the first substrate. The first dielectric layer is disposed on the first substrate and covers the pixel electrode. The common electrode is disposed on the first dielectric layer, and the common electrode has at least two first branched electrodes and a first opening between the first branched electrodes. The first branched electrodes and the first opening on the first substrate overlap with the pixel electrode in a projection direction. The protrusion is disposed on the first dielectric layer, and the protrusion is disposed in the first opening between the first branched electrodes. | 05-07-2015 |
20150123111 | PIXEL STRUCTURE AND FABRICATION METHOD THEREOF - A fabrication method of a pixel structure includes the following steps. A first metal layer is patterned to form a source electrode and a drain electrode. A semiconductor material layer is patterned to form a channel layer and a pixel pattern. A first insulation layer is formed to cover the channel layer, the source electrode, the drain electrode and the pixel pattern. A gate electrode is formed on the first insulation layer located above the channel layer. A second insulation layer is formed to cover the gate electrode and the first insulation layer. A pixel opening is formed in the first insulation layer and the second insulation layer to expose a partial region of the pixel pattern. The partial region of the pixel pattern exposed by the pixel opening is modified so as to form a pixel electrode electrically connected to the drain electrode. | 05-07-2015 |
20150123083 | DISPLAY PANEL - A display panel has first and second unit regions staggered to each other and includes a pixel array layer and a color filter layer. The pixel array layer includes white organic light emitting units generating a white light. The color filter layer includes red, green and blue filter patterns and first and second white filter patterns. A first white light CIE color coordinate of the white light passing through the first white filter patterns is different from a second white light CIE color coordinate of the white light passing through the second white filter patterns. Each first unit region has one red filter pattern, one green filter pattern, one blue filter pattern, and one first white filter pattern disposed therein, and each second unit region has one red filter pattern, one green filter pattern, one blue filter pattern, and one second white filter pattern disposed therein. | 05-07-2015 |
20150123011 | PHOTOALIGNMENT EQUIPMENT AND PHOTOALIGNMENT METHOD - A photoalignment equipment includes a light emitting device, a platform, a pipe assembly, and a blower. The light emitting device has an ultraviolet light source and an accommodating space. The ultraviolet light source is located in the accommodating space. When the ultraviolet light source emits an ultraviolet light, at least a portion of air in the accommodating space is transformed into a plurality of ozone molecules. The platform is under the light-emitting device. The pipe assembly has a first opening and at least one second opening. The first opening is communicated with the accommodating space, and the second opening faces the platform. The blower is communicated with the pipe assembly to draw the ozone molecules in the accommodating space by the first opening of the pipe assembly and exhausts the ozone molecules from the second opening of the pipe assembly. | 05-07-2015 |
20150117052 | Backlight Module and Display Panel using the same - A backlight module includes a frame, a light source, a light guide plate, a wavelength conversion layer, and an optical film group. The light source is disposed in the frame. The light guide plate is disposed in the frame, and the light guide plate includes a light emitting surface, a light incident surface, and at least one side wall. The light source is disposed corresponding to the light incident surface. The side wall connects the light emitting surface and the light incident surface. The wavelength conversion layer is at least disposed on the side wall. The wavelength conversion layer is configured for converting light provided by the light source into white color. The optical film group is disposed on the light emitting surface of the light guide plate. | 04-30-2015 |
20150116259 | TOUCH DEVICE AND DRIVING METHOD THEREOF - A touch device includes a touch panel that includes driving lines, sensing lines, a virtual key, a self-sensing line, and a shielding line. The touch panel has a display region and a non-display region. The driving lines extend along a first direction in the display region and further extend into the non-display region. The sensing lines extend along a second direction in the display region and extend into the non-display region. The first direction is different from the second direction. The virtual key is located in the non-display region and between the driving lines and the sensing lines to shield the driving lines from the sensing lines. Each of the self-sensing line and the shielding line is located in the non-display region, connected to the virtual key, and located between the driving lines and the sensing lines to shield the driving lines from the sensing lines. | 04-30-2015 |
20150109268 | PIXEL UNIT, PIXEL ARRAY AND LIQUID CRYSTAL DISPLAY PANEL - A pixel unit includes a first pixel, a second pixel, a third pixel, a fourth pixel and a light-shielding structure. The first pixel has a plurality of first sub-pixels, the second pixel has a plurality of second sub-pixels, the third pixel has a plurality of third pixels, and the fourth pixel has a plurality of fourth sub-pixels. The first sub-pixel has a first electrode extending along a first tilting direction. The second sub-pixel has a second electrode extending along a second tilting direction. The third sub-pixel has a third electrode extending along a third tilting direction. The fourth sub-pixel has a fourth electrode extending along a fourth tilting direction. The first pixel, the second pixel, the third pixel and the fourth pixel surround the light-shielding structure collectively. The first tilting direction, the second tilting direction, the third tilting direction and the fourth tilting direction are different from each other. | 04-23-2015 |
20150092025 | STEREO DISPLAY DEVICE - A stereo display device includes a display panel and a barrier panel. The display panel includes a plurality of sub-pixel units arranged in an array along an X-direction and a Y-direction. At least three sub-pixel units form a pixel unit. The barrier panel is located at one side of the display panel and includes a plurality of first electrodes, a plurality of second electrodes, and an optically anisotropic medium. An included angle between an extension direction of the first electrodes and the Y-direction is +θ1, and θ1≠0 degree. An included angle between an extension direction of the second electrodes and the Y-direction is −θ2, and θ2≠0 degree. The optically anisotropic medium is located between the first electrodes and the second electrodes. | 04-02-2015 |
20150085202 | PHOTOSENSITIVE PIXEL CIRCUIT OF TOUCH MODULE - A photosensitive pixel circuit of a touch module including an output transistor and a light detection unit is provided. The output transistor receives a reference signal and provides a touch voltage controlled by a light detection voltage. The light detection unit is electrically connected to the output transistor, and receives a touch scan signal. The light detection unit detects an intensity of a light according to the touch scan signal so as to correspondingly provide the light detection voltage. | 03-26-2015 |
20150083312 | METHOD OF BONDING AND DEBONDING SUBSTRATE - A substrate bonding and debonding method includes the steps of: providing a substrate; forming a first silicone glue layer on a peel-off region of the substrate and a second silicone glue layer on a peripheral region of the substrate, in which the first and second silicone glue layers contain the same silicone main agent and silicone curing agent in a different ratio; adhering an opposite substrate to the first and second silicone glue layers; curing the first and second silicone glue layers to bond the substrate to the opposite substrate; and separating a portion of the substrate from the opposite substrate. | 03-26-2015 |
20150077691 | PIXEL STRUCTURE, DISPLAY PANEL AND MANUFACTURING METHOD OF PIXEL STRUCTURE - A pixel structure includes a scan line, a first insulation layer, a data line, a pixel electrode, a second insulation layer, and a common electrode. The scan line and the first insulation layer are disposed on a first substrate and the first insulation layer covers the scan line. The data line and the pixel electrode are disposed on the first insulation layer. The second insulation layer covers the data line and the pixel electrode and has a first opening located between the data line and the pixel electrode. The common electrode is disposed on the second insulation layer and has slits exposing a portion of the pixel electrode. The common electrode covers the data line and has a first extending portion filled in the first opening such that the first extending portion of the common electrode is located between the data line and the pixel electrode. | 03-19-2015 |
20150070644 | PIXEL STRUCTURE - A pixel structure includes a scan line, a data line, an active device, a first electrode layer, a second electrode layer, and an insulation layer. The active device is electrically connected to the scan line and the data line. The first electrode layer is electrically connected to the active device. The second electrode layer is electrically insulated from the first electrode layer. The insulation layer is located between the first electrode layer and the second electrode layer, and the first electrode layer or the second electrode layer includes an enclosed-frame-shaped portion, first V-shaped branch portions, and second V-shaped branch portions. The first V-shaped branch portions and the second V-shaped branch portions are arranged within the enclosed-frame-shaped portion in opposite directions, and end terminals of the first V-shaped branch portions and end terminals of the second V-shaped branch portions are connected to the enclosed-frame-shaped portion. | 03-12-2015 |
20150070624 | LIQUID CRYSTAL PANEL AND LIQUID CRYSTAL DISPLAY - A liquid crystal panel and a liquid crystal display including the liquid crystal panel and a backlight unit are provided. The backlight unit includes an exciting light source and a quantum dot fluorescent material. An emission spectrum of the backlight unit at a wavelength from 400 nm to 500 nm, from 500 nm to 580 nm and from 580 nm to 780 nm has relative maximum brightness peaks BL1, BL2 and BL3, respectively, wherein BL2/BL1>0.65, and BL2/BL3>1. The liquid crystal panel is disposed above the backlight unit, and has red pixel regions, green pixels regions and blue pixel regions. A cell gap in the red pixel regions of the liquid crystal panel is bigger than a cell gap in the green pixel regions of the liquid crystal panel and a cell gap in the blue pixel regions of the liquid crystal panel. | 03-12-2015 |
20150070404 | METHOD FOR ADJUSTING SATURATION DEGREE AND COLOR ADJUSTING SYSTEM - A method for adjusting saturation degree and a color adjusting system are provided. The method for adjusting saturation degree includes the following steps. A hue circle is divided into a plurality of hue regions, and each of the hue regions is divided into a plurality of saturation regions according to at least one saturation threshold. A plurality of first input saturation degrees of a first saturation region of a first hue region of the hue regions are weighted by a first weighting formula for obtaining a plurality of first output saturation degrees. A plurality of second input saturation degrees of a second saturation region of the first hue region of the hue regions are weighted by a second weighting formula for obtaining a plurality of second output saturation degrees. The first weighting formula is different from the second weighting formula. | 03-12-2015 |
20150068577 | SOLAR PANEL - A solar panel includes a substrate, plural solar cells, wires, and plural bypass diodes. The substrate includes a bottom area, a middle area, and a top area vertically arranged from bottom to top. The middle area includes a first zone, a second zone and a third zone horizontally arranged from left to right. The solar cells are disposed on the substrate in columns and in rows. The bottom area includes at least two rows of the solar cells. The top area includes at least two rows of the solar cells. The wires serially connect the solar cells. The bypass diodes are disposed on the substrate, in which each of the first zone, the second zone, the third zone, the bottom area and the top area is disposed with at least one of the bypass diodes. | 03-12-2015 |
20150062969 | BACKLIGHT MODULE - A backlight module includes a back bezel, at least one frame, at least one fastener, a cushion and a light guide plate. The back bezel includes a bottom plate and at least one lateral plate. The lateral plate is adjoined to the bottom plate. The frame presses against the lateral plate. The fastener fastens the frame and the back bezel. The cushion is disposed on the bottom plate, and includes a cavity. Part of the fastener is located in the cavity. The light guide plate is disposed on one side of the cushion opposite to the bottom plate. | 03-05-2015 |
20150061978 | PIXEL ARRANGEMENT OF COLOR DISPLAY APPARATUS - An aspect of the disclosure relates to a color display apparatus, which includes a plurality of pixels P(i, j) arranged in a matrix having M columns and N rows, where i=1, 2, . . . , M, j=1, 2 . . . , N, and M and N are positive integers. A plurality of pixel pairs is defined along either the columns or the rows, and each pixel pair includes one pixel P(i, j) and the next immediate pixel, where if i is an odd integer, j is an odd integer, and if i is an even integer, j is an even integer. Each pixel pair has five subpixels, including a first subpixel configured to display a first color and symmetrically positioned across the pixels, a pair of second subpixels configured to display a second color and symmetrically positioned in the pixels respectively, and a pair of third subpixels configured to display a third color and symmetrically positioned in the pixels respectively, where the first subpixel is positioned between the pair of second subpixels. | 03-05-2015 |
20150055372 | Thin Type Display Module - A display module including a backlight module and a display panel is provided. The backlight module includes a light guide plate and a light source module. The light guide plate has a light incident surface, a light-exiting surface, a light-guiding inclined surface, a bottom surface, and a lateral surface, wherein the light-guiding inclined surface is connected to the light incident surface and the light-exiting surface; the light incident surface, the light-guiding inclined surface, and a portion of the bottom surface constitute a wedge portion while the light-exiting surface, the lateral surface, and other portions of the bottom surface constitute a plate portion. The light source module is disposed at the light incident surface and emits light into the wedge portion. The display panel is disposed on the light guide plate and has a side. The side of the display panel has a projection disposed in the light-guiding inclined surface or the plate portion. | 02-26-2015 |
20150054860 | STEREOSCOPIC DISPLAY AND A METHOD FOR DRIVING THE SAME - A stereoscopic display and a driving method are disclosed herein. The stereoscopic display includes a sensor, a barrier cell, and a control unit. The sensor is configured to detect a user to generate a sensing signal. The barrier cell is configured to generate a 3D image with a 2D image. The barrier cell includes barrier pitches disposed in parallel. Each of the barrier pitches includes switchable barrier units. The control unit is configured to generate control signals to adjust the switchable barrier units according to the sensing signal, so as to make at least one of the switchable barrier units of each of barrier pitches form a shading zone, to make the switchable barrier units disposed at the two adjacent sides of the shading zone form a gray level zone, and to make the rest of the switchable barrier units in the same barrier pitch form a photic zone. | 02-26-2015 |
20150053331 | THIN FILM TRANSISTOR - A method for manufacturing a patterned layer includes the steps of: providing a substrate having a first surface and a second surface opposite to the first surface; providing a material source for supplying a plurality of charged particles, in which the first surface faces the material source; providing a magnetic element, in which the second surface is arranged between the magnetic element and the first surface; and depositing the charged particles on the first surface through using the magnetic element so as to form a patterned layer. A method for manufacturing an electrochromic device is disclosed as well. | 02-26-2015 |
20150049288 | PIXEL STRUCTURE - A pixel structure includes a patterned insulating layer and a patterned electrode layer. The patterned insulating layer includes a first area and a second area, and the patterned electrode layer includes a third layer and a fourth layer. The first area has a plurality of bar-shaped structures, the third area is a block electrode, and the fourth area is composed of a plurality of first bar-shaped electrodes. The third area is disposed opposite to the first area such that the third area is protruded according to the bar-shaped structures thereby forming a plurality of second bar-shaped electrodes. The fourth area is disposed opposite to the second area such that the first bar-shaped electrodes are formed on the second area. | 02-19-2015 |
20150049124 | DISPLAY DEVICE - A display device includes a color transformer and an image controller. The color transformer receives and transforms a three-color image into a four-color image. The four-color image includes a red image, a green image, a blue image, and a white image. The image controller calculates decrement offsets of the red image, the green image, and the blue image, and a compensation value of the white image. The image controller calculates gray level values of the red image, the green image, and the blue image when a value of the white image is zero. The image controller respectively calculates a red image control signal, a green image control signal, and a blue image control signal based on the gray level values and the decrement offsets, and the image controller calculates a white image control signal based on the gray level values and the compensation value of the white image. | 02-19-2015 |
20150042691 | PIXEL DRIVING METHOD AND LIQUID CRYSTAL DISPLAY IMPLEMENTING THE SAME - A pixel driving method is adapted for a liquid crystal display. Each pixel includes a first sub-pixel and a second sub-pixel, in which the first sub-pixel and the second sub-pixel each includes a first display region and a second display region. The pixel driving method includes providing a first voltage to the first displaying region of the first sub-pixel and the second sub-pixel; providing a second voltage to the second displaying region of the first sub-pixel and a third voltage to the second displaying region of the second sub-pixel; and when the provided first voltage is larger than a predetermined voltage, providing the second voltage so that the provided second voltage is smaller than the provided third voltage. | 02-12-2015 |
