Chen, Chu-Nan
Cheng-Hsiung Chen, Chu-Nan TW
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20150077679 | DISPLAY PANEL WITH AGGLOMERATES - A display panel comprises a first substrate having a first alignment film, a second substrate having a second alignment film and plural spacers, a liquid crystal layer disposed between the first and second substrates, and a plurality of agglomerates positioned between the first and second alignment films and further surrounding at least one of the spacers. The spaces maintain a uniform gap between the first and second substrates. The second alignment film is disposed oppositely to the first alignment film and covers the spacers. In one embodiment, sizes of the agglomerates are distributed in a range of 0.1 μm˜2 μm. | 03-19-2015 |
Cheng-Ta Chen, Chu-Nan TW
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20120218503 | DISPLAY AND METHOD FOR MANUFACTURING THE SAME - A display including a supporting layer, a flexible layer and a display structure is provided. The display structure has a top side and a bottom side which are opposite to each other. One of the supporting layer and the flexible layer is disposed at the bottom side of the display structure, and the other one of the supporting layer and the flexible layer is disposed at the top side or the bottom side of the display structure. When the supporting layer and the flexible layer are both disposed at the bottom side of the display structure, the flexible layer is located between the supporting layer and the display structure. | 08-30-2012 |
20150197077 | METHOD FOR MANUFACTURING DISPLAY - A method for manufacturing a display is provided. A display including a supporting layer, a flexible layer and a display structure is provided. The display structure has a top side and a bottom side which are opposite to each other. One of the supporting layer and the flexible layer is disposed at the bottom side of the display structure, and the other one of the supporting layer and the flexible layer is disposed at the top side or the bottom side of the display structure. When the supporting layer and the flexible layer are both disposed at the bottom side of the display structure, the flexible layer is located between the supporting layer and the display structure. | 07-16-2015 |
Chih-Hsun Chen, Chu-Nan TW
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20150280078 | WHITE FLIP CHIP LIGHT EMITTING DIODE (FC LED) AND FABRICATION METHOD - A white flip chip light emitting diode (FC LED) includes a flip chip (LED) die configured to emit electromagnetic radiation; reflective sidewalls on the (LED) die; and a wavelength conversion member having a uniform thickness and a surface area greater than or equal to a footprint of the flip chip (LED) die configured to change a wavelength of the electromagnetic radiation to produce white light. A method for fabricating the white flip chip light emitting diode (FC LED) includes the steps of: providing the flip chip (LED) die; forming reflective sidewalls on the flip chip (LED) die; and forming a wavelength conversion member on the flip chip (LED) die. | 10-01-2015 |
Chun-Ta Chen, Chu-Nan TW
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20090168422 | ILLUMINATION DEVICE - An exemplary illumination device includes a number of illuminants and a number of pivoting shafts. Each of the illuminants includes a casing and a light source received in the casing. The pivoting shafts pivotedly connect the casing. Each of the pivoting member is coupled to each two neighboring illuminants. | 07-02-2009 |
Chun-Teng Chen, Chu-Nan TW
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20150310811 | DISPLAY PANEL - A display panel is disclosed, which comprises: a first substrate; a second substrate opposite to the first substrate; a liquid crystal layer disposed between the first substrate and the second substrate; a shielding pattern disposed on the second substrate and comprising a first region and a second region, in which a transmittance of the first region is larger than that of the second region; and a first aggregation layer disposed on a side of the first substrate facing to the second substrate, wherein a roughness of the first aggregation layer corresponding to the first region of the shielding pattern is larger than that of the first aggregation layer corresponding to the second region thereof. | 10-29-2015 |
Fu-Cheng Chen, Chu-Nan TW
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20160004106 | LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY DEVICE CONTAINING THE SAME - A liquid crystal display panel and a liquid crystal display device containing the same are disclosed. The liquid crystal display panel of the present invention comprises: a first substrate with a pixel electrode, a data line, and a scan line formed thereon; a second substrate opposite to the first substrate; a first alignment layer disposed on the first substrate, the pixel electrode, the data line and the scan line; and a liquid crystal layer disposed between the first substrate and the second substrate, wherein the first alignment layer disposed on the pixel electrode has a first thickness, the first alignment layer disposed on at least one of the scan line and the data line has a second thickness, and the first thickness is greater than the second thickness. | 01-07-2016 |
