Patent application number | Description | Published |
20090322659 | LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A liquid crystal display panel including a first substrate, a liquid crystal layer, an alignment layer, a polymer layer, scan lines, data lines, pixel structures, first capacitor bottom electrodes and second capacitor bottom electrodes, and a manufacturing method thereof are provided. Each pixel structure has a first pixel electrode and a second pixel electrode. Each first capacitor bottom electrode is disposed between the first pixel electrode and the first substrate. Each second capacitor bottom electrode disposed between the second pixel electrode and the first substrate includes a first pattern and a plurality of second patterns. The first pattern extends from a first side to an opposite second side of the second pixel electrode. The second patterns connected to the first pattern are disposed on the first side and the second side. The second pattern at least partly overlaps a region between the second pixel electrode and the data line. | 12-31-2009 |
20100240273 | MANUFACTURING METHOD OF LIQUID CRYSTAL DISPLAY PANEL - A method for manufacturing a liquid crystal display panel including the steps is provided. A semi-finished liquid crystal display panel including a first substrate, a second substrate, a liquid crystal layer, an opposing electrode, scan lines, data lines, polymerizable molecules, pixel structures, first capacitor bottom electrodes, and second capacitor bottom electrodes is provided. Each pixel structure has a first pixel electrode and a second pixel electrode, and the blocks of the liquid crystal layer corresponding to the first pixel electrodes and the second pixel electrodes are respectively a plurality of first blocks and a plurality of second blocks. Then, a first voltage difference and a second voltage difference are respectively formed in the first blocks and the second blocks respectively, wherein the first voltage difference is different from the second voltage difference. Accordingly, the polymerizable molecules are polymerized to form the liquid crystal display panel. | 09-23-2010 |
20100253869 | PIXEL ARRAY, LIQUID CRYSTAL DISPLAY PANEL, AND ELECTRO-OPTICAL APPARATUS - A pixel array including first scan lines, second scan lines, data lines, and sub-pixels is provided. Each sub-pixel includes a first switch, a second switch, a first pixel electrode electrically connected to the first switch, a second pixel electrode electrically connected to the second switch, a third switch, and common lines connected with each other and disposed under the first and the second pixel electrode. The first and the second switch are electrically connected to the same first scan line and data line. The first scan line is located between the first and second pixel electrode. The third switch is electrically connected to the second scan line and the first pixel electrode and has a floating terminal. The floating terminal is capacitively coupled to the second pixel electrode to form a first capacitor and capacitively coupled to the common line under the second pixel electrode to form a second capacitor. | 10-07-2010 |
20110001909 | COLOR FILTER ARRAY ON PIXEL ARRAY SUBSTRATE AND DISPLAY PANEL - A color filter array on pixel array substrate including a substrate, an active device array, a color filter array and a pixel electrode layer is provided. The substrate has a plurality of pixel regions and a light-shielding region. The active device array is disposed on the substrate. The color filter array is disposed on the substrate, and includes a light shielding patterned layer and a plurality of color filter patterns, wherein the light-shielding patterned layer is disposed in the light-shielding region. The color filter patterns are respectively disposed in the pixel regions and extend from the pixel regions into the light shielding regions, wherein the color filter patterns extending from adjacent pixel regions constitute a stacked structure within the light shielding regions. The pixel electrode layer is electrically connected to the active device array. | 01-06-2011 |
20110012135 | LIGHT-EMITTING DEVICE AND REPAIRING METHOD THEREOF - A light-emitting device including a plurality of light-emitting units is provided. Each of the light-emitting units includes a first common electrode layer, a plurality of light-emitting layers, and a second common electrode layer. The first common electrode layer includes a bridge conductive line and a plurality of first electrode patterns electrically insulated from each other, in which the first electrode patterns cover a portion of the bridge conductive line and are electrically connected to each other through the bridge conductive line. Each of the light-emitting layers is disposed on one of the first electrode patterns. The second common electrode layer is disposed on the light-emitting layers, in which the first common electrode layer of each of the light-emitting units is electrically connected to the second common electrode layer of an adjacent light-emitting unit. | 01-20-2011 |