20150036080 | Optical Film and Display Device Having the Same - An optical film and a display device having the same are provided. The optical film has a light input face, a light output face opposite to the light input face, and a light-output structure disposed on the light output face. The light-output structure includes a plurality of light output microstructures such as prisms disposed side by side along a first direction on the light output face. Each prism has a first quadrilateral cross section parallel to the first direction. A first side of the quadrilateral cross section is connected to the light output face and includes a first angle with the light output face, wherein the first angles of the prisms continuously arranged have angle values varying in a periodic manner. | 02-05-2015 |
20150036062 | OPTICAL SWITCHING DEVICE AND STEREOSCOPIC DISPLAY DEVICE INTEGRATED WITH TOUCH STRUCTURE - An optical switching device integrated with a touch structure includes a first substrate, a second substrate, a switchable optical medium, a first driving layer, a touch-sensing layer, and a first insulation layer. The second substrate is opposite to the first substrate. The switchable optical medium is located between the first substrate and the second substrate. The first driving layer is located between the first substrate and the switchable optical medium for driving the switchable optical medium. The first driving layer includes a plurality of first driving electrodes, and first gaps exist between the first driving electrodes. Each of the first gaps extends along a first direction. The touch-sensing layer is located between the first substrate and the first driving layer. The first insulation layer is located between the first driving layer and the touch-sensing layer. A stereoscopic display device integrated with a touch structure is also provided. | 02-05-2015 |
20150028682 | SOLAR ENERGY GENERATION SYSTEM, MEASUREMENT MODULE AND POSITIONING METHOD - A solar energy generation system a measurement module and a positioning method are disclosed herein. The positioning method is adaptable to a power generation system having AC generation modules. Each of the AC generation modules generates an output current and is electrically connected to each other in a power-supply network. The positioning method includes the following operations: (a) measuring AC currents or node voltages generated by the AC generation modules at different positions in the power-supply network to obtain current parameters or voltage parameters; and (b) determining a sequence of relative positions of the AC generation modules by calculating the current parameters or the voltage parameters. | 01-29-2015 |
20150022440 | DISPLAY AND METHOD OF DISPLAYING THREE-DIMENSIONAL IMAGES WITH DIFFERENT PARALLAXES - A display includes multiple pixels, a detecting device and an optical unit. Each of the pixels is configured to display a first image. The detecting device is configured to detect a position of a viewer to generate a position data. The optical unit cooperates with each of the pixels to project the first image to multiple viewable zones, in which an unobserved zone is formed between consecutive two of the viewable zones. Each of the pixels is configured to switch from a first image to a second image while the position data corresponds to the viewer located in the unobserved zone. | 01-22-2015 |
20150021649 | PIXEL STRUCTURE - A pixel structure having a first region and a second region adjacent to each other is provided. The pixel structure includes a first pixel electrode and a second pixel electrode. The first pixel electrode forms a plurality of first V-shaped electrode patterns. A tip of the first V-shaped electrode patterns is located at a boundary of the first region and the second region. The second pixel electrode includes a plurality of second V-shaped electrode patterns and a first protrusion electrode pattern. The first protrusion electrode pattern is connected to one of the second V-shaped electrode patterns and protrudes towards an adjacent first V-shaped electrode pattern from the tip of the second V-shaped electrode pattern. | 01-22-2015 |
20150015536 | TOUCH-SCREEN SYSTEM AND DISPLAY PANEL WITH TOUCH-SENSING FUNCTION - A touch-screen system including a stylus, a display panel and a touch module is disclosed herein. The stylus includes a magnetic component. The touch-sensing module is disposed within the display panel. The touch-sensing module includes a plurality of sensing units distributed at different locations as an array over the display panel. Each of the sensing units includes a Hall induction plate for sensing a magnetic field established by the magnetic component and forming an induction output voltage. The touch module detects a touch position of the stylus according to the induction output voltages from the sensing units. | 01-15-2015 |
20150013743 | SOLAR CELL MODULE - A solar cell module includes a front plate, at least one solar cell chip, and at least one anti-ultraviolet light element. The front plate has at least one anti-ultraviolet light segment and at least one light receiving segment. The solar cell chip is disposed at one side of the front plate, and a vertical projection of the light receiving segment of the front plate overlaps at least one portion of the solar cell chip. The anti-ultraviolet light element is disposed at the other side of the front plate opposite to the solar cell chip, and covers the anti-ultraviolet light segment of the front plate but exposes the light receiving segment of the front plate. The anti-ultraviolet light element allows visible light to pass therethrough, but blocks the ultraviolet light. | 01-15-2015 |
20150009422 | TOUCH PANEL AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a touch panel includes forming a light-shielding conductive patterned layer on a transparent substrate, which includes a light-shielding wire, a first contact pad and a first bridging electrode. An insulating layer is formed on the first bridging electrode, the first contact pad and the transparent substrate. First and second openings are formed in the insulating layer to respectively expose a portion of the first bridging electrode and a portion of the first contact pad. A transparent conductive patterned layer is formed, which includes first sensing electrodes, second sensing electrodes, a second bridging electrode and a second contact pad. Each first sensing electrode is connected to the first bridging electrode through the first opening. The second sensing electrodes are connected to each other through the second bridging electrode. The second contact pad is connected to the first contact pad through the second opening. | 01-08-2015 |
20140376255 | DISPLAY - A display including a backlight module, a display panel, and a color filter layer is provided. The backlight module includes a light source having a luminescence spectrum with three protrusions. Peaks of the protrusions fall in different ranges and full width at half maximum (FWHM) of each of the peaks are in respective ranges. The display panel is disposed on the backlight module. The color filter layer disposed on the backlight module includes three color filtering patterns. Peaks of transmission spectra of the color filtering patterns respectively overlap the FWHM ranges of the three protrusions. | 12-25-2014 |
20140375916 | FLEXIBLE DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A flexible display panel including a buffer layer, an active element, a pad, a display device and a signal transmission circuit is provided. The active element is located on the buffer layer. The pad is located in the buffer layer and is electrically connected to the active element. The display device is located on the active element and is electrically connected to the active element, in which the display device includes a pixel electrode, an opposite electrode and a display medium layer located therebetween. The active element and the signal transmission circuit are respectively located at a first surface and a second surface of the buffer layer, the second surface is opposite to the first surface, and the signal transmission circuit is electrically connected to the active element via the pad. A manufacturing method of a flexible display panel is also provided. | 12-25-2014 |
20140375905 | 2D/3D SWITCHABLE DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - A 2D/3D switchable display device including a display panel and a switch unit is provided. The display panel includes a first substrate, a second substrate and a display unit located between the first and second substrates. The first substrate includes a first surface and a second surface opposite to the first surface, and the display unit is located above the first surface. The switch unit located on the second surface includes a third substrate, a first electrode layer, a second electrode layer and a switchable medium layer between the first and second electrode layers. The second electrode layer is located on the second surface, the first electrode layer is located on the third substrate, and the switchable medium layer and the third substrate are respectively located on two opposite surfaces of the first electrode layer. A manufacturing method of a 2D/3D switchable display device is also provided. | 12-25-2014 |
20140372494 | GATE DRIVER CIRCUIT - A gate driver circuit includes several shift register stages. One of shifter register stages includes a pull-up unit, a pull-up control unit, and an output unit. The pull-up unit is configured for generating a driving signal according to a first clock signal and an operating signal. The pull-up control unit is configured for generating a next-stage operating signal to a next-stage shift register stage according to the first clock signal, the operating signal and the driving signal. The output unit is configured for receiving the driving signal and generating a first gate driving signal and a second gate driving signal according to a first controlling signal and a second controlling signal, respectively. | 12-18-2014 |
20140369072 | Transparent Display Apparatus - A transparent display apparatus is provided. The display apparatus includes a plurality of white sub-pixels and a plurality of color sub-pixels that are mixedly arranged. The display apparatus also includes a control module for controlling the white sub-pixels and the color sub-pixels. When the display apparatus is in a transparent mode, the control module reduces or stops light emitting from the color sub-pixels and allows at least a part of ambient light behind the white sub-pixels to emit from the white sub-pixels to achieve the see-through effect. When the display apparatus is in a display mode, the control module adjusts at least one of the white or color sub-pixels to ensure that light from the white sub-pixels is far less than light from the color sub-pixels. | 12-18-2014 |
20140369042 | Light Source Module - A light source module includes a substrate, a circuit, at least one first light source unit, and at least one second light source. The circuit is disposed on the substrate and includes a first signal channel and a second signal channel. The first light source unit is disposed on a bearing surface, wherein the first light source unit has a first A pin and a first B pin having different polarity from the first A pin. The second light source unit is disposed on the bearing surface and is adjacent to the first light source unit, wherein the second light source unit has a second A pin and a second B pin having different polarity from the second A pin, and the second A pin is adjacent to the first A pin of the first light source unit and has a same polarity with the first A pin. | 12-18-2014 |
20140368487 | PIXEL DRIVER - A pixel driver includes an input unit, a power-switching unit, a voltage-dividing unit, a pixel-driving unit and a shorting unit. The input unit outputs a data voltage according to a first scan signal and a data signal. The power-switching unit outputs a first power voltage according to a first power voltage and a power-controlling signal. The voltage-dividing unit adjusts a control voltage according to a second scan signal. The pixel-driving unit includes a control terminal, a first terminal and a second terminal. The pixel-driving unit provides a driving current to an LED according to the voltage difference between the control terminal and the second terminal. The shorting unit connects the control terminal to the first terminal according to the first scan signal. | 12-18-2014 |
20140362306 | TOUCH PANEL AND MANUFACTURING METHOD OF TOUCH DISPLAY PANEL - A touch panel including a substrate, at least one touch-sensing unit, at least one connecting pad, at least a testing line, at least one ESD protection circuit, and a first isolation layer is provided. The touch-sensing unit is disposed on the substrate. The connecting pad is disposed on the substrate and electrically connected to the touch-sensing unit. The testing line is disposed on the substrate, electrically connected to the connecting pad, and extends to at least an edge of the substrate. The ESD protection circuit is disposed in the edge of the substrate and electrically connected to a ground voltage, wherein a vertical projection of the testing line to the substrate and that of the ESD protection circuit to the substrate is at least partially overlapped. The first isolation layer is disposed between the testing line and the ESD protection circuit. | 12-11-2014 |
20140362127 | DISPLAY DEVICE, PIXEL ARRAY, AND COLOR COMPENSATING METHOD - A pixel array includes a first pixel and a second pixel. The pixels are disposed adjacent to each other and jointly include six sub-pixels. The sub-pixels include one red sub-pixel, two green sub-pixels, one blue sub-pixel, and two fourth color sub-pixels. The pixel area configuration of the first pixel is the same as the pixel area configuration of the second pixel, and the order of the sub-pixel areas disposed therein is, sequentially, a first sub-pixel area, a second sub-pixel area and a third sub-pixel area. The red sub-pixel is disposed in the first sub-pixel area of the first pixel, and the blue sub-pixel is disposed in to the first sub-pixel area of the second pixel. Furthermore, a display device and a color compensating method are also disclosed herein. | 12-11-2014 |
20140354935 | PIXEL STRUCTURE - A pixel structure including a first and a second pixel electrode is provided. The first pixel electrode includes a first main portion and first branches. The second pixel electrode includes a second main portion and second branches. The first and second main portions are disposed at an edge of a pixel region. The first and second branches respectively extend from the first and second main portions. The second branches and the first branches are arranged in alternation, and the first branch is parallel to the adjacent second branch. A first opening is formed at neighboring ends of the first main portion and the second main portion. The end of the first main portion has a first bending part, the first bending part is disposed at the edge of the pixel region, and an end of the second branch close to the first opening is surrounded by the first bending part. | 12-04-2014 |
20140354182 | PIXEL AND PIXEL CIRCUIT THEREOF - A pixel includes an organic light-emitting diode, a driving transistor, a first switch, a third switch and a fourth switch. The driving transistor is electrically coupled to the organic light-emitting diode. When the pixel is in a data writing period, the first switch is configured to write a data voltage into a control terminal of the driving transistor. When the pixel is in a compensating period, a path between a control terminal and a first terminal of the fourth switch is established to charge or discharge the control terminal of the driving transistor through a current path, thereby forming a compensating voltage according to the voltage of the control terminal of the driving transistor. The driving transistor is turned on by the compensating voltage during a light emitting period, and the third switch is turned on such that a driving current is provided to the organic light emitting diode. | 12-04-2014 |
20140346519 | Active Array Substrate and Manufacturing Method Thereof - An active array substrate includes a flexible substrate, an inorganic barrier layer, and at least one active component. The inorganic barrier layer covers the flexible substrate. The inorganic barrier layer has a through hole therein. The through hole of the inorganic barrier layer exposes the flexible substrate. The active component is disposed on the inorganic barrier layer. | 11-27-2014 |
20140346517 | PHOTO DETECTOR AND METHOD FOR FABRICATING THE SAME - A photo detector and a method for fabricating the same are provided. The photo detector includes a first substrate and a photo conversion element. The first substrate has a sensor element array for receiving a light with a spectrum in a specific wavelength range. The photo conversion element is disposed on the sensor element array, where the photo conversion element includes a photo conversion material layer and a doped photo conversion material column structure layer. A luminescent spectrum of the doped photo conversion material layer column structure layer is overlapped with the spectrum in a specific wavelength range, and a luminescent spectrum of the photo conversion material layer is non-overlapped with the spectrum in a specific wavelength range. | 11-27-2014 |
20140340625 | DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A display panel, including a device substrate, an opposite substrate, a sealant, and a display medium, is provided. A pixel array of the device substrate is located in a display region, and a periphery circuit of the device substrate is located in a non-display region, wherein the periphery circuit includes at least one driving device, a planarization layer, and at least one wire. The planarization layer covers the driving device. The wire is located on the planarization layer, and the wire is electrically connected with the driving device and disposed to overlap the driving device. The opposite substrate is located opposite to the device substrate, and the sealant is located in the non-display region therebetween and covers the wire. The display medium is located between the device substrate, the opposite substrate, and the sealant. A manufacturing method of a display panel is also provided. | 11-20-2014 |
20140340592 | TOUCH PANEL AND METHOD OF FABRICATING THE SAME - A touch panel includes a substrate, a first patterned conductive layer, a patterned passivation layer, and a second patterned conductive layer. The first patterned conductive layer is located on the substrate, and the first patterned conductive layer includes a plurality of first sensing pads and a plurality of second sensing pads, wherein a gap is formed between adjacent first and second sensing pads. The patterned passivation layer is located on the first patterned conductive layer, and the patterned passivation layer covers the gap and exposes at least a portion of each first sensing pad and at least a portion of each second sensing pad. The second patterned conductive layer is located on the patterned passivation layer. | 11-20-2014 |