20160004107 | LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY DEVICE CONTAINING THE SAME - A liquid crystal display panel and a liquid crystal display device containing the same are disclosed. The liquid crystal display panel of the present invention comprises: a first substrate with a pixel electrode region and a non-pixel electrode region; a second substrate opposite to the first substrate; a first alignment layer disposed on the pixel electrode region and the non-pixel electrode region; and a liquid crystal layer disposed between the first substrate and the second substrate. Herein, the first alignment layer on the pixel electrode region has a first thickness, that on the non-pixel electrode region has a second thickness, and the first thickness is larger than the second thickness. | 01-07-2016 |
Han-Chang Chen, Chu-Nan TW
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20130194533 | DISPLAY DEVICE AND METHOD FOR FABRICATING THE SAME - A display device employing a liquid crystal module and a method for fabricating the display device are provided. The liquid crystal module includes a first substrate and a second substrate, wherein the first substrate is disposed opposite to the second substrate; a first photo-alignment layer disposed on a top surface of the first substrate, and a second photo-alignment layer disposed on a bottom surface of the second substrate, wherein the first and second photo-alignment layers include a plurality of protrusions, and wherein the protrusions are formed by polymerizing non-polar monomers having two or three acrylate functional groups; and a liquid crystal layer disposed between the first and second photo-alignment layers. | 08-01-2013 |
Hsi-Chien Chen, Chu-Nan TW
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20140285733 | TOUCH DISPLAY APPARATUS AND METHOD FOR MANUFACTURING THE SAME - A touch display apparatus includes a display panel, a first sensing electrode layer and a sensing electrode device. The display panel includes an upper substrate, a lower substrate, and a display medium layer positioned between the upper and lower substrates. The first sensing electrode layer is at one side of the upper substrate opposite to the display medium layer. The sensing electrode device, positioned above the first sensing electrode layer, includes a substrate and a second sensing electrode layer. The second sensing electrode layer is at one side of the substrate. A method for manufacturing the touch display apparatus comprises step of forming the first sensing electrode layer corresponding to one side of the upper substrate. The first and second sensing electrode layers are separately manufactured, and are adhered each other in the subsequent process. | 09-25-2014 |
Hsin-Li Chen, Chu-Nan TW
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20120159780 | METHOD FOR FABRICATING A TOUCH PANEL - The disclosure provides a method for fabricating the touch panel, including: providing a display panel, and the display panel includes a first substrate and a second substrate opposite to the first substrate; thinning the display panel to form a thinned display panel; and forming a touch panel on the outer surface of the thinned display panel. | 06-28-2012 |
20120162108 | TOUCH PANEL - The disclosure provides a touch panel which includes: a first substrate; a second substrate disposed oppositely to the first substrate, and the first substrate or the second substrate has a thickness smaller than or equal to 0.3 mm; a liquid crystal layer disposed between the first substrate and the second substrate; and a touch sensor directly formed on a surface of the second substrate away from the liquid crystal layer, wherein the touch sensor includes a patterned transparent conducting layer. | 06-28-2012 |
20150036066 | METHOD FOR FABRICATING A TOUCH PANEL - A method for fabricating the touch panel is provided. The method includes providing a display panel, and the display panel includes a first substrate and a second substrate opposite to the first substrate; thinning the display panel to form a thinned display panel; and forming a touch panel on the outer surface of the thinned display panel. | 02-05-2015 |
Hui-Fang Chen, Chu-Nan TW
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20130135861 | LED ILLUMINATING DEVICE - An LED illuminating device for projecting light to a predetermined illuminating plane, includes a supporting pole extending from the illuminating plane, a first LED module arranged on the supporting pole and a second LED module arranged on the supporting pole. The first LED module is for projecting light to a first part of the illuminating plane. The second LED module is for projecting light to a second part of the illuminating plane. The first part of the illuminating plane is adjacent to the supporting pole. The second part of the illuminating plane is adjacent to the first part of the illuminating plane and away from the supporting pole. | 05-30-2013 |
Hung-Shan Chen, Chu-Nan TW