20110080542 | ACTIVE DEVICE ARRAY SUBSTRATE AND DISPLAY PANEL - An active device array substrate including a substrate, an active device array, a black matrix, a color filter, at least a pad, and at least a contact window is provided. The substrate has a display region and a periphery circuit region. The pad is disposed in the display region or the periphery circuit region and is constituted by at least one of a first conductive layer and a second conductive layer. The contact window is disposed on the pad, through which a third conductive layer is connected to the pad. The contact window is surrounded by at least two different types of light-shielding patterns, wherein each light-shielding pattern surrounds only a part of the periphery of the contact window. The light-shielding patterns are selected form at least two of the black matrix, the color filter, the first conductive layer, and the second conductive layer. | 04-07-2011 |
20110278611 | LIGHT EMITTING DEVICE - A light emitting device includes a substrate and an organic electroluminescent device. Inside the substrate, there are a plurality of micro-structures proceeded with fusing and then curing. The organic electroluminescent device is disposed on the substrate. | 11-17-2011 |
20120038847 | ORGANIC LIGHT EMITTING DEVICE, ILLUMINATION DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - An organic light emitting device having light emitting units on a substrate is provided. Each light emitting unit includes a first electrode layer, an organic light emitting layer, a second electrode layer, a power line, a resistor line, an insulating layer. The first electrode layer is disposed on the substrate. The organic light emitting layer is disposed on the first electrode layer. The second electrode layer is disposed on the organic light emitting layer. The power line is disposed on the substrate. The resistor line is electrically connected to the first electrode layer, wherein the resistor line partially overlaps with the power line, and an overlapping area occupies 60˜100% of a total area of the resistor line. The insulating layer is disposed between the power line and the resistor line, and a contact hole is disposed in the insulating layer to electrically connect the power line and the resistor line. | 02-16-2012 |
20120068593 | LIGHT EMITTING UNIT OF ELECTROLUMINESCENCE DEVICE AND MANUFACTURING METHOD THEREOF - A light emitting unit of an electroluminescence device and a manufacturing method thereof are provided. The light emitting unit of the electroluminescence device includes a power line, a first electrode layer, a light emitting layer and a second electrode layer. The power line is on a substrate. The first electrode layer is disposed on the substrate and is electrically connected to the power line. In particular, a top portion of the first electrode layer has an oxygen concentration higher than that of a bottom portion of the first electrode layer. The light emitting layer is disposed on the first electrode layer and the second electrode layer is disposed on the light emitting layer. | 03-22-2012 |
Patent application number | Description | Published |
20080272991 | Organic Electroluminescence Pixel, Organic Electroluminescence Device, and Manufacturing Method Thereof - An organic electroluminescence pixel, an organic electroluminescence device comprising the same, and method for manufacturing the organic electroluminescence device are provided. The organic electroluminescence pixel comprises a substrate, a first electrode, a first carrier-injection layer, a semi-trans-flective metal layer, an organic emitting layer, and a second electrode. The first electrode is formed on the substrate. The first carrier-injection layer, the semi-trans-flective metal layer, and the organic emitting layer are formed between the first electrode and the second electrode. At least one of the first electrode and the second electrode comprises a transparent electrode. | 11-06-2008 |
20090086142 | LIQUID CRYSTAL DISPLAY PANEL AND ARRAY SUBSTRATE THEREOF - A liquid crystal display panel includes an array substrate, an opposite substrate having an opposite electrode, a liquid crystal layer located therebetween, first alignment patterns and second alignment patterns. The array substrate includes scan lines, data lines and pixel units electrically connecting corresponding scan lines and data lines. Each pixel unit includes a first active device, a first pixel electrode electrically connecting the first active device and a second pixel electrode. The first pixel electrode and the second pixel electrode are separated to define a first displaying region and a second displaying region. The extending directions of the first alignment patterns in the first displaying region and the second alignment patterns in the second displaying region respectively intersect the extending direction of the scan lines at a smaller first acute angle and a greater acute angle for controlling the arrangements of the liquid crystal molecules. | 04-02-2009 |