20140339575 | CIRCUIT SUBSTRATE AND DISPLAY PANEL INCLUDING THE SAME - A circuit substrate includes a substrate, a first lead line, a second lead line, an insulating layer and a pad. The substrate has a pad region, a first non-pad region and a second non-pad region. The first lead line extends from the first non-pad region to the pad region. The second lead line extends from the second non-pad region to the pad region. The insulating layer is interposed between the first and second lead lines. The pads are on the pad region of the substrate and one of the pads is electrically connected to the first and second lead lines. A display panel including the circuit substrate is also provided. | 11-20-2014 |
20140339563 | PIXEL STRUCTURE, DISPLAY PANEL AND METHOD FOR FABRICATING PIXEL STRUCTURE - A pixel structure disposed on a substrate is provided. The pixel structure includes a gate electrode, a first gate insulation layer, a pixel electrode, a second gate insulation layer, a channel layer, a source electrode, a drain electrode and a common electrode. The gate electrode is disposed on the substrate and covered by the first gate insulation layer. The pixel electrode is disposed on the first gate insulation layer and covered by the second gate insulation layer. The pixel electrode is located between the first and the second gate insulation layers. The second gate insulation layer has a first contact opening exposing a portion of the pixel electrode. The channel layer is disposed on the second gate insulation layer. The drain electrode electrically connected to the pixel electrode. The source electrode is disposed on the second gate insulation layer. The common electrode is disposed on the second gate insulation layer. | 11-20-2014 |
20140333854 | TOUCH PANEL - A touch panel includes a substrate, a light-shielding layer, a patterned transparent layer, a reflecting layer, at least one first sensing series, and at least one second sensing series. The substrate has a touch sensing region and a peripheral region. The light-shielding layer is disposed in the periphery region. The light-shielding layer has a patterned opening and a sidewall adjacent to the patterned opening. The patterned opening is configured to provide a mark identifiable by human eyes. The patterned transparent layer is disposed in the peripheral region, and the patterned transparent layer covers a portion of the patterned opening. The patterned transparent layer has an inclined sidewall positioned in the patterned opening. The reflecting layer covers the inclined sidewall and the patterned opening. The first sensing series and the second sensing series are arranged in the touch sensing region to detect a position of a touch point. | 11-13-2014 |
20140333601 | DISPLAY PANEL AND SCANNING CIRCUIT - A display panel and a scanning circuit are disclosed herein. The scanning circuit includes a plurality of shift registers. Each of the shift registers includes a driving unit, a control unit, and an operating unit. The driving unit is configured to receive a start signal and a driving clock signal, and provide a scan signal to an output end according to the start signal and the driving clock signal. The control unit is configured to provide a second voltage to the output end according to a first voltage on a control node, and to provide the second voltage to a driving end according to the first voltage on the control node. The operating unit is configured to operatively provide the first voltage to the control node according to an operating clock signal after the scan signal is outputted. | 11-13-2014 |
20140332827 | DISPLAY PANEL AND SEALING PROCESS THEREOF - A display panel and a sealing process are provided. The display panel has a display area and a non-display area; the sealing process includes following steps. A first substrate having a pixel array in the display area is provided. An absorption material layer is formed in the non-display area of the first substrate. A second substrate having a sealing material layer in the non-display area is provided. The second substrate and the first substrate are assembled, and a display medium is formed therebetween. The absorption material layer and the sealing material layer at least partially overlap. A laser processing process is performed on the sealing material layer, so that the first substrate is adhered to the second substrate by the sealing material layer. The absorption material layer is adopted for absorbing a portion of a laser beam passing through the sealing material layer in the laser processing process. | 11-13-2014 |
20140332799 | SEMICONDUCTOR DEVICE - A semiconductor device includes a substrate, a gate electrode, an insulating layer, a source electrode, a drain electrode, a semiconductor channel layer, a first passivation layer and a second passivation layer. The gate is formed on the substrate. The insulating layer covers the gate electrode. The source electrode and the drain electrode are positioned on the insulating layer. The semiconductor channel layer is disposed on the insulating layer, and connects the source electrode and the drain electrode. The first passivation layer covers the source electrode, the drain electrode and the semiconductor channel layer. The first passivation layer includes silicon oxide. The second passivation layer is disposed on the first passivation layer. The second passivation layer includes silicon nitride that has a hydrogen concentration of about 2.0×10 | 11-13-2014 |
20140332057 | SOLAR MODULE - A solar module is disclosed. The solar module includes a back sheet, a transparent substrate, a plurality of solar cells disposed between the back sheet and the transparent substrate, and an encapsulant for fastening the solar cells therebetween. The back sheet includes a light-receiving surface facing the solar cells, and a back surface opposite to the light-receiving surface. The reflectivity of the light-receiving surface is greater than 90%, and the reflectivity of the back surface is less than 10%. Therefore, the back sheet can have high reflectivity and high thermal radiation rate. | 11-13-2014 |
20140328084 | Electronic Device and Display Module with Sensing Antenna - An electronic device and a display module used therein are provided. The display module includes a display panel, a backlight module and a sensing antenna. The backlight module has a light exit surface and a reflective plate opposite to the light exit surface, and the display panel is stacked on the light exit surface. The sensing antenna is disposed on a surface of the reflective plate opposite to the light exit surface and has a body and two signal connecting terminals connecting the body. The electronic device includes the display module, a system circuit module, and a conductive device. The system circuit module is disposed on a back side of the display module and has a signal connecting parts corresponding to and connecting the signal connecting terminals. | 11-06-2014 |
20140327006 | Active Device Substrate and Manufacturing Method Thereof - An active device substrate includes a flexible substrate, an inorganic de-bonding layer, and at least one active device. The flexible substrate has a first surface and a second surface opposite to the first surface, wherein the first surface is a flat surface. The inorganic de-bonding layer covers the first surface of the flexible substrate, and the material of the inorganic de-bonding layer is metal, metal oxide or combination thereof. The active device is disposed on or above the second surface of the flexible substrate. | 11-06-2014 |
20140326621 | CARTON - A moisture-absorbable carton includes a carton housing, a plurality of cushions disposed in the carton housing, and at least one moisture-absorbable spacer disposed in the carton housing. A part of the cushions surround an inner surface of the carton housing for forming an accommodation space. The moisture-absorbable spacer comprises a paper casing and at least one drier bag disposed in the paper casing. | 11-06-2014 |
20140312317 | ORGANIC SEMICONDUCTOR MATERIAL AND THIN-FILM TRANSISTOR - An organic semiconductor material is provided. The organic semiconductor material includes a compound represented by formula (1): | 10-23-2014 |
20140300847 | DISPLAY APPARATUS - A display apparatus including a display panel, a first polarizer and a second polarizer is provided. The display panel includes a pixel array substrate, an opposite substrate and a display medium. The pixel array substrate includes a plurality of pixel units. Each pixel unit includes a first electrode and a second electrode. The first electrode and the second electrode are alternately arranged and a lateral electric field is existed between the first electrode and the second electrode. The opposite substrate is disposed opposite to the pixel array substrate. The display medium is disposed between the pixel array substrate and the opposite substrate. The first polarizer is disposed on the pixel array substrate. The second polarizer is disposed on the opposite substrate. An included angle between an optical axis of the first polarizer and an optical axis of the second polarizer is 90°±θ, and θ is 1° to 9°. | 10-09-2014 |
20140300833 | TOUCH PANEL INCLUDING TOUCH SENSOR ARRAY - A touch sensor array includes a plurality of straight sensing series and a plurality of ladder-like sensing series. The straight sensing series are separated to each other. Each of the straight sensing series includes first sensing pads and first bridge lines, and each of the first bridge lines is connected to two adjacent first sensing pads. The ladder-like sensing series are separated to each other. Each of the ladder-like sensing series includes second sensing pads, second bridge lines and third bridge lines. The second bridge lines and the third bridge lines are alternatively disposed, and any two adjacent second sensing pads are connected through one of the second bridge lines or one of the third bridge lines. Each of the ladder-like sensing series crosses one of the first bridge lines. | 10-09-2014 |
20140299507 | Paper Packaging Box - A paper packaging box is disclosed. The paper packaging box includes a bottom cover, two side frames, a plurality of first Velcro portions, a plurality of second Velcro portions, and a top cover. The two side frames are respectively disposed standing on two opposite sides of the bottom cover. Each of the side frames has a plurality of slots, and the slots of the two side frames are face to face in pairs. The first Velcro portions are disposed at the bottom cover. The second Velcro portions are disposed at the side frames. The first Velcro portions and the second Velcro portions are engaged with each other to allow the side frames to stand on the bottom cover. The top cover is disposed above the side frames. | 10-09-2014 |
20140299185 | PHOTOELECTRICAL COVERSION MODULE - A photoelectrical conversion module includes at least one photoelectrical conversion device, at least one first ribbon, a second ribbon, and at least two encapsulation layers. The photoelectrical conversion device includes a solar substrate having a plurality of finger electrodes. The first ribbon is located on the solar substrate and is intersected with the finger electrodes. The first ribbon has a first connection portion located out of the solar substrate. The second ribbon has at least one second connection portion. The first connection portion is intersected and overlapped with the second connection portion, such that a portion of the first connection portion is located above the second connection portion, and another portion of the first connection portion is located under the second connection portion. The relative position of the first and second ribbons is fixed by the encapsulation layers. | 10-09-2014 |
20140290742 | FRAME STRUCTURE AND SOLAR MODULE HAVING THE SAME - A frame structure includes a first horizontal board, a second horizontal board, a first vertical board, a third horizontal board, a second vertical board, and at least one support element. The first vertical board is connected to the first and second horizontal boards. The second vertical board is connected to the second and third horizontal boards. At least a portion of the second horizontal board and at least a portion of the third horizontal board protrude from the second vertical board, such that an open accommodating space is defined between the second horizontal board, the second vertical board, and the third horizontal board. The support element is detachably positioned in the accommodating space. A top surface of the support element is abutted against the second horizontal board, and a bottom surface of the support element is abutted against the third horizontal board. | 10-02-2014 |
20140290717 | FRAME FOR SOLAR MODULE AND SOLAR SYSTEM USING THE SAME - A bracket is used for supporting at least one solar module each of which has a frame. The bracket includes a fastener, a holder and a fixing element. The fastener includes a top portion and extended portions connected vertically to both sides of the top portion. The top portion has a concave segment at its central position. The holder includes a supporting portion for resisting the bracket. The holder has first through holes, in which the extended portions pass through a plurality of second through holes of the frame and the first through holes of the holder for sandwiching the bracket between the fastener and the holder. The fixing element is used for fixing the fastener on the holder. | 10-02-2014 |
20140285504 | CONTROLLABLE DISPLAY APPARATUS AND APPLICATIONS THEREOF - Aspects of the invention relate to a controllable display apparatus and applications thereof. The controllable display storage includes a storage having a storage space therein and an opening exposing the storage space to an outer environment, a transparent display panel disposed at the opening, configured to display information thereon, a control device disposed between a part of the storage space and the transparent display panel, where at least a part of the control device is switchable between a transparent mode and an opaque mode, such that the information displayed on the transparent display panel is viewable when the control device is in the opaque mode, and an item displayed in the storage space is viewable through the transparent display panel when the control device is in the transparent mode, and at least one light source disposed in the storage space to provide light to the storage space. | 09-25-2014 |
20140283897 | SOLAR POWER MODULE - A solar power module includes a first frame, a second frame, and a solar cell laminate. The first frame includes a first main body and a first clamping portion. The first clamping portion is disposed along the inner edge of the first main body to be ring-shaped. The second frame includes a second main body and a second clamping portion. The second main body abuts against the first main body. The second clamping portion is disposed along the inner edge of the second main body to be ring-shaped and corresponding to the first clamping portion. The periphery of the solar cell laminate is clamped between the first clamping portion and the second clamping portion. | 09-25-2014 |
20140268806 | Backlight Module with Composite Reflective Surface - A backlight module includes a reflective bottom surface, a light-exit top surface, and a light source module. The reflective bottom surface has a light-entrance side and the light source module is disposed along the light entrance side. The light-exit top surface is disposed opposite to the reflective bottom surface and sandwiches a mezzanine space with the reflective bottom surface. Light generated from the light source module enters the mezzanine space through the light-entrance side and is reflected by the reflective bottom surface to the light-exit top surface. The reflective bottom surface includes at least one first reflective surface and at least one second reflective surface arranged in intervals along an extending direction of the light-entrance side. A specular reflection ratio of the first reflective surface is greater than the specular reflection ratio of the second reflective surface. | 09-18-2014 |
20140267472 | METHOD AND SOURCE DRIVER FOR DRIVING LIQUID CRYSTAL DISPLAY - In one aspect of the invention, a source driver for driving a display panel to display an image data in an adaptive column inversion includes a data processing unit having a logic circuit adapted for determining N most-significant bits (MSBs) of image data signals of two neighboring data lines, such that when all of the N MSBs are equal to 1 or 0, the output of the logic circuit is 1, otherwise, the output of the logic circuit is 0, and a MUX coupled to the data processing unit and adapted for receiving a frame polarity control signal, FramePOL, and a pixel polarity control signal, XPOL, and selectively outputting the frame polarity control signal FramePOL when the output of the logic circuit is 1, or the pixel polarity control signal POL when the output of the logic circuit is 0, as a polarity control signal, POL. | 09-18-2014 |
20140267442 | METHOD AND APPARATUS FOR CONVERTING RGB DATA SIGNALS TO RGBW DATA SIGNALS IN AN OLED DISPLAY - A method for converting input RGB data signals to output RGBW data signals for use in an OLED display is disclosed. In the OLED display, each pixel has three color sub-pixels in RGB and one W sub-pixel. Input RGB data signals in signal space are normalized and converted into input data in luminance space. A baseline adjustment level is determined from the input data and is used to compute baseline adjusted data in luminance space. After being converted from luminance space into signal space, baseline adjusted data in RGBW are represented by N binary bits presented to the four sub-pixels. To suit the color characteristics of the display, color-temperature correction to the output signals is also carried out. In luminance space, the maximum color-temperature corrected output data fall within the range of 0.4/k and 0.5/k, with k being the ratio of W sub-pixel area to the color sub-pixel area. | 09-18-2014 |
20140267218 | DISPLAY AND METHOD OF TRANSMITTING SIGNALS THEREIN - A display includes first pixels, second pixels, a first de-multiplexer and a second de-multiplexer. The first de-multiplexer transmits a first data signal to the first pixels sequentially in response to first control signals. The second de-multiplexer transmits a second data signal to the second pixels sequentially in response to second control signals. The polarity of the first data signal is different from that of the second data signal. Levels of the first control signals are switched between a first voltage level and a zero voltage level, corresponding to the polarity of the first data signal. Levels of the second control signals are switched between a second voltage level and the zero voltage level, corresponding to the polarity of the second data signal. The first voltage level is different from the second voltage level. A method of transmitting signals in a display is also disclosed herein. | 09-18-2014 |
20140253499 | TOUCH UNIT ARRAY AND A DISPLAY PANEL HAVING THE SAME - A touch unit array including a plurality of first strip electrodes, a plurality of second strip electrodes, and a plurality of electrode pad units is provided. Each first strip electrode has at least one first opening. The second strip electrodes are orthogonally arranged to the plurality of first strip electrodes. Each electrode pad unit includes at least one electrode pad, and the electrode pads are respectively disposed in the plurality of first openings, wherein each electrode pad unit receives a first driving signal. | 09-11-2014 |