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20130083283 | BLUE PHASE LIQUID CRYSTAL AND MANUFACTURING METHOD THEREOF - A manufacturing method of blue phase liquid crystal (BPLC), comprising steps of: a temperature control step which controls a temperature of a liquid crystal (LC) mixture within a range of a coexistence temperature of the blue phase and the isotropic phase; a temperature descending step which descends the temperature of the LC mixture to an operation temperature of the blue phase, wherein the operation temperature of the blue phase is higher than the phase transition temperature of the blue phase and the lower temperature phase; and a repeating step which repeats the temperature control step and the temperature descending step. | 04-04-2013 |
20150062526 | BLUE PHASE LIQUID CRYSTAL AND MANUFACTURING METHOD THEREOF - A manufacturing method of blue phase liquid crystal (BPLC), comprising steps of: a temperature control step which controls a temperature of a liquid crystal (LC) mixture within a range of a coexistence temperature of the blue phase and the isotropic phase; a temperature descending step which descends the temperature of the LC mixture to an operation temperature of the blue phase, wherein the operation temperature of the blue phase is higher than the phase transition temperature of the blue phase and the lower temperature phase; and a repeating step which repeats the temperature control step and the temperature descending step. | 03-05-2015 |
Hung-Yu Chen, Chu-Nan TW
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20120159780 | METHOD FOR FABRICATING A TOUCH PANEL - The disclosure provides a method for fabricating the touch panel, including: providing a display panel, and the display panel includes a first substrate and a second substrate opposite to the first substrate; thinning the display panel to form a thinned display panel; and forming a touch panel on the outer surface of the thinned display panel. | 06-28-2012 |
20120162108 | TOUCH PANEL - The disclosure provides a touch panel which includes: a first substrate; a second substrate disposed oppositely to the first substrate, and the first substrate or the second substrate has a thickness smaller than or equal to 0.3 mm; a liquid crystal layer disposed between the first substrate and the second substrate; and a touch sensor directly formed on a surface of the second substrate away from the liquid crystal layer, wherein the touch sensor includes a patterned transparent conducting layer. | 06-28-2012 |
20150036066 | METHOD FOR FABRICATING A TOUCH PANEL - A method for fabricating the touch panel is provided. The method includes providing a display panel, and the display panel includes a first substrate and a second substrate opposite to the first substrate; thinning the display panel to form a thinned display panel; and forming a touch panel on the outer surface of the thinned display panel. | 02-05-2015 |
Jia-Lun Chen, Chu-Nan TW
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20120224129 | LIQUID CRYSTAL DISPLAYS - In an embodiment of the invention, a liquid crystal display is provided. The liquid crystal display includes a first substrate, a first electrode formed on the first substrate, wherein the first electrode includes a plurality of subpixels, and each the subpixel includes a plurality of subunits, and each the subunit includes a plurality of first slits and a plurality of second slits, wherein the first slits are connected to the second slits and the first slits of the subunits which are adjacent to each other are connected to each other, a second substrate opposite to the first substrate, a second electrode formed on the second substrate, and a liquid crystal layer disposed between the first electrode and the second electrode. | 09-06-2012 |
20130107185 | ELECTRODE PATTERN, PIXEL LAYOUT METHOD, AND LIQUID CRYSTAL DISPLAY | 05-02-2013 |
Jian-Cheng Chen, Chu-Nan TW
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20120057114 | LIQUID CRYSTAL DISPLAY STRUCTURE - A liquid crystal display (LCD) structure is provided. A first alignment layer and a first electrode layer are disposed on a liquid crystal layer. A second electrode layer and a second alignment layer disposed under the liquid crystal layer. The first alignment layer and the second alignment layer respectively have a plurality of alignment areas with different aligning directions. At least one of the first electrode layer and the second electrode layer includes a substrate material and a plurality of openings, and at least includes a plurality of electrode areas. The boundaries of the electrode areas correspond to the boundaries of the alignment areas. The directions of the openings in the electrode areas are between the aligning directions of the corresponding alignment areas of the first alignment layer and the second alignment layer. | 03-08-2012 |
Jyun-Yu Chen, Chu-Nan TW
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20150205176 | DISPLAY PANEL - A display panel comprising a substrate, a plurality of gate lines, source lines, semiconductor layers and light shielding layers is provided. The gate lines are disposed on the substrate in parallel. The source lines are disposed on the substrate in parallel. The gate lines and the source lines are intercrossed to define a plurality of pixel areas. The semiconductor layers are disposed on the corresponding pixel areas, and each semiconductor layer includes at least one channel region overlapping each gate line. The slight shielding layers are located between the channel regions and the substrate. In a normal direction of the substrate, one of the gate lines is overlapped by two of the light shielding layers, and one of the light shielding layers overlaps even number of the source lines. | 07-23-2015 |