20090086144 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel including a first substrate, a plurality of scan lines, a plurality of data lines, a plurality of pixel structures, a second substrate, and a liquid crystal layer is provided. The scan lines, data lines, and pixel structures are disposed on the first substrate. The pixel structures are electrically connected to the corresponding scan lines and data lines. The liquid crystal layer is disposed between the first and the second substrates. Each pixel structure includes a first active device, a first pixel electrode electrically connected to the first active device, and a second pixel electrode. A V-shaped main slit formed between the first and the second pixel electrodes has a tip and two branches connected thereto. The tip of the V-shaped main slit directs towards the second pixel electrode. The edges of the first and the second pixel electrodes adjoining each branch are substantially parallel. | 04-02-2009 |
20090103033 | PIXEL STRUCTURE AND MANUFACTURING METHOD OF LIQUID CRYSTAL DISPLAY PANEL HAVING THE SAME - A pixel structure including a first active device, a second active device, a first pixel electrode electrically connecting the first active device, a second pixel electrode electrically connecting the second active device and a first capacitance lower electrode is provided. Both the first active device and the second active device electrically connect a scan line and a data line. The first pixel electrode has a first interlacing pattern and first stripe patterns connected thereto. The second pixel electrode has a second interlacing pattern and second stripe patterns connected thereto. The first capacitance lower electrode located under the first interlacing pattern has a first region and second regions. The first pixel electrode substantially shields the first region but does not shield the second regions. An area ratio of the first region to the second regions is about 10:1˜300:1. | 04-23-2009 |
20100091232 | LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel including a first substrate, a plurality of scan lines, a plurality of data lines, a plurality of pixel structures, a second substrate, and a liquid crystal layer is provided. The scan lines, data lines, and pixel structures are disposed on the first substrate. The pixel structures are electrically connected to the corresponding scan lines and data lines. The liquid crystal layer is disposed between the first and the second substrates. Each pixel structure includes a first active device, a first pixel electrode electrically connected to the first active device, and a second pixel electrode. A V-shaped main slit formed between the first and the second pixel electrodes has a tip and two branches connected thereto. The tip of the V-shaped main slit directs towards the second pixel electrode. The edges of the first and the second pixel electrodes adjoining each branch are substantially parallel. | 04-15-2010 |
20110059560 | Organic Electroluminescence Pixel, Organic Electroluminescence Device, and Manufacturing Method Thereof - An organic electroluminescence pixel, an organic electroluminescence device comprising the same, and method for manufacturing the organic electroluminescence device are provided. The organic electroluminescence pixel comprises a substrate, a first electrode, a first carrier-injection layer, a semi-trans-flective metal layer, an organic emitting layer, and a second electrode. The first electrode is formed on the substrate. The first carrier-injection layer, the semi-trans-flective metal layer, and the organic emitting layer are formed between the first electrode and the second electrode. At least one of the first electrode and the second electrode comprises a transparent electrode. | 03-10-2011 |
Patent application number | Description | Published |
20100039418 | DUAL-IMAGE FLAT DISPLAY DEVICE - A dual-image flat display device includes a first and a second substrates parallel with each other, a liquid crystal layer having liquid crystal molecules, and at least a pixel disposed on the second substrate. The pixel includes pluralities of sub-pixels arranged side by side along a first direction. Each sub-pixel has a first azimuthal angle domain and a second azimuthal angle domain, wherein the first and second azimuthal angle domains are arranged side by side along a second direction in the sub-pixel, and the second direction is not parallel with the first direction. The azimuthal angles of liquid crystal molecules in the first and second azimuthal angle domains have an included angle less than 180°. | 02-18-2010 |
20100201903 | FLAT DISPLAY PANEL AND METHOD OF REPAIRING CONDUCTIVE LINES THEREOF - A flat display panel includes a plurality of bridge lines disposed between adjacent common lines. When a short defect occurs, the common line near the short defect can be directly cut off in order to repair the short defect and the common voltage can be transferred through the bridge lines to maintain the normal operation of the flat display panel. | 08-12-2010 |
20100237348 | Thin Film Transistor Array Substrate - A thin film transistor (TFT) array substrate includes a stack structure disposed to raise an extended electrode of a drain electrode of a thin film transistor. Therefore, a contact hole does need to be very deep to expose the extended electrode of the drain electrode. | 09-23-2010 |