20140252192 | SUPPORTING ASSEMBLY - A supporting assembly for a solar cell lamination includes a frame member, a column member, and an adapter member. The frame member includes a first flange, a second flange, and a first wall. The second flange is substantially parallel with the first flange. The first flange, the second flange and the first wall cooperate to define a space for accommodating the solar cell lamination. The column member is used for supporting the frame member, in which the column member has an end surface facing the frame member. The end surface has a proximal half portion and a distal half portion respectively proximal and distal to a central axis of the frame member, and a location of a vertical projection of the first wall on the end surface falls on the distal half portion. The adapter member is used for connecting the column member and the frame member. | 09-11-2014 |
20140242367 | BARRIER FILM AND METHODS OF MAKING SAME - A barrier film for blocking moisture and oxygen transmission includes a single layer grown from a precursor of organic silicide by a chemical vapor deposition, having at least silicon (Si) atoms, oxygen (O) atoms and carbon (C) atoms with atomic ratios of C/Si in a range of about 0.1-0.5, and O/Si in a range of about 2.0-2.5. The Si and O atoms form four bonding structures: Si(—O)4, Si(—O)3, Si(—O)2, and Si(—O)1, in the single layer. In the total amount of the four bonding structures being 100%, the bonding structures of Si(—O)4, Si(—O)3, Si(—O)2, and Si(—O)1 are in ranges of about 50%-99.9%, 0.01%-50%, 0%-10%, and 0%-10%, respectively. | 08-28-2014 |
20140240309 | PIXEL CIRCUIT - A pixel circuit includes a first sub-pixel and a second sub-pixel. The first sub-pixel is coupled to a scan line and a data line, so as to determine whether to be enabled according to a first scan signal transmitted on the scan line, and whether to be driven according to a data signal transmitted on the data line. The second sub-pixel is coupled to the scan line, so as to determine whether to be enabled according to the first scan signal. The data signal is in a first state when the first scan signal is in a pre-charged period. The data signal is in a second state during a time interval after the pre-charged period is over and before the first scan signal enters a turn-on period. Voltage polarities of the first state and the second state are opposite. The pixel design can improve color shift and frame flicker. | 08-28-2014 |
20140240302 | Common voltage compensation in a display apparatus - A method and a circuit component for suppressing crosstalk associated with the common voltage in a liquid crystal display are disclosed. In particular, in a liquid crystal display where the crosstalk is mainly caused by various control signals generated by a timing control circuit, one or more timing control signals are extracted from the timing control circuit and processed to become a compensation signal. The compensation signal is provided to display area of the liquid crystal display. The timing control signals generated by the timing control circuit include a start signal and a plurality of clock signals. The steps for processing these signals may include summing, inverting, high-pass filtering and amplitude adjustment, to be carried out in different orders and/or combinations. When the timing control signals are current signals, the steps for processing these signals may include current-to-voltage conversion, summing and inverting. | 08-28-2014 |
20140238959 | PROCESSING SYSTEM - A processing system includes a rotary stage, at least one shaft, a rotation driver, a plurality of loading platforms, and a plurality of processing devices. The rotary stage includes two opposite end surfaces and a plurality of loading surfaces between the end surfaces. The shaft connects the end surfaces of the rotary stage. The rotation driver connects the shaft. The loading platforms are respectively disposed on the loading surfaces of the rotary stage. The processing devices are respectively disposed corresponding to the loading platforms. | 08-28-2014 |
20140232967 | DISPLAY MODULE - A display module includes a panel frame, a display panel, a system frame, and a printed circuit board. The panel frame includes a baseplate having at least one edge, at least one sidewall located on the edge, at least one top wall adjacent to the sidewall, and a support element. An accommodating space is formed by the sidewall and the baseplate. The support element includes a first support portion and a second support portion connected to the first support portion. The support element extends from the edge of the baseplate toward the outside of the accommodating space. The display panel is disposed on the panel frame. The first support portion is disposed on the system frame. The printed circuit board is disposed on the second support portion. | 08-21-2014 |
20140232755 | DRIVING CIRCUIT AND DISPLAY DEVICE OF USING SAME - In one aspect of the invention, a driving circuit has a PCB, a transmitter disposed on the PCB for providing an input signal, first and second transmission lines disposed on the PCB and electrically coupled to the transmitter for transmitting the input signal, and a plurality of source drivers formed in a COF architecture disposed between the PCB and the display panel. The input signal is an encoded signal including first and second Gamma reference voltages control signals, and image data. The first and second Gamma reference voltages are transmitted by the PLC technology through the first and second transmission lines, respectively. The driving circuit is implemented with differential transmission of the Gamma voltages, the image data and the control signals. | 08-21-2014 |
20140231753 | Multi-color light emitting diode and method for making same - A color light-emitting diode using a blue light component to produce red light and green light is disclosed. A blue-light emitting material is provided between a cathode layer and an anode layer for emitting the blue light component. A light re-emitting layer has a first material in a first diode section arranged to produce a red light component in response to the blue light component, and a second material in a second diode section arranged to produce a green light component in response to the blue light component. A transparent material in a third diode section allows part of the blue light component to transmit through. The anode layer is partitioned into three electrode portions separately located in the three diode sections, so that the red, green and blue light components in the diode sections can be separately controlled. | 08-21-2014 |
20140230879 | PHOTOVOLTAIC MODULE - A photovoltaic module includes at least two photovoltaic cells and a ribbon. Each of the photovoltaic cells includes a photovoltaic device, a surface electrode, and a back electrode. The photovoltaic device has a light-receiving surface and a back surface opposite the light-receiving surface. The surface electrode is disposed on the light-receiving surface of the photovoltaic device. The surface electrode includes at least one bus electrode and a plurality of finger electrodes. The bus electrode includes at least two line electrodes disposed on the light-receiving surface of the photovoltaic device. The finger electrodes are disposed on the light-receiving surface of the photovoltaic device and extend in a direction different from the lengthwise direction of the bus electrode. The back electrode is disposed on the back surface of the photovoltaic device. The ribbon electrically connects to the photovoltaic cells. | 08-21-2014 |
20140219412 | SHIFT REGISTER CIRCUIT AND SHADING WAVEFORM GENERATING METHOD - A shift register circuit and a shading waveform generating method are disclosed. The shift register circuit includes plural stages of shift registers. Each stage of the shift register includes an output transistor, an input unit and a gate-shading circuit. The output transistor is configured for generating an output signal of the stage of the shift register. The input unit is configured for controlling a voltage level on a gate terminal of the output transistor. The gate-shading circuit includes a first switch, a second switch and a third switch. The first switch is configured for outputting a control signal. The second switch is configured for pulling down the voltage level on the gate terminal of the output transistor according to the control signal. The third switch is configured for pulling down a level on an output terminal of the output transistor according to the control signal. | 08-07-2014 |
20140218331 | DYNAMIC POWER ADJUSTMENT OF LEVEL SHIFT FOR NOISE REJECTION IN CAPACITANCE TOUCH SYSTEM - A dynamic power adjustment circuit for noise rejection in a capacitance touch system includes: a power source configured to generate a fixed power voltage V, a voltage adjustment circuit electrically connected to the power source, and a noise detection circuit electrically connected to the voltage adjustment circuit. The voltage adjustment circuit is configured to generate a plurality of different voltage signals VH( | 08-07-2014 |
20140211109 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF - A touch panel and a manufacturing method thereof are provided. The touch panel has a double-layered sensing pad structure or a single-layered sensing pad structure. In the double-layered sensing pad structure, the sensing pads in each layer have corresponding dummy sensing pads in the other layer for compensating the difference of transmittance. In the single-layered sensing pad structure, the sensing pads are coplanar so that the problem of color shift can be overcome and the visual effect of the touch panel can be improved. | 07-31-2014 |
20140209158 | SOLAR CELL - A solar cell includes a crystalline silicon substrate, a plurality of P-type semiconductor material layers, a plurality of N-type semiconductor material layers, a plurality of first and second anode electric collection portions, at least one first electrode bus portion, a plurality of first and second cathode electric collection portions, at least one second electrode bus portion, and at least one third electrode bus portion. The first anode electric collection portions, the first electrode bus portion, the first cathode electric collection portions, the second electrode bus portion, the second anode electric collection portions, the second electrode bus portion, the second cathode electric collection portions, and the third electrode bus portion are arranged to form plural cell sub-units, such that an output voltage of the solar cell can be increased. | 07-31-2014 |
20140204607 | NARROW BORDER BACKLIGHT MODULE AND MANUFACTURING METHOD THEREOF - A narrow border backlight module includes a frame, a reflective isolation layer, and a light guide element. The frame includes a plural of sidewalls connected to each other, and the bottom of the frame is hollow. The sidewalls define a cavity. The reflective isolation layer is disposed on an inner surface facing the cavity of the sidewalls. The light guide element is formed inside the frame, and the light guide element and the frame are integrally formed. | 07-24-2014 |
20140204326 | PIXEL ARRAY SUBSTRATE AND LIQUID CRYSTAL DISPLAY PANEL - A pixel array substrate with new pixel design and a liquid crystal display panel with the pixel array substrate are provided. The pixel array substrate includes a plurality of data lines, a plurality of scan lines and a plurality of pixels. Each of the pixels comprises a first electrode, a first connecting line, a second electrode and a second connecting line. The first electrode is electrically connected with corresponding data line and scan line through the first connecting line, and having a slit. The second pixel is electrically connected with corresponding data line and scan line through the second connecting line. At least a part of the second connecting line is exposed by the slit of the first electrode. | 07-24-2014 |
20140198083 | DRIVING CIRCUIT AND METHOD FOR DRIVING A DISPLAY - In one aspect of the invention, a driving circuit for driving a display having pixels spatially arranged in a matrix form, includes an input interface for processing input image signals into pixel signals associated with the pixel matrix and grayscales of the display; a timing controller for generating a polarity control signal; a pair of multiplexors electrically coupled to the input interface for receiving the pixel signals therefrom and controlled by the polarity control signal for selecting transmitting paths of the parallel pixel signals; a data register electrically coupled to the pair of multiplexors for stored the pixel signals including its transmitting paths determined by the polarity control signal; and a source driver having a latch array electrically coupled to the data register for receiving the stored pixel signals therefrom, the source driver configured to write the stored pixel signals into the pixel matrix according to the polarity control signal. | 07-17-2014 |
20140185321 | Light Guide Plate and Backlight Module - A light guide plate includes a plate body and a light incident portion, wherein the plate body has a top plate surface. The light incident portion is formed on a side of the plate body and has a thickness increasing as the light incident portion extends away from a center of the plate body. In addition, the light incident portion has a top surface connected to the top plate surface and lifted from the top plate surface to include an angle with the top plate surface. The top surface includes a first incline and a second incline, wherein the first incline connects to a side of the top plate surface and has a first average slope. The second incline has a side connected to a side of the first incline opposite to the top plate surface and has a second average slope larger than the first average slope. | 07-03-2014 |
20140185273 | Backlight Module for Light Field Adjustment - A backlight module for light field adjustment includes a light source module, an optical structure layer, a first prism film, and a second prism film. The light source module has a light exit surface, and the light exit surface has a normal direction. The optical structure layer is disposed on the light exit surface and has a plurality of microstructures convex toward the light exit surface, wherein the microstructures guide light generated from the light exit surface away from the normal direction. The first prism film is disposed on one side of the optical structure layer opposite to the light source module and has a plurality of first prisms extending along a first direction, wherein the first prisms converge light leaving from the optical structure layer toward the normal direction on a cross section vertical to the first direction. | 07-03-2014 |
20140182678 | PHOTOVOLTAIC APPARATUS, PHOTOVOLTAIC MODULE AND FASTENER THEREOF - A photovoltaic apparatus includes at least one photovoltaic panel, at least one frame and at least one fastener. The frame includes at least one pair of holding parts, a sidewall and at least one protrusion. The photovoltaic panel is positioned between the holding parts. Part of the sidewall connects the holding parts. The sidewall includes an outside surface opposite to the photovoltaic panel. The protrusion is connected to the outside surface of the sidewall, and includes at least one slot thereon. The fastener includes a buckle part at the top of the fastener. Portion of the buckle part is used for engaged into the slot. | 07-03-2014 |
20140182663 | PHOTOVOLTAIC PANEL SYSTEM, PHOTOVOLTAIC PANEL FASTENING DEVICE, AND METHOD OF INSTALLING PHOTOVOLTAIC PANEL SYSTEM - A photovoltaic panel fastening device includes a loading pedestal, a first supporting plate and a second supporting plate. The loading pedestal includes a plurality of side plates and a bottom plate. The side plates are respectively connected to two opposite sides above the bottom plate, and construct a loading recess. The side plates respectively include an opening. The first supporting plate is connected underneath the bottom plate. The second supporting plate is connected underneath the bottom plate and is connected to one of the side plates. | 07-03-2014 |
20140166091 | PHOTOVOLTAIC DEVICE WITH DOUBLE-JUNCTION - A photovoltaic device includes a substrate having a first doped-type, a first doped region having a second doped-type in the substrate, a second doped region in a portion of the first doped region and exposing the other portion of the first doped region, and a third doped region in the exposed portion of the first doped region. The polarity of the second doped-type is substantially reversed with that of the first doped-type. The second doped region has a polarity substantially identical to that of the first doped-type and a doped concentration substantially greater than that of the substrate. The third doped region has a polarity substantially identical to that of the second doped-type and a doped concentration substantially greater than that of the first doped region. The first doped-type is one of N-type and P-type, while the second doped-type is the other of P-type and N-type. | 06-19-2014 |
20140162523 | METHOD OF DISASSEMBLING LIQUID CRYSTAL DISPLAY - A method of disassembling a liquid crystal display comprising a plastic frame having two inner walls and two loading planes, an optical film, a LCD panel and a double-sided tape. One side of the double-sided tape respectively adheres the optical film, One inner wall and the two loading planes, and the other side thereof adheres the LCD panel, and the optical film and the LCD panel are together installed in the plastic frame. The method comprises a protruding part is pressed, so the plastic frame is deformed, and the side of the double-sided tape still adheres the optical film and the plastic frame, with the deformation of the plastic frame, one corner of the LCD panel is released from the other adhering surface of the double-sided tape; and the released corner of the LCD panel is lifted till the LCD panel is totally removed. | 06-12-2014 |
20140160375 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device includes a backlight module, a liquid crystal display panel, an insulating cover and a touch panel assembly. The insulating cover includes a reflective bottom plate for supporting the backlight module, at least one first sidewall with a first end and an opposite second end, at least one second sidewall with a third end and an opposite fourth end and a supporting plate connected to the opposite second end of the first sidewall and the third end of the second sidewall. The supporting plate is arranged in parallel with the reflective bottom plate and has an upper surface for supporting the liquid crystal display panel. The securing frame has a first end portion fixed to a lower surface of the supporting and a second end portion. | 06-12-2014 |
20140152923 | LIQUID CRYSTAL LENS AND STEREO DISPLAY USING THE SAME - A liquid crystal lens includes a first substrate, a second substrate, a liquid crystal layer, a plurality of first main electrodes, and a plurality of second main electrodes. The second substrate is disposed opposite to the first substrate. The liquid crystal layer is disposed between the first substrate and the second substrate. The first main electrodes are disposed on a surface of the first substrate adjacent to the liquid crystal layer. Any two adjacent first main electrodes define a first gap therebetween. The second main electrodes are disposed on a surface of the second substrate adjacent to the liquid crystal layer. Any two adjacent second main electrodes define a second gap therebetween. A vertical projection of each first main electrode on the surface of the second substrate overlaps at least two adjacent second main electrodes to form overlapping portions of the at least two second main electrodes, respectively. | 06-05-2014 |