20150206907 | THIN FILM TRANSISTOR SUBSTRATE, DISPLAY PANEL AND DISPLAY DEVICE - A thin film transistor substrate is provided. The TFT substrate comprises a substrate, a first metal layer, a first insulating layer, a channel layer, a second insulating layer and a gate layer. The first metal layer is disposed on the substrate, and comprises a first portion and a second portion which are separated from each other. The first insulating layer is disposed on the first metal layer. The channel layer is disposed on the first insulating layer. The second insulating layer is disposed on the channel layer. The gate layer is disposed on the second insulating layer. The first portion and the second portion of the first metal layer partially overlap the channel layer. | 07-23-2015 |
20160079279 | LIQUID CRYSTAL DISPLAY AND ELEMENT SUBSTRATE THEREOF - An element substrate is provided, including a substrate, a metal layer, a planarization layer and a first conductive layer. The metal layer is disposed on the substrate. The planarization layer is located on the metal layer, wherein the planarization layer includes a contact hole, the contact hole has a continuous wall and a bottom, the bottom exposes the metal layer, and the bottom of the contact hole has a first width. The first conductive layer is located on the planarization layer, wherein the first conductive layer includes an opening, the opening exposes the contact hole, and the opening has a second width above the contact hole, wherein the relationship of the first width and the second width is modified to decrease illumination loss and to prevent problems of shot-circuiting and insufficient capacitance. | 03-17-2016 |
Kuan-Chou Chen, Chu-Nan TW
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20130192521 | SHADOW MASK AND COMPENSATING DESIGN METHOD THEREOF - The disclosure provides a compensating design method for a shadow mask including: providing a first shadow mask having a first opening pattern and a first material pattern; disposing the first shadow mask on a substrate having a predetermined depositing film area with first and second sides; performing a deposition process by using the first shadow mask as a mask to form a film on an actual depositing film area, wherein the distance between the first and the third sides is a first bias, and the distance between the second and the fourth sides is a second bias, and a single side gray zone of the actual depositing film area relative to the predetermined depositing film area is substantially half of the sum of the first and the second biases; and designing a second shadow mask according to the single side gray zone. | 08-01-2013 |
Li-Chun Chen, Chu-Nan TW
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20160004106 | LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY DEVICE CONTAINING THE SAME - A liquid crystal display panel and a liquid crystal display device containing the same are disclosed. The liquid crystal display panel of the present invention comprises: a first substrate with a pixel electrode, a data line, and a scan line formed thereon; a second substrate opposite to the first substrate; a first alignment layer disposed on the first substrate, the pixel electrode, the data line and the scan line; and a liquid crystal layer disposed between the first substrate and the second substrate, wherein the first alignment layer disposed on the pixel electrode has a first thickness, the first alignment layer disposed on at least one of the scan line and the data line has a second thickness, and the first thickness is greater than the second thickness. | 01-07-2016 |
20160004107 | LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY DEVICE CONTAINING THE SAME - A liquid crystal display panel and a liquid crystal display device containing the same are disclosed. The liquid crystal display panel of the present invention comprises: a first substrate with a pixel electrode region and a non-pixel electrode region; a second substrate opposite to the first substrate; a first alignment layer disposed on the pixel electrode region and the non-pixel electrode region; and a liquid crystal layer disposed between the first substrate and the second substrate. Herein, the first alignment layer on the pixel electrode region has a first thickness, that on the non-pixel electrode region has a second thickness, and the first thickness is larger than the second thickness. | 01-07-2016 |
Ming-Hung Chen, Chu-Nan TW