20100245222 | ACTIVE ARRAY SUBSTRATE, LIQUID CRYSTAL DISPLAY PANEL AND METHOD FOR DRIVING THE SAME - An active array substrate, a liquid crystal display panel and method for driving the same are provided. The active array substrate includes a plurality of first strip electrodes and second strip electrodes. The sum of one width of the first stripe electrode and one pitch between two adjacent first stripe electrodes is greater than that of one width of the second strip electrode and one pitch between two adjacent second strip electrodes. | 09-30-2010 |
20110148288 | Organic Light-Emitting Device, Pixel Structure, and Contact Structure, and Method for Fabricating the Same - A contact structure for organic luminescent devices is provided. The contact structure includes a first conductive layer, at least one pillar, an organic light-emitting layer, and a second conductive layer. The first conductive layer has a contact region. The at least one pillar is positioned on the first conductive layer in the contact region. The organic light-emitting layer covers the first conductive layer in the contact region and exposing a portion of the first conductive layer around the pillar in the contact region. The second conductive layer covers an exposed portion of the first conductive layer in the contact region. In one embodiment of the present invention, the pillar has a top surface and a bottom surface, and the width of the top surface is larger than that of the bottom surface. | 06-23-2011 |
20110156063 | ORGANIC LIGHT EMITTING DIODE (OLED) DISPLAY DEVICE - An exemplary OLED display device includes a substrate, a colored photo-resist layer and a white OLED arranged in that order. The white OLED includes a reflecting electrode, a transmitting electrode, and an organic white light emitting layer arranged between the reflecting electrode and the transmitting electrode for emitting a white light. The colored photo-resist layer at least includes first through third photo-resist regions, the first through third photo-resist regions contain red pigment particles, green pigment particles and blue pigment particles respectively for extracting red, green and blue light components from the white light. Moreover, the colored photo-resist layer has an expected haze value e.g., greater than 30 by at least utilizing the scattering of the red, green and blue pigment particles and/or mixing of scattering particles that are different from the red, green and blue pigment particles into the first through third photo-resist regions. | 06-30-2011 |
20110233600 | WHITE ORGANIC LIGHT-EMITTING DIODE - A white organic light-emitting diode (WOLED) includes a transparent electrode, a blue-complementary light-emitting layer, a translucent electrode, a blue light-emitting layer, and a non-transparent electrode. The blue-complementary light-emitting layer is disposed on the transparent electrode. The transparent electrode and the translucent electrode include a first voltage. The blue light-emitting layer is disposed on the translucent layer. The non-transparent electrode is disposed on the blue light-emitting layer. The translucent electrode and the non-transparent electrode include a second voltage. | 09-29-2011 |
20110273872 | ELECTRONIC ILLUMINATING DEVICE - An electronic illuminating device includes an illuminating area, a routing area and a control area. The illuminating area includes multiple light-emitting blocks and multiple illuminating area power-supply lines. Each the light-emitting block employs at least one light-emitting element as light source, and further is electrically coupled to a corresponding one of the illuminating area power-supply lines. The routing area includes multiple routing area power-supply lines, and each the routing area power-supply line is electrically coupled to a corresponding one of the illuminating area power-supply lines. The control area provides powers to the routing area power-supply lines. A width of at least one of the illuminating area power-supply lines and the corresponding routing area power-supply line or a length of at least one of the routing area power-supply lines is adjusted, such that differences among resistances between the light-emitting blocks and the control area are within 20%. | 11-10-2011 |
20120104936 | ILLUMINATION DEVICE - An illumination device includes a transparent substrate and multiple first metal lines. The transparent substrate includes an emitting area and a peripheral area and the emitting area includes multiple sub-emitting areas. The first metal lines are disposed on the transparent substrate, each first metal line has an end connected to a corresponding one of the sub-emitting areas and an opposite end connected to the peripheral area. Each sub-emitting area includes an insulating layer, a second metal line and an OLED layer. The second metal line is disposed between the transparent substrate and the OLED layer, the insulating layer is between the first metal lines and the second metal line, each first metal line is overlapped with the second metal line in vertical projection. One of the first metal lines, which is connected to a first one of the sub-emitting areas, passes through a second one of the sub-emitting areas. | 05-03-2012 |
20120181541 | Thin Film Transistor Array Substrate - A thin film transistor (TFT) array substrate includes a stack structure disposed to raise an extended electrode of a drain electrode of a thin film transistor. Therefore, a contact hole does need to be very deep to expose the extended electrode of the drain electrode. | 07-19-2012 |