20140152640 | ARRAY SUBSTRATE OF A DISPLAY PANEL AND THE DRIVING METHOD THEREOF - An array substrate of a display panel is provided with new layout design. The array substrate includes a plurality of sub-pixel group, a plurality of switching device, a pair of first data lines, and a plurality of scan line. Each of the sub-pixel group comprises a first sub-pixel group and a second sub-pixel group. Each of the first sub-pixel group and the second sub-pixel group comprises a first, a second, a third sub-pixel, and is disposed in a first column. The first, the second, and the third sub-pixels are having different voltages while the array substrate of a display panel is displaying in a two-dimensional (2D) mode. | 06-05-2014 |
20140146568 | LIGHT SOURCE MODULE AND DISPLAY MODULE - A light source module including a light guide plate and a light source is provided. The light guide plate has a light incident surface and a light emitting region, and the light guide plate has a plurality of grooves or protruding patterns thereon. The length of the grooves or the protruding patterns is smaller than the length of the light guide plate. The light source is disposed on the light incident surface of the light guide plate, and the grooves or the protruding patterns of the light guide plate are disposed beside the light incident surface. | 05-29-2014 |
20140145744 | DISPLAY PANEL AND TESTING METHOD THEREOF - A display panel and a testing method of the display panel are provided. The display panel has a display region and a non-display region and includes a first substrate, a second substrate, and a display medium. The display panel further includes scan lines, data lines, pixel units, at least one testing line, and at least one testing pad. The scan lines and the data lines are located on the first substrate within the display region. The pixel units are located on the first substrate within the display region. Each pixel unit electrically connects one of the scan lines and one of the data lines. The testing line is located on the first substrate within the non-display region, crosses over the scan lines, and is insulated from the scan lines. The testing pad is located on the first substrate within the non-display region and electrically connected to the testing line. | 05-29-2014 |
20140125643 | AMOLED DISPLAY WITH OPTICAL FEEDBACK COMPENSATION - In one aspect of the invention, a display includes a substrate, and a plurality of pixels formed on the substrate and arranged in an array. Each pixel has a driving transistor having a gate electrode, a drain electrode and a source electrode, formed on the substrate, an organic light emitting diode (OLED) having a cathode layer, a anode layer and an emissive layer formed between the cathode layer and the anode layer, and formed over the driving transistor such that the anode layer of the OLED is electrically connected to the source electrode of the driving transistor, a bias electrode formed over the substrate, and a photo sensor having a photosensitive layer formed between the anode layer of the OLED and the bias electrode. | 05-08-2014 |
20140118644 | LIQUID CRYSTAL LENS AND DISPLAY DEVICE HAVING THE SAME - A liquid crystal (LC) lens includes first and second substrates, an LC layer disposed therebetween, and a plurality of first and second electrode structures. Each electrode structure has a plurality of first, second, third and fourth electrodes spaced-apart and alternately arranged along a first direction, where the first and second electrodes are disposed between the first substrate and the LC layer, while the third and fourth electrodes are disposed between the second substrate and the LC layer. In each first electrode structure, each of the first and second electrodes and a corresponding one of the third and fourth electrodes are aligned at a left tilted angle, while in each second electrode structure, each of the first and second electrodes and a corresponding one of the third and fourth electrodes are aligned at a right tilted angle. The first and second electrode structures are alternately arranged along a second direction. | 05-01-2014 |
20140117362 | DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - A display panel is provided, which includes a transparent substrate, a first thin film transistor (TFT), a second TFT, a transparent bottom electrode, a capacitance layer, a transparent top electrode, an opposite substrate and a display medium layer. The transparent substrate has a display region and a peripheral region. The display region has sub-pixel regions, and at least one sub-pixel region at least includes a capacitance region and a transistor region. The first and the second TFTs are disposed on the transistor region of the transparent substrate. The transparent bottom electrode, the capacitance layer and the transparent top electrode are sequentially disposed on the capacitance region of transparent substrate, in which the transparent bottom electrode is connected to a source/drain electrode of the first TFT, and the transparent top electrode is connected to a source/drain electrode of the second TFT. | 05-01-2014 |
20140112008 | Light Module - A light module is disclosed. The light module includes a first printed circuit board, a second printed circuit board, a light source, and a fixing casing, wherein the first printed circuit board and the second printed circuit board each has a fixing part, and the fixing part of the second printed board is attached to the fixing part of the first printed board. The light source is disposed on the first printed circuit board to couple to the first printed board and the second printed board. The fixing casing has a contact surface. When the fixing casing is fixed onto the fixing parts of the second printed circuit board and the first printed circuit board, the contact surface contacts the fixing part so that the second printed circuit board is clamped between the contact surface and the first printed circuit board. | 04-24-2014 |
20140111975 | Light Guide Plate and Backlight Module and Display Module Using the Same - A light guide plate includes a plate body and a supporting unit. The plate body has a light-exiting face and a lateral side, wherein the supporting unit is disposed along the lateral side. The supporting unit has a top surface and an outer lateral surface, the top surface is above the light-exiting face, the lateral surface protrudes from an end surface of the lateral side of the plate body, wherein a portion of the end surface away from the light-exiting face is exposed to form a recess. A backlight module includes the light guide plate mentioned above and a back plate, wherein the light guide plate is disposed on the back plate. A periphery of the back plate has a side wall formed thereon and extending into the recess. A display device includes the light guide plate mentioned above and a display panel, wherein the display panel is disposed on the light guide plate and is supported by the top surface. | 04-24-2014 |
20140111716 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel having pixel regions includes a light shielding layer having opening regions corresponding to the pixel regions, first pixel electrodes and second pixel electrodes. Each first pixel electrode includes strip first pixel electrode patterns. Each second pixel electrode includes strip second pixel electrode patterns. Each opening region includes sub regions. Each of the strip first pixel electrode patterns and its neighboring strip second pixel electrode pattern in each of the sub regions are separated by an electrode spacing. Electrode spacings in different sub regions are different. An area of all the sub regions with the electrode spacings less than or equal to 12 micrometers accounts for less than or equal to 35% area of each opening region. An area of the other sub regions with the electrode spacings greater than 12 micrometers accounts for more than or equal to 65% area of each opening region. | 04-24-2014 |
20140111712 | TWO-DIMENSIONAL AND THREE-DIMENSIONAL SWITCHABLE LIQUID CRYSTAL DISPLAY DEVICE AND DISPLAYING METHOD THEREOF - An LCD device operably switchable between 2D and 3D display modes includes an active retardation panel having a plurality of retardation pixels arranged in at least M*N retardation pixel matrix with a first liquid crystal (LC) layer, and an LCD panel positioned having a plurality of display pixels arranged in at least M*N display pixel matrix with a second LC layer. Each retardation pixel has a first retardation A(i, j), and each display pixel has a second retardation B(i, j). The active retardation panel and LCD panel are arranged such that the retardation pixel matrix is positioned corresponding to the display pixel matrix, and an image displayed from each display pixel and passed through corresponding retardation pixel is simultaneously viewable by left and right eyes of a viewer and satisfies with: | 04-24-2014 |
20140109403 | Complex Circuit Board and Fabrication Method Thereof - A complex circuit board including a printed circuit board assembly (PCBA) and a flexible printed circuit (FPC) for providing driving signals for light sources is disclosed. The PCBA includes a supporting portion and a connecting portion. The light sources are disposed above the supporting portion. The connection portion contacts electrically with a contacting portion of the FPC. The contacting portion of the FPC has a fixing hole. The connecting portion of the PCBA has a fixing portion. Moreover, the FPC has two or more than two first bend portions on the contacting portion. The fixing portion of the PCBA is inserted into the fixing hole of the FPC to complete the complex circuit board without extra attachment units. Therefore, the assembly procedure is simplified to increase throughput and the cost is reduced. | 04-24-2014 |
20140106513 | THIN FILM TRANSISTOR, METHOD OF FABRICATING THIN FILM TRANSISTOR AND PIXEL STRUCTURE - A method of fabricating a TFT includes providing a substrate where a gate, an insulating layer, and a channel layer are formed. A conductive layer is formed on the substrate to cover the channel layer and the insulating layer. A photoresist layer is formed on the conductive layer. A photo mask is placed above the photoresist layer and has a data line pattern, a source pattern, and a drain pattern. A first width (W | 04-17-2014 |
20140104513 | ELECTRONIC APPARATUS - A method of fabricating an electronic apparatus having an active region and a peripheral region surrounding the active region is described. A first main device and a second main device are provided. An optical clear liquid adhesive (OCLA) is applied between the first main device and the second main device and within the active region. A photo-mask having a transparent region and an opaque region is provided above the second main device, and the transparent region corresponds to the peripheral region. An OCLA diffusion process is performed such that the OCLA diffuses from the active region to the peripheral region. During the OCLA diffusion process, a first irradiating process with the photo-mask is performed, such that the OCLA diffusing to the peripheral region is partially cured. After removing the photo-mask, a second irradiating process is performed, such that the OCLA is completely cured. | 04-17-2014 |
20140104260 | DRIVING DEVICE AND DISPLAY DEVICE AND METHOD FOR DRIVING DISPLAY PANEL - A driving device is configured for driving a display panel and includes a data driver, a plurality of switches, and an image determiner. The switch is electrically coupled between data lines of a first data line group. The data driver is configured to output data signals to the data lines of the first data line group. The data signals transferred by the data lines of the first data line group include a plurality of pulse transitions while the display panel displays an image. The image determiner is configured to determine the image displayed by the display panel and output a driving signal based on a determined result for activating a corresponding switch such that the data lines of the first data line group can perform charge sharing therebetween. Furthermore, a method for driving a display panel is disclosed herein. | 04-17-2014 |
20140098514 | Display, Backlight Module, and Frame Structure Thereof - A backlight module includes a light-guiding plate, a back-light source disposed at a side of the light-guiding plate, and a frame structure disposed surrounding the light-guiding plate. The frame structure includes a border component, at least one first convex, and at least one second convex. The border component includes at least one first border and at least one second border. The first border and the second border are adjacent to each other and distributed along a first direction and a second direction respectively. The first convex protrudes from the inner surface of the first border and extends inward along the second direction. The second convex protrudes from the inner surface of the second border and extends inward along the first direction. The first direction is vertical to the second direction, and the top of the vertical height of the first convex is lower than that of the second convex. | 04-10-2014 |
20140092056 | TOUCH APPARATUS AND TOUCH SENSING METHOD THEREOF - The touch apparatus includes a touch panel, a signal generation unit for generating a driving signal, an inductor, and a detection unit. The touch panel has touch areas. The inductor is coupled between the touch panel and the signal generation unit and transmits the driving signal to the touch areas. The detection unit is coupled to the touch panel and the signal generation unit, receives touch signals from the touch areas, and calculates capacitance variances of the touch areas according to the touch signals and an output timing of the driving signal, so as to detect a touch point of the touch panel. A frequency of the driving signal is equal to a resonant frequency of a reference capacitance of the touch panel and an inductance of the inductor. | 04-03-2014 |
20140087525 | COMPLEMENTARY METAL OXIDE SEMICONDUCTOR TRANSISTOR AND FABRICATING METHOD THEREOF - A fabricating method of CMOS transistor includes following steps. A first gate and a second gate are formed on a substrate. A gate insulator is formed on the substrate to cover the first and second gates. A first source, a first drain, a second source, and a second drain are formed on the gate insulator. The first source and the first drain are above the first gate. The second source and the second drain are above the second gate. A first channel layer and a mask layer are formed on the gate insulator. The mask layer is on the first channel layer. The first channel layer is above the first gate and contacts with the first source and the first drain. A second channel layer is formed on the gate insulator. The second channel layer is above the second gate and contacts with the second source and the second drain. | 03-27-2014 |
20140085702 | DISPLAY PANEL - A display panel includes a first substrate, a third substrate and a second substrate disposed therebetween. A first grid structure having first openings is disposed on the first substrate to expose pixel regions. A second grid structure having second openings and a third grid structure having third openings are disposed on the second substrate and the third substrate, respectively. A first polar solution layer is disposed between the first substrate and the second substrate. A second polar solution layer is disposed between the third substrate and the second substrate. A first non-polar solution layer is disposed within the first openings. A second non-polar solution layer is disposed within the second openings. The second non-polar solution layer disposed in different pixel regions has different colors. A third non-polar solution layer is disposed within the third openings. The third non-polar solution layer disposed in different pixel regions has different colors. | 03-27-2014 |
20140085583 | DISPLAY PANEL - A display panel includes a pixel structure that has first, second, and third sub-pixels. In the first sub-pixel, a first pixel electrode having first branches and a second pixel electrode having second branches are alternately arranged. Gap dB is defined between adjacent first and second branches. In the second sub-pixel, a third pixel electrode having third branches and a fourth pixel electrode having fourth branches are alternately arranged. Gap dG is defined between adjacent third and fourth branches. In the third sub-pixel, a fifth pixel electrode having fifth branches and a sixth pixel electrode having sixth branches are alternately arranged. Gap dR is defined between adjacent fifth and sixth branches. The gaps dB, dG, and dR at least include minimum gaps dB | 03-27-2014 |
20140085582 | FRINGE-FIELD SWITCHING MODE LIQUID CRYSTAL DISPLAY PANEL - A Fringe-Field Switching (FFS) mode liquid crystal display (LCD) panel with optimized designs of pixel areas and/or liquid crystal materials is provided. The FFS mode LCD panel includes an active-element array substrate with a plurality of pixel areas, an opposite substrate, and a liquid crystal layer. Each pixel area comprises a plurality of first common electrodes, a second common electrode between the pixel area and another horizontally adjacent pixel area, and a pixel electrode. The optical transmittance and homogeneity of the pixel area of the display panel are modified by manipulating the relative position of the electrodes in the pixel areas on the active-element array substrate and/or adopting specific parameters of liquid crystal materials in the liquid crystal layer of the display panel. | 03-27-2014 |
20140084291 | Active Device Array Substrate and Manufacturing Method Thereof - An active device array substrate includes a flexible substrate, a gate electrode, a dielectric layer, a channel layer, a source electrode, a drain electrode, and a pixel electrode. The flexible substrate has at least one transistor region and at least one transparent region adjacent to each other. The gate electrode is disposed on the transistor region of the flexible substrate. The dielectric layer covers the flexible substrate and the gate electrode. A portion of the dielectric layer disposed on the gate electrode has a first thickness. Another portion of the dielectric layer disposed on the transparent region of the flexible substrate has a second thickness. The second thickness is less than the first thickness. The channel layer is disposed above the gate electrode. The source electrode and the drain electrode are disposed on opposite sides of the channel layer and are electrically connected to the channel layer. | 03-27-2014 |
20140083504 | SOLAR APPARATUS AND MOUNTING SYSTEM THEREOF - A solar apparatus includes a solar cell, a frame including a main body and a hollow rib, a pair of first support racks, and a pair of second support racks. The main body surrounds the edge of the solar cell. The hollow rib protrudes over the circumference of the main body. The first support racks are located on a first side of the frame, and each of the first support racks includes a first engaging clamp for coupling to the hollow rib of the frame. The second support racks are located on a second side of the frame facing away from the first side, and each of the second support racks includes a second engaging clamp for coupling to the hollow rib of the frame. | 03-27-2014 |