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20130250216 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal (LC) display device includes a first substrate having a pixel unit and a second substrate. The pixel unit has a pixel electrode unit including a primary electrode region. A LC layer with chiral dopants is disposed between the first and second substrates. The pixel unit has a first boundary along a horizontal direction of an upper portion of the pixel unit. The first boundary has a first central point. The primary electrode region has a first side along the horizontal direction of an upper portion of the primary electrode region. The first side has a second central point left to the first central point. The primary electrode region has a second side located on the left to the second central point, and a first angle between the first and second sides is larger than 90 degrees or equal to 90 degrees. | 09-26-2013 |
Shih-Chuan Chen, Chu-Nan TW
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20110062919 | DISCHARGE CIRCUIT - A discharge circuit includes an OC (Optical Coupler), a capacitor, an NPN-type transistor, and a discharge unit. The discharge circuit is parallel connected to a PFC (power factor corrector) circuit which includes a filter capacitor. The discharge unit has a MOSFET and a discharge resistor. A drain of the MOSFET is connected to a first terminal of the PFC circuit via the discharge resistor, a gate thereof is connected the anode of the capacitor, and a source thereof is connected to ground. | 03-17-2011 |
Shih-Hsiang Chen, Chu-Nan TW
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20120241774 | DISPLAY MODULE AND MANUFACTURING METHOD THEREOF - A display module and a manufacturing method thereof are provided. The display module comprises a casing, an optical element and a display panel. The casing has an upper portion. The optical element is disposed in the casing. The display panel comprises a color filter substrate and a thin film transistor substrate. The color filter substrate is located within and toward the casing. The thin film transistor substrate is connected to the color filter substrate and connected to the upper portion of the casing. | 09-27-2012 |
Shih-Wei Chen, Chu-Nan TW
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20100141632 | LIQUID CRYSTAL DISPLAY AND DISPLAY APPARATUS - A liquid crystal display includes a liquid crystal panel switchable between normal mode for displaying images and standby mode, a control circuit coupled to the liquid crystal panel controlling the liquid crystal panel mode according to video signals transmitted thereto, and a power board providing a power voltage to the control circuit. | 06-10-2010 |
Sz-Hsiao Chen, Chu-Nan TW
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20130192521 | SHADOW MASK AND COMPENSATING DESIGN METHOD THEREOF - The disclosure provides a compensating design method for a shadow mask including: providing a first shadow mask having a first opening pattern and a first material pattern; disposing the first shadow mask on a substrate having a predetermined depositing film area with first and second sides; performing a deposition process by using the first shadow mask as a mask to form a film on an actual depositing film area, wherein the distance between the first and the third sides is a first bias, and the distance between the second and the fourth sides is a second bias, and a single side gray zone of the actual depositing film area relative to the predetermined depositing film area is substantially half of the sum of the first and the second biases; and designing a second shadow mask according to the single side gray zone. | 08-01-2013 |
Te-Sheng Chen, Chu-Nan TW
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20130127325 | LIGHT EMITTING DEVICE - An exemplary light emitting device includes a base, a pair of leads fixed on the base, a light emitting element mounted on the base and electrically connected to the leads and an encapsulant attached on the base and sealing the light emitting element. The base has a plurality of heat conductive paths formed therein. The heat conductive paths extend from a bottom face to a top face of the base to conduct heat generated by the light emitting element from the top face to the bottom face of the base. | 05-23-2013 |
20130135861 | LED ILLUMINATING DEVICE - An LED illuminating device for projecting light to a predetermined illuminating plane, includes a supporting pole extending from the illuminating plane, a first LED module arranged on the supporting pole and a second LED module arranged on the supporting pole. The first LED module is for projecting light to a first part of the illuminating plane. The second LED module is for projecting light to a second part of the illuminating plane. The first part of the illuminating plane is adjacent to the supporting pole. The second part of the illuminating plane is adjacent to the first part of the illuminating plane and away from the supporting pole. | 05-30-2013 |
20130148334 | ILLUMINATING UMBRELLA HAVING SOLAR POWERED ILLUMINATION STRUCTURE - An illuminating umbrella includes a canopy, a frame, a rechargeable battery, a film-shaped solar power device, and a flexible light-emitting device. The canopy has an inner surface and an opposite outer surface. The frame supports the canopy. The rechargeable battery is received in the frame. The film-shaped solar power device is spread on the outer surface of the canopy and electrically connected with the rechargeable battery. The flexible light-emitting device is attached on the inner surface of the canopy. The rechargeable battery is electrically connected to the flexible light-emitting device for providing electrical power to the flexible light-emitting device. The flexible light-emitting device is an organic light-emitting diode or a polymer light-emitting diode. | 06-13-2013 |