20120181542 | Thin Film Transistor Array Substrate - A thin film transistor (TFT) array substrate includes a stack structure disposed to raise an extended electrode of a drain electrode of a thin film transistor. Therefore, a contact hole does need to be very deep to expose the extended electrode of the drain electrode. | 07-19-2012 |
20120200819 | FLAT DISPLAY PANEL AND METHOD OF REPAIRING THE SAME - A flat display panel includes a bridge line disposed between adjacent common lines. When a short defect occurs, the common line near the short defect can be directly cut off in order to repair the short defect and the common voltage can be transferred through the bridge line to maintain the normal operation of the flat display panel. | 08-09-2012 |
20130026517 | ORGANIC LUMINANCE DEVICE, METHOD FOR MANUFACTURING SAME AND LIGHTING APPARATUS INCLUDING SAME - An organic luminance device includes a base substrate, a organic luminance multi-layered structure and a cover substrate. Furthermore, a protective film is used to wrap the light emitting surface and at least one lateral surface of the base substrate to prevent the substrate from crack. The protective film may be doped with one or more dopants having a refractive index different from original material of the protective film. | 01-31-2013 |
20130127374 | ORGANIC LIGHT-EMITTING DEVICE AND CONTROL METHOD THEREOF - An organic light-emitting device includes a first transparent substrate, an organic light-emitting diode and a bi-stable light control element. The organic light-emitting diode is disposed under the first transparent substrate. The bi-stable light control element is disposed under the organic light-emitting diode. The bi-stable light control element is configured to change an optical state thereof according to a received control signal and thereby changing the amount of lights capable of emitting through the bi-stable light control element. A control method for the aforementioned organic light-emitting device is also provided. | 05-23-2013 |
Patent application number | Description | Published |
20110267567 | PIXEL ARRAY, LIQUID CRYSTAL DISPLAY PANEL, AND ELECTRO-OPTICAL APPARATUS - A pixel array including first scan lines, second scan lines, data lines, and sub-pixels is provided. Each sub-pixel includes a first switch, a second switch, a first pixel electrode electrically connected to the first switch, a second pixel electrode electrically connected to the second switch, a third switch, and common lines connected with each other and disposed under the first and the second pixel electrode. The first and the second switch are electrically connected to the same first scan line and data line. The first scan line is located between the first and second pixel electrode. The third switch is electrically connected to the second scan line and the first pixel electrode and has a floating terminal. The floating terminal is capacitively coupled to the common line under the second pixel electrode to form a capacitor. | 11-03-2011 |
20120104363 | ORGANIC LIGHT EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - An organic light emitting device having a light emitting unit that includes an anode layer, a second wire, an insulating layer, first and second organic light emitting layers and a cathode layer is provided. The anode layer includes first and second sub-electrodes and a first wire connecting the first and second sub-electrodes that are arranged in a first direction. The second wire is disposed between the first and second sub-electrodes. The insulating layer is disposed on the first and second sub-electrodes and the second wire, and has a plurality of openings to expose the first sub-electrode, the second sub-electrode and the second wire. The first and second organic light emitting layers are disposed in two openings. The cathode layer is disposed on the first and second organic light emitting layers, and the cathode layer fills another opening to electrically connect to the second wire through the another opening. | 05-03-2012 |
20120153318 | WHITE LIGHT ELECTROLUMINESCENCE DEVICE - A white light electroluminescence device includes a first light emitting unit, a second light emitting unit and a connecting layer between the first and the second light emitting units. The connecting layer electrically connects the first and the second light emitting units in series. The first light emitting unit includes a first electrode layer and a first light emitting layer on the first electrode layer, wherein the first light emitting layer includes a first blue light emitting layer and a red light emitting layer having a first co-host material and a first dopant material. The second light emitting unit includes a second light emitting layer and a second electrode layer on the second light emitting layer, wherein the second light emitting layer has a second blue light emitting layer and a green light emitting layer having a second co-host material and a second dopant material. | 06-21-2012 |