20140078776 | BACKLIGHT MODULE - A backlight module includes a back bezel, a light guide plate, a plurality of optical films, and a clamping device. The light guide plate is disposed in an area enclosed by a periphery structure of the back bezel, and the optical films are disposed on the light guide plate. The clamping device includes a supporting element, a clamping piece, and a cushion element. The supporting element protrudes from the back bezel. The clamping piece is disposed on the supporting element and extends from the back bezel to the optical films. The cushion element is disposed between the clamping piece and the optical films. | 03-20-2014 |
20140078443 | BACKLIGHT MODULE - A backlight module is disclosed, which includes an outer frame having a sidewall and a hole formed on the sidewall, an inner frame disposed inside of the outer frame, and an adhesive device. The inner frame includes a block wall and a support. The block wall has an inner surface, an outer surface, and a breakable section. The outer surface is in contact with the sidewall, and the breakable section is disposed corresponding to the hole. The adhesive device is disposed on the support. | 03-20-2014 |
20140078127 | DISPLAY APPARATUS AND METHOD FOR GENERATING GATE SIGNAL THEREOF - A display apparatus and a method for generating gate signal thereof are provided. The display apparatus includes a timing controller and a display panel. The timing controller is used for providing a plurality of timing signals. The display panel includes a pixel array and a gate drive circuit. The pixel array has a plurality of pixels. The gate drive circuit is electrically connected to the timing controller and the pixel array and including a plurality of shift register circuits. The shift register circuit includes a first shift register and a second shift register. The first shift register is configured for generating a corresponding primary gate signal. The second shift register is configured for generating a corresponding secondary gate signal. The timing controller adjusts overlapping relations of the timing signals according to a frame rate of the display apparatus. | 03-20-2014 |
20140078100 | TOUCH PANEL AND TOUCH DISPLAY PANEL - A touch panel includes a substrate, a touch device layer, a sensing circuit structure, and a planarization layer. The substrate includes a sensing region and a peripheral region that surrounds the sensing region. The touch device layer is disposed on the sensing region of the substrate. The sensing circuit structure is disposed on the peripheral region of the substrate, and the sensing circuit structure includes a plurality of sensing lines. The sensing lines are electrically connected to the touch device layer. The planarization layer is located on the substrate. Here, the planarization layer includes a color-resist material that has a dielectric coefficient ranging from about 3 to about 5, and the planarization layer covers the sensing lines located in the peripheral region. | 03-20-2014 |
20140077698 | BACKLIGHT MODULE - A backlight module is provided, which includes a first coil, a first driving circuit, a second coil, a rectifying circuit and a light emitting unit. The first driving circuit is electrically connected to the first coil for controlling the first coil to produce a first magnetic field. The second coil is disposed on a transmission direction of the first magnetic field corresponding to the first coil for receiving the first magnetic field and providing a first induction voltage according to the first magnetic field. The rectifying circuit is electrically connected to the second coil for converting the first induction voltage into a first driving voltage. The light emitting unit is electrically connected to the rectifying circuit to provide a backlight according to the first driving voltage. | 03-20-2014 |
20140077340 | DEVICE SUBSTRATE AND FABRICATION METHOD THEREOF - A fabricating method of a device substrate including the following procedures is provided. First, a substrate is provided and a patterned structure is formed on the substrate, wherein the patterned structure includes a plurality of openings. Then, a protective layer is formed on the patterned structure, wherein the protective layer does not fully fill the openings of the patterned structure such that a gap is existed between the protective layer and the patterned structure. Later, a device layer is formed on the protective layer. | 03-20-2014 |
20140071713 | Display Module Having Support Structure for Display Panel - A display module includes a display panel and a backlight module. The display panel has overlapped first and second substrates, wherein the first substrate extends beyond the second substrate at a first side. The backlight module is disposed on one side of the display module opposite to the display surface and includes a support unit disposed along the first side. The support unit has a first tier portion and a second tier portion, which is lifted toward the display panel with respect to the first tier portion and supports the display panel. A projection region of the display panel supported by the second tier portion on the first substrate covers or overlaps the edge of the second substrate at the first side and extends to an overlapping area of the first substrate and the second substrate. | 03-13-2014 |
20140071385 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel includes an active device array substrate, an opposite substrate, a sealant, a liquid crystal layer, a black matrix, and a plurality of rough structures. The active device array substrate has a display area and a peripheral area surrounding the display area, and the liquid crystal layer and the peripheral area are surrounded by the sealant. The black matrix is disposed between the active device array substrate and the opposite substrate and distributed corresponding to the display area and the peripheral area. The rough structures are disposed on a portion of the black matrix and distributed corresponding to the peripheral area. Surface roughness of the rough structures is greater than surface roughness of the black matrix distributed corresponding to the display area. | 03-13-2014 |
20140071109 | ELECTROSTATIC DISCHARGE PROTECTION CIRCUIT AND DISPLAY APPARATUS USING THE SAME - An electrostatic discharge protection circuit and a display apparatus are provided. The electrostatic discharge protection circuit adapted to the display apparatus having a display panel which has a signal line and a common voltage line. The electrostatic discharge protection circuit includes a first switching unit and a second switching unit. The first switching unit is electrically coupled to the signal line. The second switching unit is electronically coupled between the first switching unit and the common voltage line. When the display apparatus is shut down, the first switching unit and the second switching unit form a conductive path. When the display apparatus is turned on, the first switching unit receives a first control signal, and the second switching unit receives a second control signal, so that at least one of the first switching unit and the second switching unit is turned off at the same time. | 03-13-2014 |
20140069494 | METHOD AND APPARATUS FOR INCREASING CONDUCTIVITY OF SOLAR CELL ELECTRODE, AND SOLAR CELL - A method and apparatus for increasing conductivity of a solar cell electrode are disclosed. The method includes forming at least one finger on a surface of a substrate, and providing an electrical pulse passing through the finger, in which the duration of the electrical pulse is between 1 microsecond and 1 second. The finger is utilized as an electrode of a solar cell, and includes an adhesive and plural conductive particles blended therein. The temperature of the finger is raised by passing therethrough the electrical pulse to eliminate contaminants and oxidation in the finger and micro-weld the conductive particles in the finger. | 03-13-2014 |
20140069484 | SOLAR APPARATUS AND MOUNTING SYSTEM THEREOF - A solar apparatus includes a solar panel, a frame body surrounding an edge of the solar panel, a first Y-shaped support, and a second Y-shaped support. The first Y-shaped support has two parallel first extending arms and a first supporting portion. The first supporting portion is connected to the two first extending arms, and one of the two first extending arms is fixed on a side of the frame body. The second Y-shaped support has two parallel second extending arms and a second supporting portion. The second supporting portion is connected to the two second extending arms, and one of the two second extending arms is fixed on the side of the frame body. A height of the first Y-shaped support is smaller than a height of the second Y-shaped support. | 03-13-2014 |
20140063398 | DISPLAY PANEL AND REPAIRING METHOD THEREOF - A display panel is provided. A substrate includes a non-display area and a display area including a center area, a first area, and a second area. First data lines are disposed in the first area and electrically connected to the first source driving circuit. Second data lines are disposed in the second area and electrically connected to the second source driving circuit. At least one first repairing line is electrically connected to the first source driving circuit, passes through the center area of the display area and overlaps with the first data lines, wherein the first repairing line is electrically insulated from the first data lines. At least one second repairing line is electrically connected to the second source driving circuit, passes through the center area of the display area and overlaps with the second data lines, wherein the second repairing line is electrically insulated from the second data lines. | 03-06-2014 |
20140063076 | DRIVING METHOD OF PIXELS OF DISPLAY PANEL - A driving method of pixels of a display panel is provided, which is adapted to drive a pixel of the display panel corresponding to a target grey-level of a display frame. In this method, a first pixel voltage is applied to the pixel during a first display period. At least one second pixel voltage is applied to the pixel during a second display period. The first and second display periods correspond to the display frame, and an enabling duration of the second display period is longer than the enabling duration of the first display period. When the target grey-level is not equal to a limit grey-level, the grey-level corresponding to the pixel voltage is different from the grey-level corresponding to the second pixel voltages. A sum of optical effects of the pixel during the first and second display periods is equal to the optical effect of the target grey-level. | 03-06-2014 |
20140062980 | ELECTROPHORETIC DISPLAY SYSTEM - An electrophoretic display system includes an electrophoretic display panel, a timing controller, a data driver, and a gate driver. The data driver includes a first serial-to-parallel converter and a data converter. The first serial-to-parallel converter receives a plurality of first series data and converts the first series data into a plurality of second series data. The quantity of the second series data is more than the quantity of the first series data. The data converter receives the second series data and is electrically connected to the electrophoretic display panel. Besides, the data converter converts the second series data into display voltages, and the quantity of the display voltages is more than the quantity of the second series data. The gate driver is electrically connected to the electrophoretic display panel and the timing controller and controlled by the timing controller to provide gate driving voltages to the electrophoretic display panel. | 03-06-2014 |
20140062918 | TOUCH DISPLAY APPARATUS AND DISPLAY-DRIVING METHOD - A touch display apparatus is disclosed in the disclosure. The touch display apparatus includes a panel module, a display driving circuit and a touch sensing circuit. The panel module includes pixel units, common electrode lines and touch receiving line. The common electrode lines are disposed vertical to the touch response lines. The display driving circuit is coupled to the panel module to drive the pixel units. The display driving circuit is synchronized to the touch sensing circuit. The touch transmission signal for touch-sensing are transmitted via the common electrode line sequentially. In addition, a display-driving method is also disclosed. | 03-06-2014 |
20140062899 | DYNAMIC STOP DISPLAY DRIVING MECHANISM FOR TOUCH SENSING - A method for driving a touch display for sensing a touch event and displaying an image characterized with a series of frames includes performing a driving operation for a display device of the touch display to display the image, and a sensing operation for a touch sensing device of the touch display to sense a touch event. The driving operation is configured such that for selected frames of the series of frames, the display device is not driven, and for the other frames of the series of frames, the display device is driven. The sensing operation is configured such that during the selected frames in which the display device is not driven, the touch sensing device is driven, and during the other frames in which the display device is driven, the touch sensing device is not driven. | 03-06-2014 |
20140061405 | BRACKET AND FRAME BODY HAVING THE SAME - A frame body includes a bottom plate, a connection portion, and a bracket. The bracket includes a first sidewall, a second sidewall, a bending portion, a positioning board, and a connection layer. The first sidewall has a first end connected to the connection portion and has a first surface facing away from the accommodating space. The second sidewall is adjacent to a side of the first sidewall that faces away from an accommodating space of the frame body. The second sidewall has a second surface facing the first surface. The bending portion is connected to a second end of the first sidewall that is distal to the connection portion and the second sidewall. The positioning board is connected to an end of the second sidewall that is distal to the bending portion. The connection layer adheres the first surface and the second surface. | 03-06-2014 |
20140055434 | ORGANIC LIGHT-EMITTING DIODE DISPLAY AND METHOD OF DRIVING SAME - In one aspect of the invention, a method of driving an OLED display includes providing scan signals and data signals and applying the scan signals to scan lines and the data signals to the data lines, respectively. Each scan signal is characterized with a waveform having a compensation duration and a scan duration immediately following the compensation duration. The waveform has a first voltage and a second voltage periodically and alternately varied from one another defining a period in the compensation duration, and has the first voltage in the scan duration. The period is equal to the scan duration but shorter than the compensation duration. As such, during the compensation duration of a scan signal, pixels of a corresponding pixel row are charged for compensation, and during the scan duration, the data signals are written into the pixels of the corresponding pixel row for driving the OLEDs thereof. | 02-27-2014 |
20140053890 | PHOTOVOLTAIC APPARATUS - A photovoltaic apparatus includes N solar cell modules. The solar cell module includes a first sub-loop, a second sub-loop, and at least one junction box. Each of the first sub-loop and second sub-loop has a first end and a second end. The junction box is electrically connected to the first ends and the second ends and connected to another junction box in another adjacent solar cell module. N is a natural number. | 02-27-2014 |
20140049620 | ENTERTAINMENT DISPLAYING SYSTEM AND INTERACTIVE STEREOSCOPIC DISPLAYING METHOD OF THE SAME - An entertainment displaying system for generating interactive displaying effects corresponding to a real object in view of an observation area is disclosed. The entertainment displaying system includes a tracking module, a computing module and a stereoscopic displaying module. The tracking module is used for tracking a relative position relationship between the real object and the observation area. The computing module is configured for generating a stereoscopic virtual object according to the relative position relationship. The stereoscopic displaying module includes a transparent displaying apparatus and an optical-shielding structure. The transparent displaying apparatus is configured for displaying the stereoscopic virtual object. The optical-shielding structure is disposed adjacent to the transparent displaying apparatus and located between the transparent displaying apparatus and the real object. The optical-shielding structure is configured to be switched according to a virtual depth-of-field order between the stereoscopic virtual object and the real object. | 02-20-2014 |
20140049619 | STEREOSCOPIC DISPLAY PANEL, DISPLAY PANEL AND DRIVING METHOD THEREOF - A stereoscopic display panel, a display panel and a driving method thereof are provided. A pixel array of the pixel array substrate includes a first scan line, a second scan line, a first data line, a first pixel electrode, a second pixel electrode, a first active device and a second active device. The first data line is electrically connected to the first pixel electrode disposed at the left side of the first data line through the first active device. The first data line is electrically connected to the second pixel electrode disposed at the right side of the first data line through the second active device. The first scan line electrically connected to the first active device and the second scan line electrically connected to the second active device are disposed at the same side of the first active device and the second active device. | 02-20-2014 |
20140048777 | ORGANIC LIGHT EMITTING DIODE MODULE - An organic light emitting diode module is provided and includes a substrate, a first electrode located on the substrate, a pair of second electrodes located on the substrate, a light emitting element located on the substrate, a first copper foil electrically connected to the first electrode, a pair of second copper foils respectively electrically connected to the second electrodes, and a cross connection conductor electrically connected to the second copper foils. The second electrodes are in an arrangement opposite to one another. The light emitting element includes a first electrode layer electrically connected to the first electrode, a second electrode layer located between the second electrodes and electrically connected to the second electrodes, and an organic light emitting layer located between the first and second electrode layers. | 02-20-2014 |
20140048306 | Apparatus for Patterning Ribbon, String Tabbing Method and Solar Cell Module Using the Same - An apparatus for patterning a ribbon includes a holding device, a heating device, and an embossing device. The holding device is utilized for positioning the ribbon on a surface of a solar cell. The first solder layer contacts the solar cell. The heating device is utilized for melting the ribbon for string tabbing on the solar cell. The embossing device is utilized for contacting the melted ribbon to form a pattern on the ribbon. A surface energy between the ribbon and the solar cell is greater than a surface energy between the ribbon and the embossing device. | 02-20-2014 |