20130148337 | LED LAMP - An LED lamp includes a ceramic main body, an LED module mounted in the main body, a cover mounted on a top end of the main body and covering the LED module, and a connecting member electrically connecting the LED module and mounted on a bottom end of the main body. | 06-13-2013 |
20130148338 | LIGHT EMITTING DIODE TABLE LAMP - An exemplary LED table lamp includes a lamp stand and an LED lighting module. The LED lighting module includes a light source, a power storage device and a first electrical connector. The LED lighting module can be independently used as a torch. The lamp stand includes a second electrical connector. The second electrical connector can be connected to an external electrical power supply. The first electrical connector can be detachedly electrically connected to the second electrical connector. The power storage device can be electrically connected to the light source to supply electrical power to the light source. The light source can be electrically connected to the second electrical connector, so that the external electrical power supply can supply electrical power to the light source. | 06-13-2013 |
20130148361 | OUTDOOR LED LAMP - An exemplary outdoor LED lamp includes a post, an LED module, two supporting arms and a reflector. The LED module is mounted on a top end of the post for generating upward light. The supporting arms are mounted on the post and located at lateral sides of the LED module. The reflector is rotatably mounted on the supporting arms and located over a top side of the LED module for reflecting the upward light of the LED module. | 06-13-2013 |
20130300311 | LIGHT EMITTING DIODE LIGHTING DEVICE WITH DUTY CYCLE CAPABLE OF BEING TUNED - An LED lighting device is provided. The LED lighting device includes a processing unit, a sensor, a MOSFET, and an LED. When the sensor detects a frequency or voltage fluctuation, the processing unit modulates the duty cycle of the MOSFET to reduce the energy consumption of the LED light device and improve the efficiency of luminance of the LED lighting device. | 11-14-2013 |
Tien-Pao Chen, Chu-Nan TW
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20110002126 | Lens - A lens for a LED light source includes a first light emitting surface and a light incident surface perpendicular to the optical axis of the lens. The first light emitting surface is a convex surface and opposite to the light incident surface. The lens further includes a second light emitting surface opposite to the light incident surface and adjacent to the first light emitting surface. The thickness between the second light emitting surface and the light incident surface near the optical axis exceeds the thickness between the second light emitting surface and the light incident surface away from the optical axis. | 01-06-2011 |
20110019406 | REFLECTING COVER AND ILLUMINATION DEVICE USING THE SAME - A reflecting cover includes a substrate and a reflecting ring. The substrate is configured for receiving an LED. The reflecting ring is mounted on the substrate. The reflecting ring includes a plurality of reflecting units. The reflecting units are configured for reflecting light of the LED. The angles of the reflecting units relative to the substrate increase in turn along a direction away from the substrate. | 01-27-2011 |
20110057579 | ILLUMINATION DEVICE - An illumination device includes a light source module consisting of a substrate and a plurality of light emitting elements on the substrate in an array and an optical module array consisting of a plurality of optical modules covering the light emitting elements. Each optical module includes a first optical component and a second optical component. A first illumination distribution pattern is generated by light from the light emitting elements and modulated by the first optical components. A second illumination distribution pattern is generated by light from the light emitting elements and modulated by the second optical components. An illumination distribution pattern of the illumination device is superposition of the first illumination distribution pattern and the second illumination distribution pattern. | 03-10-2011 |
20110164425 | LENS AND ILLUMINATION DEVICE HAVING SAME - A lens applied to a light emitting element includes a first surface profile and a second surface profile opposite to the first surface profile. The first surface profile defines a first trench facing the light emitting element, and the first trench includes a bottom curved surface serving as a light incident surface. The second surface profile includes a top curved surface, and serves as a light emitting surface. Both the bottom and the top curved surfaces are mirror symmetric to the first suppositional plane P | 07-07-2011 |
Tsan-Jen Chen, Chu-Nan TW