20120161111 | WHITE ORGANIC LIGHT ELECTROLUMINESCENCE DEVICE - A white organic light electroluminescence device includes a first light emitting unit, a second light emitting unit and a connecting layer between the first light emitting unit and the second light emitting unit. The connecting layer electrically connects the first light emitting unit and the second light emitting unit in series. The first light emitting unit includes a first electrode layer, a first light emitting layer on first electrode layer, and an intrinsic layer. The first light emitting layer has a first blue light emitting layer and a red light emitting layer, and the intrinsic layer is between the first blue light emitting layer and the red light emitting layer. The second light emitting unit includes a second light emitting layer and a second electrode layer on the second light emitting layer. The second light emitting layer has a second blue light emitting layer and a green light emitting layer. | 06-28-2012 |
20120292647 | ORGANIC ELECTROLUMINESCENT LIGHT SOURCE - An organic electroluminescent light source including a first organic electroluminescent device and a second organic electroluminescent device is provided. The first organic electroluminescent device is coupled to a first bias voltage to emit a first color light having a color temperature ranging from 2800K to 3500K. The second organic electroluminescent device is coupled to a second bias voltage to emit a second color light. The first color light and the second color light mix to generate a third color light having a color temperature ranging from 3500K to 6500K. | 11-22-2012 |
20120298967 | ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device is provided and suitable for being disposed on a substrate. The organic light emitting device includes a cathode layer, a buffer layer, a material layer, an organic light emitting layer and an anode layer. The cathode layer is disposed on the substrate. The buffer layer is disposed on and contacts the cathode layer, and the cathode layer is disposed between the substrate and the buffer layer. The material layer is disposed on and contacts the buffer layer, and the buffer layer is disposed between the cathode layer and the material layer, wherein a difference between a lowest unoccupied molecular orbital of the buffer layer and a highest occupied molecular orbital of the material layer is smaller than 2 eV. The organic light emitting layer is disposed on the material layer. The anode layer is disposed on the organic light emitting layer. | 11-29-2012 |
20130126834 | ORGANIC LUMINESCENT MATERIAL AND ORGANIC ELECTROLUMINESCENT APPARATUS - An organic luminescent material includes a host luminescent material and a guest luminescent material. The host luminescent material includes a compound represented by formula (1), | 05-23-2013 |
20130153863 | ELECTRON TRANSPORT MATERIAL AND ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device is provided. The organic light emitting device includes a first electrode layer, a second electrode layer and a light emitting material layer. The second electrode layer is disposed opposite to the first electrode layer. The light emitting material layer is disposed between the first electrode layer and the second electrode layer, and includes an organic light emitting material and an electron transport material, wherein the electron transport material includes a compound represented by a formula (1) below: | 06-20-2013 |
20130153868 | ORGANIC ELECTROLUMINESCENT APPARATUS - An organic electroluminescent apparatus including an anode, a cathode, a first organic light emitting unit layer, a plurality of second organic light emitting unit layers, and a plurality of bonding layers is provided. The first organic light emitting unit layer has a phosphorescent host material for emitting blue light. The second organic light emitting unit layers have a host material for emitting light other than blue light. The first organic light emitting unit layer and the second organic light emitting unit layers are located between the anode and the cathode to obtain white light by mixing light. Each of the bonding layers is located between the first organic light emitting unit layer and one of the second organic light emitting unit layers or between two of the second organic light emitting unit layers. | 06-20-2013 |
20130154472 | ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device including an electrode line, a transparent impedance line, an insulating layer, a transparent electrode, an organic illumination layer and an electrode is provided. The electrode line is disposed on a substrate and next to a luminescent zone. The transparent impedance line is disposed in the luminescent zone on the substrate and electrically connected to the electrode line. The insulating layer completely covers the substrate and has a contact hole. The transparent electrode completely covers the luminescent zone and is disposed on the insulating layer. The transparent impedance line and the transparent electrode are electrically connected to each other through the contact hole. The organic illumination layer is disposed on the transparent electrode. The electrode is disposed on the organic illumination layer. Thus, the illumination of the organic electroluminescent device can be more uniform and the aperture ratio is increased. | 06-20-2013 |