20140048129 | SOLAR CELL AND FABRICATING METHOD THEREOF - A solar cell includes a substrate. The substrate has a light-receiving surface and a back surface opposite to the light-receiving surface. The substrate includes plural trenches formed on the back surface. The solar cell includes plural n-type diffusion areas and plural p-type diffusion areas alternately disposed on the back surface and the surface of the trenches. The possibility of recombination of the electron-hole pair while moving can be reduced because of the trenches, which are formed in the substrate. | 02-20-2014 |
20140044471 | SOLAR MODULE - A solar module includes a first supporting element, a first clamping assembly, a first pivotal member, and a frame. A first fixing hole of the first supporting element has a first and second dented portions. A first angle is formed between two connection lines respectively connecting the apexes of the first and second dented portions to the center of the first fixing hole. A second fixing hole of the first clamping assembly has a third and fourth dented portions. A second angle is formed between two connection lines respectively connecting to the apexes of the third and fourth dented portions to the center of the second fixing hole. The pivotal member is pivotally connected to the first and second fixing holes. A protruding portion of the pivotal member can be engaged with the first and third dented portions or with the second and fourth dented portions. | 02-13-2014 |
20140043568 | DISPLAY APPARATUS - A display apparatus includes a display panel disposed between a first polarizer and a second polarizer and having at least one first area and at least one second area. A first light-transmission axis direction of the first polarizer is substantially perpendicular to a second light-transmission axis direction of the second polarizer. The first light-transmission axis direction intersects a horizontal axis direction by about 45 degrees. When the display panel is in a narrow viewing angle display mode, the first and second areas have different brightness in a side viewing angle direction but have the same brightness in and around a normal viewing angle direction. When the display panel is in a wide viewing angle display mode, the first and second areas have substantially the same brightness in various viewing angle directions. | 02-13-2014 |
20140043372 | DISPLAY PANEL - A display panel includes a plurality of scan lines, a plurality of data lines, a plurality of power lines, a plurality of light emitting units, a plurality of first pixel circuits and a plurality of second pixel circuits. The plurality of light emitting units are arranged in an array and adapted to display different colors. In the organic light emitting units with the same color, some parts are connected to the first pixel circuits, and other parts are connected to the second pixel circuits. A first terminal and a second terminal of a first control transistor in the first pixel circuit are sequentially arranged on a forward direction of a first direction, and a first terminal and a second terminal of a second control transistor in the second pixel circuit are sequentially arranged on a reverse direction of the first direction. | 02-13-2014 |
20140042649 | METHOD FOR FABRICATING FLEXIBLE DISPLAY MODULE - A method for fabricating flexible display module mainly includes following steps: providing a transparent carrier with a carrying-surface and a back-surface opposite to the carrying-surface; forming a photosensitive-release-film on the carrying-surface; providing a flexible substrate on the photosensitive-release-film; forming a pixel array on the flexible substrate; during or after forming the pixel array, conducting irradiation on the photosensitive-release-film from the back-surface of the transparent carrier to weaken bonding force between the photosensitive-release-film and the transparent carrier or simultaneously weaken both the bonding force between the photosensitive-release-film and the transparent carrier and the structure strength of the photosensitive-release-film; and then, removing the flexible substrate from the transparent carrier, in which at least one portion of the photosensitive-release-film is peeled off from the carrying-surface and remains on the flexible substrate. | 02-13-2014 |
20140042444 | PIXEL STRUCTURE AND FABRICATING METHOD OF PIXEL STRUCTURE - A pixel structure and a fabricating method thereof are provided. An insulating layer and a planar layer are formed on an electrode. The planar layer has a first opening. A conductive layer is formed on the planar layer and filled into the first opening. A patterned photoresist layer having an etching opening is formed. A wet etching process employing the patterned photoresist layer as a mask is performed on the conductive layer to remove the conductive layer disposed above the electrode via the etching opening and etch laterally the conductive layer below the patterned photoresist layer, to form a patterned conductive layer having a second opening. A dry etching process employing the patterned photoresist layer as a mask is performed on the insulating layer to remove the insulating layer disposed above the electrode via the etching opening, to form a patterned insulating layer having a third opening. | 02-13-2014 |
20140038326 | DISPLAY SUBSTRATE HAVING ARCHED SIGNAL TRANSMISSION LINE AND MANUFACTURE METHOD THEREOF - This invention discloses a display device mother substrate, a display device substrate and a manufacture method of display device substrate thereof. The display device mother substrate includes a first substrate, a second substrate, a first active area circuit and a first transmission line, wherein a first cutting line is defined between the first substrate and the second substrate. The first active area circuit is disposed on the first substrate and is electrically connected to the first transmission line. The first transmission line includes a display line portion, an end line portion and a middle line portion, wherein the display line portion is electrically connected to the first active area circuit. The middle line portion is disposed on the second substrate, wherein two ends of the middle line portion are electrically connected to the display line portion and the end line portion respectively at the first cutting line. The display device mother substrate is cut along the first cutting line to be separated into the first substrate and the second substrate, wherein the middle line portion is also separated from the display line portion and the end line portion. | 02-06-2014 |
20140036380 | COLOR FILTER SUBSTRATE AND MANUFACTURING METHODS OF ACTIVE DEVICE ARRAY SUBSTRATE AND COLOR FILTER SUBSTRATE - A color filter substrate includes a substrate, a color filter array, a partition configuration and an alignment material layer. The substrate has an alignment region and a predetermined sealing region. The predetermined sealing region surrounds the alignment region. The color filter array is disposed on the substrate within the alignment region. The partition configuration is disposed on the substrate between the predetermined sealing region and the alignment region. The alignment material layer is disposed inside the alignment region to cover the color filter array. | 02-06-2014 |
20140036173 | STEREOSCOPIC DISPLAY AND STEREOSCOPIC DISPLAY DEVICE - A stereoscopic display including a display panel and a barrier panel is provided. The barrier panel is at one side of the display panel. The barrier panel includes first and second substrates, first and second patterned electrode layers, and a liquid crystal layer between the first and second patterned electrode layers. The first patterned electrode layer is on the first substrate, and includes first electrodes having a first line-width. A gap between the adjacent first electrodes is a first spacing, and a first pitch is a sum of the first spacing and pitch. The second patterned electrode layer is on the second substrate, includes second electrodes having the first line-width. The gap between the adjacent second electrodes is the first spacing, the first and second electrodes are staggered to each other, and a shift in a horizontal direction between the first and second electrodes is half of the first pitch. | 02-06-2014 |
20140035896 | DISPLAY WITH MULTIPLEXER FEED-THROUGH COMPENSATION AND METHODS OF DRIVING SAME - In one aspect, an LCD includes a display panel with a pixel matrix having M scan lines and N data lines, and a multiplexer feed-through compensation circuit, which includes P signal lines for providing P video signals, P multiplexers, and K pairs of control lines providing K pairs of control signals. Each multiplexer is electrically coupled to a corresponding signal line and has K channels. Each channel includes first and second switches parallel-connected between the signal line and a corresponding data line for selectively transmitting the video signal to the corresponding data line. Each pair of control lines is respectively electrically coupled to the first and second switches of a corresponding channel of each multiplexer. Each pair of control signals are configured such that a time turning off one of the first and second switches is earlier than that turning off the other switch. | 02-06-2014 |
20140035889 | Display and Gate Driver thereof - A display and a gate driver are disclosed herein, in which the gate driver includes a number of gate driving units, and each of the gate driving units includes a control circuit, a boost circuit, a driver output circuit and a voltage stabilized circuit. The control circuit is electrically connected to a previous gate driving unit and a next gate driving unit. The boost circuit is electrically connected to the control circuit for driving the next gate driving unit. The driver output circuit is electrically connected to the boost circuit and a pixel array for driving at least one scan line in the pixel array. The voltage stabilizing circuit is electrically connected to the boost circuit and the driver output circuit. | 02-06-2014 |
20140034951 | THIN FILM TRANSISTOR - A thin film transistor disposed on a substrate is provided. The thin film transistor includes a gate, a gate insulating layer, a silicon-rich channel layer, a source, and a drain. The gate is disposed on the substrate. The gate insulator is disposed over the gate. The silicon-rich channel layer is disposed above the gate, wherein the material of the silicon-rich channel layer is selected from a group consisting of silicon-rich silicon oxide (Si-rich SiOx), silicon-rich silicon nitride (Si-rich SiNx), silicon-rich silicon oxynitride (Si-rich SiOxNy), silicon-rich silicon carbide (Si-rich SiC) and silicon-rich silicon oxycarbide (Si-rich SiOC). The content (concentration) of silicon of the silicon-rich channel layer within a film depth between 10 nm to 170 nm ranges from about 1E23 atoms/cm | 02-06-2014 |
20140030831 | MANUFACTURING METHOD OF PIXEL STRUCTURE - A manufacturing method of pixel structure includes forming a first conductive layer on a substrate and forming a first insulation layer thereon; forming a second conductive layer on the first insulation layer; forming a second insulation layer on the second conductive layer; forming a semiconductor layer on the second insulation layer above the gate; forming a third conductive layer on the second insulation layer, wherein the gate, the semiconductor layer, the source, and the drain together constitute a thin film transistor, and the first electrode, the second electrode, and the third electrode together constitute a capacitor; forming a third insulation layer on the third conductive layer; and forming a pixel electrode on the third insulation layer, the pixel electrode being electrically connected to the drain. | 01-30-2014 |
20140028958 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel including a first substrate, a second substrate, pixel structures and a positive blue phase liquid crystal layer disposed between the first substrate and the second substrate is provided. The second substrate is disposed opposite to the first substrate. The pixel structures are disposed on the first substrate and between the first substrate and the second substrate. Each pixel structure includes a first electrode, a dielectric layer, a second electrode, and a third electrode. The first electrode is disposed on the first substrate. The dielectric layer covers the first electrode. The second electrode is disposed on the dielectric layer, overlapped with the first electrode and electrically connected to the first electrode. The third electrode is disposed on the dielectric layer and overlapped with the first electrode. The third electrode substantially surrounds the second electrode. The third electrode is spaced apart a distance from the second electrode. | 01-30-2014 |
20140022791 | LIGHT BAR AND LIGHT EMITTING MODULE USING THE SAME - A light bar is disclosed which includes a substrate, plural LEDs disposed on the substrate, a first connector and a second connector disposed on opposite sides of the substrate, a first wire, a second wire, a third wire, and a fourth wire. The first connector sequentially includes a first pin, a second pin, a third pin, and a fourth pin. The second connector sequential includes a fifth pin, a sixth pin, a seventh pin, and an eighth pin. The first wire connects the first pin to the second pin. The second wire connects the third pin to the fifth pin. The third wire connects the sixth pin to the seventh pin. The fourth wire connects the fourth pin to the eighth pin. A light emitting module using the light bar is also disclosed. | 01-23-2014 |
20140022764 | Display Module - A display module having an improved assembly structure is provided. The display module includes a frame, a display panel, and a glue. The frame has a side wall and a supporting part, wherein the supporting part has a supporting surface and the side wall is formed on the periphery of the supporting surface. A groove is formed on the supporting surface adjacent to the side wall and is distributed along the side wall. The display panel is disposed within the frame and has a bottom face and a side face. The bottom face is supported by the supporting surface of the supporting part. The side face faces the side wall and forms a gap with the side wall. The glue is filled in the gap and adheres the side wall to the side face. | 01-23-2014 |
20140022635 | AUTOSTEREOSCOPIC DISPLAY APPARATUS - An autostereoscopic display apparatus includes a substrate, a plurality of sub-pixels, a plurality of concave lens structures, a middle layer and a lenticular layer. The sub-pixels are disposed on the substrate, and each sub-pixel includes a light permeable area and at least one light masking area. The concave lens structures are disposed on the sub-pixels and on the optical paths of the light permeable areas. The middle layer is disposed on the concave lens structures, wherein the concave lens structures is used to expand the illumination distribution of the light from the light permeable areas of the sub-pixels, so as to form a plurality of virtual sub-pixel patterns. The projections of virtual sub-pixel patterns respectively projected to the sub-pixels cover the light masking areas of the sub-pixels. The focal point of the lenticular layer falls on the virtual sub-pixel patterns. | 01-23-2014 |
20140021792 | SOLAR POWER SYSTEM AND COMMUNICATION APPARATUS - A solar power system includes at least one alternating-current module and a communication apparatus. Each alternating-current module includes a solar panel and an alternating-current inverter. The communication apparatus connects to the alternating-current module and controls stand-alone power-generating operations on the alternating-current module. The communication includes a module connector and a control circuit. The module connector is configured for connecting with the alternating-current module. The alternating-current module can be parallel-connected on a household power grid selectively. The communication apparatus can transmit a stand-alone power-generating command to the alternating-current module. The alternating-current inverter may cancel an anti-islanding protection procedure thereon according to the stand-alone power-generating command. | 01-23-2014 |
20140016350 | BACKLIGHT MODULE AND DISPLAY MODULE - A backlight module and a display module are provided. The backlight module includes a back frame, a light guide plate, a heat sink, a light source module and a carrying frame. The light guide plate has a light emitting top surface and a light incident side surface, and is disposed on the back frame. The heat sink is disposed between the back frame and the light guide plate, and a side surface of the heat sink has a first fixing portion exposed outside the back frame. The light source module is disposed on the heat sink and faces the light incident side surface of the light guide plate. The carrying frame includes a first side wall, and is disposed around the light guide plate. The first side wall has a second fixing portion engaged with the first fixing portion, and is located outside the back frame. | 01-16-2014 |
20140016077 | Display Apparatus - A display apparatus is disclosed. The display apparatus includes a display panel. The display panel includes an upper substrate, a lower substrate, a main sealant, and at least one supporting sealant. The display panel includes an active area and a peripheral circuit area adjacent to the active area. The main sealant is disposed between the upper substrate and the lower substrate. The main sealant is disposed out of the active area to form a sealed area. The sealed area covers the active area and a part of the peripheral circuit area. The at least one supporting sealant is disposed in the sealed area and out of the active area. The distance between at least one side of the main sealant and the active area is different from the distances between the other sides of the main sealant and the active area. | 01-16-2014 |
20140009457 | LIQUID CRYSTAL DISPLAY PANEL AND DISPLAY DRIVING METHOD - A liquid crystal display panel and a display driving method are disclosed. The liquid crystal display panel includes several pixel units, several scan lines, several common electrode lines coupled with the pixel units and several common electrode control units. The common electrode control units are configured for controlling the voltage levels of the common electrode lines. Each one of the common electrode control units generates a first output signal and a second output signal opposite to the first output signal according to the former common electrode controlling unit and two adjacent scan lines. The to common electrode controlling unit controls a voltage level on one of the common electrode lines according to the first output signal, and outputs the first output signal and the opposite second output signal to the next common electrode control unit. | 01-09-2014 |
20140007922 | PHOTOVOLTAIC DEVICE - A photovoltaic device comprises a photovoltaic panel and a heat sink module. The heat sink module is fastened on a rear surface of the photovoltaic panel. The heat sink module comprises a plurality of fins arranged at intervals, and one surface of each fin defines a wind-facing surface. | 01-09-2014 |
20140007918 | PHOTOVOLTAIC DEVICE - A photovoltaic device provided in the present disclosure includes a superstrate, a lower substrate, a plurality of photovoltaic cells and a package structure. The superstrate is light-transmissive, and arranged in parallel with the substrate. The photovoltaic cells are disposed side-by-side at intervals with each other between the superstrate and the substrate, and a gap zone is defined by two facing lateral surfaces of every two of the neighboring photovoltaic cells. The package structure is sandwiched between the superstrate and the substrate, and encapsulates the photovoltaic cells between the superstrate and the substrate in which a reflection portion is provided in the package structure, and located in the gap zone for reflecting lights from the superstrate back to the photovoltaic cells. | 01-09-2014 |
20140002774 | BLUE PHASE LIQUID CRYSTAL DISPLAY PANEL AND FABRICATING METHOD THEREOF | 01-02-2014 |
20130334959 | ORGANIC ELECTROLUMINESCENT APPARATUS - An organic electroluminescent apparatus including a substrate, an organic light-emitting device layer, a patterned structure layer and an encapsulation film is provided. The substrate has a light-emitting region and a non-light-emitting region. The organic light-emitting device layer is disposed on the substrate in the light-emitting region. The patterned structure layer is disposed on the substrate in the non-light-emitting region. The encapsulation film is disposed on the substrate and covers the organic light-emitting device layer and the patterned structure layer. A surface of the encapsulation film on the patterned structure layer is a concave-convex surface, and a surface of the encapsulation film on the organic light-emitting device layer is an even surface. | 12-19-2013 |
20130334169 | COLOR FILTER SUBSTRATE AND FABRICATING METHOD THEREOF - A color filter substrate including a substrate, a black matrix layer and a color filter substrate layer is provided. The substrate has a plurality of grooves. The black matrix layer is disposed on the substrate between each two adjacent grooves, wherein the black matrix layer extends to the region above the groove from the edge of the groove and an undercut profile forms between the bottom of black matrix and the substrate. The color filter layer including a plurality of filter films separated is filled in the plurality of grooves and the plurality of filter films is separated from each other by the black matrix layer. In addition, a method of fabricating a color filter substrate is also provided. The above-mentioned color filter substrate and the fabricating method thereof can improve the quality and color uniformity of the color filter substrate. | 12-19-2013 |
20130328069 | ACTIVE DEVICE, DRIVING CIRCUIT STRUCTURE, AND DISPLAY PANEL - An active device, a driving circuit structure, and a display panel are provided. The active device includes a gate, a gate insulation layer covering the gate, a semiconductor layer disposed above the gate, an etching stop layer disposed on the gate insulation layer and the semiconductor layer, a source, and a drain. The gate forms a meandering pattern on a substrate. The semiconductor layer has an area substantially defining a device region where the active device is. The etching stop layer has a first contact opening and a second contact opening. The first contact opening and the second contact opening separated from each other and both exposing the semiconductor layer. The source and the drain separated from each other are disposed on the etching stop layer and in contact with the semiconductor layer through the first contact opening and the second contact opening, respectively. | 12-12-2013 |
20130320315 | ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device (OLED) is disclosed. The OLED includes a light-emitting layer, a first electrode, and a second electrode, in which the light-emitting layer is interposed between the first and the second electrodes and includes a first molecular energy level of a host, and a second molecular energy level of a dopant. The first molecular energy level has a highest occupied molecular orbital (HOMO) which is substantially same as the HOMO of the second molecular energy level, or the first molecular energy level has a lowest unoccupied molecular orbital (LUMO) which is substantially the same as to the LUMO of the second molecular energy level. | 12-05-2013 |
20130314627 | ELECTRICALLY-DRIVEN LIQUID CRYSTAL LENS PANEL AND STEREOSCOPIC DISPLAY PANEL - An electrically-driven liquid crystal lens panel includes a pair of substrates, a liquid crystal layer, alignment layers, and electrode layers. The electrode layer is disposed between the alignment layer and the substrate, has effective and non-effective regions, and includes electrodes. Each electrode has main and extending portions and a turning point, wherein the turning points are disposed at sites at which the main portions and the extending portions connect, the main portions extends along a first extending direction, and each extending portion extends along a second extending direction different from the first extending direction. The second extending direction is substantially parallel to an alignment direction of the alignment layer. A connecting line formed by connecting the turning points is a boundary between the effective region and the non-effective region, wherein the main portions are disposed in the effective region, and the extending portions are disposed in the non-effective region. | 11-28-2013 |
20130314308 | ORGANIC LIGHT EMITTING DISPLAY UNIT STRUCTURE AND ORGANIC LIGHT EMITTING DISPLAY UNIT CIRCUIT - An organic light emitting display unit structure including a first pixel, a second pixel adjacent to the first pixel, a first scan line electrically connected to the first pixel, a second scan line electrically connected to the second pixel, a data line, a power line, a sustaining signal line, a common reset signal line and a common light emitting signal line is provided. The power line and the sustaining signal line are respectively electrically connected to both of the first pixel and the second pixel. The data line intersects with the first scan line and the second scan line and is electrically connected to the first pixel and the second pixel. The common reset signal line and the common light emitting signal line are substantially disposed inside the first pixel and the second pixel respectively and are electrically connected to the first pixel and the second pixel. | 11-28-2013 |
20130313600 | PIXEL STRUCTURE AND MANUFACTURING METHOD THEREOF - A pixel structure including a substrate, a color filter layer, a conductive light-shielding layer, a buffer layer, a scan line, a data line, an active device, and a pixel electrode is provided. The substrate has a pixel region. The color filter layer is disposed corresponding to the pixel region. The conductive light-shielding layer is disposed corresponding to the periphery of the pixel region. The buffer layer covers the conductive light-shielding layer and color filter layer. The scan line and the data line are disposed on the buffer layer. The active device is disposed on the buffer layer and electrically connected to the scan line and data line. The pixel electrode is disposed on the buffer layer and electrically connected to the active device, wherein an overlapping area between the pixel electrode and the conductive light-shielding layer constitutes a storage capacitor. A method for manufacturing the pixel structure is also provided. | 11-28-2013 |
20130313599 | PIXEL STRUCTURE AND MANUFACTURING METHOD THEREOF - A pixel structure including a substrate, a color filter layer, a conductive light-shielding layer, a buffer layer, a scan line, a data line, an active device, and a pixel electrode is provided. The substrate has a pixel region. The color filter layer is disposed corresponding to the pixel region. The conductive light-shielding layer is disposed corresponding to the periphery of the pixel region. The buffer layer covers the conductive light-shielding layer and color filter layer. The scan line and the data line are disposed on the buffer layer. The active device is disposed on the buffer layer and electrically connected to the scan line and data line. The pixel electrode is disposed on the buffer layer and electrically connected to the active device, wherein an overlapping area between the pixel electrode and the conductive light-shielding layer constitutes a storage capacitor. A method for manufacturing the pixel structure is also provided. | 11-28-2013 |
20130312821 | SOLAR CELL - A solar cell is provided and includes a main body, a plurality of first finger electrodes, a first ribbon, and a second ribbon. The main body includes a first surface and a second surface opposite to the first surface. The first finger electrodes are located on the first surface, and each of the first finger electrodes includes an end portion bendably extending to the second surface. The first ribbon is located on the first surface and is electrically connected to the first finger electrodes. The second ribbon is located on the second surface and is electrically connected to the first finger electrodes. | 11-28-2013 |
20130312807 | BRIDGING SOLAR CELL AND SOLAR ENERGY SYSTEM - A bridging solar cell includes a substrate, first, second, and third sets of bus bar electrodes, a first welding member, a first insulation film, and a second welding member. The first set of bus bar electrodes is disposed on the front surface of the substrate along a first direction. The second set of bus bar electrodes is disposed on the back surface of the substrate along a second direction and electrically connected to the first set of bus bar electrodes. The first welding member is electrically connected to the second set of bus bar electrodes. The first insulation film is disposed on the back surface. The third set of bus bar electrodes is disposed on the first insulation film along the second direction. The second welding member is disposed on the first insulation film and electrically connected to the third set of bus bar electrodes. | 11-28-2013 |
20130312253 | METHOD OF FABRICATING TOUCH PANEL - A method of fabricating a touch panel is provided. A substrate having a touch-sensing region and a peripheral region is provided. A touch-sensing circuit layer including first sensing series, and second meshed metal sensing pads is formed on the touch-sensing region of the substrate. An insulating layer having first contact windows is formed on the substrate to cover the touch-sensing circuit layer. The first contact windows expose a portion of the second meshed metal sensing pads. A plurality of second transparent bridge lines are formed on the insulating layer located in the touch-sensing region. Each second transparent bridge line is electrically connected to two adjacent second meshed metal sensing pads through two first contact windows. The second transparent bridge lines completely cover the portion of the second meshed metal sensing pads exposed by the first contact windows. | 11-28-2013 |
20130309787 | MANUFACTURING METHOD OF LIGHT EMITTING DEVICE - A manufacturing method of a light emitting device is provided. A first electrode is formed on a substrate. The first electrode includes a patterned conductive layer, and the patterned conductive layer includes an alloy containing a first metal and a second metal. An annealing process is performed on the first electrode, so as to form a passivation layer at least on a side surface of the first electrode. The passivation layer includes a compound of the second metal. A light emitting layer is formed on the first electrode. A second electrode is formed on the light emitting layer. | 11-21-2013 |
20130306968 | TRANSISTOR STRUCTURE AND DRIVING CIRCUIT STRUCTURE - A transistor structure disposed on a substrate includes a gate electrode, a gate insulating layer overlapping the gate electrode, a channel layer overlapping the gate electrode, and a plurality of first electrodes and a plurality of second electrodes overlapping the gate electrode. The gate insulating layer is disposed between the channel layer and the gate electrode. Besides, the gate insulating layer is located among the first electrodes, the second electrodes, and the gate electrode. The first electrodes and the second electrodes are alternately arranged along a first direction. Each of the first electrodes has a first width along the first direction. Each of the second electrodes has a second width along the first direction. A ratio of the first width to the second width ranges from 2 to 20. A driving circuit structure having the transistor structure is also provided. | 11-21-2013 |
20130302619 | SUBSTRATE MANUFACTURING METHOD AND MULTI-LAYER STRUCTURE - A substrate manufacturing method includes steps of: providing a transparent substrate; applying an adhesive layer to a surface of the transparent substrate; disposing a flexible substrate on the adhesive layer to form a multi-layer structure; disposing the multi-layer structure over the reflector, in which the reflector has a first reflecting region and a second reflecting region, and the reflectivity of the first reflecting region is greater than the reflectivity of the second reflecting region; and hardening the adhesive layer by performing an ultraviolet radiation toward the multi-layer structure to form a first hardened portion and a second hardened portion. | 11-14-2013 |
20130301750 | METHODS AND SYSTEMS FOR MULTI-LEVEL DATA TRANSMISSION - A method for multi-level data transmission includes encoding a data signal to be transmitted into N multi-level signals in accordance with an encoding table, where the data signal is characterized with a stream of binary data segments each of which has a data length of M bits, transmitting simultaneously the N multi-level signals through N data transmission channels, respectively; and decoding the N multi-level signals into the data signal by comparing each two of the N multi-level signals transmitted through the two data transmission channels to obtain a respective bit of the M bits of each binary data segment of the data signal based on comparison between the two corresponding multi-level signals. | 11-14-2013 |
20130301298 | Backlight Module - A thin backlight module includes a light guide plate, a light source module, and an adhesive layer. The light guide plate has a light-entering end and a bottom, wherein a plurality of troughs spaced at intervals are formed on a portion of the bottom connected to the light-entering end. The light source module is disposed corresponding to the light-entering end and includes a substrate and a plurality of light sources. The light sources are disposed on the substrate and distributed along the light-entering end, wherein each of the light sources corresponds to an interval between the adjacent troughs. The adhesive layer is attached to the substrate, faces the bottom of the light guide plate, and extends into the troughs to be attached to the light guide plate. | 11-14-2013 |
20130301239 | Slim Border Design of Display Device and Backlight Module Thereof - A backlight module includes a bezel, a supporting frame, and a light source module. The bezel includes a back plate and a side wall connected to an edge of the back plate; the supporting frame includes a lower frame body and an upper frame body extending from a top of the lower frame body, wherein the lower frame body is disposed on the back plate and surrounded by the side wall. The upper frame body has at least a portion laterally shifted relative to the lower frame body to be located over the side wall. The light source module is surrounded by the lower frame body, wherein the portion of the upper frame body located over the side wall encloses a panel accommodation space above a top of the light source module. A display device includes the above-mentioned backlight module and a display panel disposed in the panel accommodation space. | 11-14-2013 |
20130301192 | TOUCH PANEL - A touch panel includes a substrate, a touch sensing element, a plurality of transmission lines, a first frame structure, and a second frame structure is provided. The touch sensing element is disposed on the substrate to define an active region. The transmission lines are connected to the touch sensing element. The first frame structure is disposed on the substrate and surrounding the active region to define a first periphery region. The transmission lines are at least partially located on a top surface of the first frame structure. The second frame structure is disposed on the substrate and surrounding the first frame structure, wherein the second frame structure is disposed at an outer border of the first periphery region. A material of the first frame structure is different from a material of the second frame structure. | 11-14-2013 |
20130300952 | TOUCH DISPLAY PANEL AND FABRICATING METHOD THEREOF - A touch display panel including an active device array substrate, an opposite substrate and a liquid crystal layer is provided. The active device array substrate includes a first substrate, a black matrix, a touch-sensing device layer, a dielectric layer and an active device array layer. The black matrix is disposed on the first substrate. The touch-sensing device layer is disposed on the first substrate to cover a portion of the black matrix. The dielectric layer covers the touch-sensing device layer. The active device array layer is disposed on the dielectric layer. The touch-sensing device layer and the active device array substrate are located at two opposite sides of the dielectric layer. The liquid crystal layer is disposed between the active device array layer and the opposite substrate. Moreover, a fabricating method of the touch display panel is also provided. | 11-14-2013 |
20130299870 | LIGHT EMITTING DEVICE - A light emitting device is provided. A light emitting device that includes a substrate, a first electrode, a passivation layer, a second electrode, and a light emitting layer is provided. The first electrode is disposed on the substrate and includes a first patterned conductive layer. The first patterned conductive layer includes an alloy containing a first metal and a second metal. The passivation layer is at least disposed on a side surface of the first electrode and includes a compound of the second metal. Here, a work function of the compound of the second metal ranges from about 4.8 to about 5.5. The second electrode is disposed on the first electrode. The light emitting layer is disposed between the first electrode and the second electrode. | 11-14-2013 |
20130298969 | SOLAR MODULE - A solar module is provided and includes a support element, a frame body, a photoelectric conversion module, and a protection element. An accommodating space is formed in a region surrounded by the frame body. The photoelectric conversion module is located in the accommodating space. The support element extends past the photoelectric conversion module and is connected to the frame body. The protection element is located on the photoelectric conversion module, and is located in the accommodating space. | 11-14-2013 |
20130298965 | SOLAR MODULE AND FABRICATING METHOD THEREOF - A solar module is disclosed, which includes a back plate, a reflecting structure, one or more solar cell units, a bottom sealant, a top sealant, and a transparent plate. The reflecting structure is disposed on the back plate. The reflecting structure has inclines and a reflector layer. The solar cell units are disposed on the back plate. The solar cell units are spatially separated from and adjacent to the reflecting structure. The inclines are tilted towards nearby solar cell units. The reflector layer is disposed on the incline for directing the light toward the solar cell unit through total internal reflection. The bottom sealant is disposed between the back plate and the solar cell units. The top sealant is disposed on the solar cell units, and the transparent plate is disposed on the top sealant. A method for fabricating the solar module is also disclosed. | 11-14-2013 |