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20120242938 | METHODS FOR MANUFACTURING LCD SUBSTRATES AND LCDS - Disclosed is a method for manufacturing an LCD substrate, including forming an alignment material layer on a transparent substrate. The transparent substrate is located on an exposure platform, wherein the exposure platform surface includes a patterned structure thereon. The photo alignment aligns the alignment material layer corresponding to the patterned structure, thereby patterning the alignment material layer to form a multi-domain alignment structure. | 09-27-2012 |
Tse-Yuan Chen, Chu-Nan TW
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20120299976 | DISPLAY DEVICE AND CONTROL METHOD THEREOF - A display device including a plurality of pixels and a driving module is disclosed. Each pixel stores voltage and displays brightness according to the stored voltage. The driving module updates the stored voltage during a frame period. The frame period includes a plurality of row times. Each row time includes at least one programming period and at least one emission period. The driving module de-activates the pixels to stop displaying brightness during the programming periods and activates the pixels to display brightness during the emission periods. | 11-29-2012 |
Wen-Lung Chen, Chu-Nan TW
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20110290547 | ELECTRODE STRUCTURE OF MULTIPLE DIELECTRIC ISLAND LAYER AND MANUFACTURING METHOD THEREOF - An electrode structure of multiple dielectric island layer and manufacturing method thereof are described. The electrode structure includes a substrate, an electrode bridge structure, a dielectric layer and a conducting pattern. The dielectric layer is formed on the substrate and the electrode bridge structure and has a plurality of dielectric island patterns. The dielectric island patterns cover a portion of the electrode bridge structure for forming a plurality of bridge patterns of the electrode bridge structure wherein the dielectric island patterns are alternately arranged with the bridge patterns. The conducting pattern has a first electrode, a second electrode, a third electrode and a fourth electrode. The first electrode is electrically connected to the second electrode. The third and fourth electrodes cover the bridge patterns of the electrode bridge structure for reducing the contact resistance between the third and fourth electrodes by the electrode bridge structure. | 12-01-2011 |
20120026128 | DISPLAY SYSTEM HAVING A CAPACITIVE TOUCH PANEL AND MANUFACTURING METHODS OF THE SAME - A display system having a capacitive touch panel is described. The capacitive touch panel includes an electrode circuit formed on a substrate. The electrode circuit has a first electrode including a plurality of first conducting patterns and a second electrode including a plurality of second conducting patterns. The first conducting patterns are electrically connected to each other. A plurality of signal wires is formed on the substrate. A dielectric layer covers the electrode circuit. An electrode bridge structure is formed on the dielectric layer and is electrically connected to the second conducting patterns of the electric circuit, such that the second conducting patterns are electrically connected to each other. The electrode bridge structure having uniform thickness is formed by the metal open repair technique. A method of manufacturing a display system is also described. | 02-02-2012 |
Ya-Ling Chen, Chu-Nan TW
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20160077645 | TOUCH PANEL, TOUCH DISPLAY PANEL AND TOUCH DISPLAY DEVICE - A touch panel, a touch display panel and a touch display device are provided. The touch panel includes a first substrate, a black matrix, and a transparent electrode layer. The first substrate has a display area and a mask area surrounding the display area. The black matrix is disposed on the mask area of the first substrate. The transparent electrode layer is disposed on the first substrate. The transparent electrode layer includes a first appearance electrode pattern disposed on the black matrix, and the first appearance electrode pattern includes two first edges and a first arc connected with the two first edges. | 03-17-2016 |
Yang-Chen Chen, Chu-Nan TW
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20160048251 | DISPLAY DEVICE - A display device is disclosed, which comprises: a first substrate comprising a first surface and a second surface opposite to the first surface; and a first patterned transparent conductive layer disposed on the first surface of the first substrate and having a first thickness, wherein the first patterned transparent conductive layer at least comprises a first zone and a second zone, the first zone locates between the second zone and the first substrate, and the first zone is a part of the first patterned transparent conductive layer neighboring to the first substrate and having a two-third (⅔) thickness of the first patterned transparent conductive layer, wherein a material of the first patterned transparent conductive layer comprises In, and an atomic amount of In in the second zone is larger than that in the first zone. | 02-18-2016 |
Yen-Wei Chen, Chu-Nan TW
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20150332629 | DISPLAY - A display is disclosed. The display comprises a panel, a data driver and a scan driver. The panel comprises pixels, data lines and scan lines. The data lines transmit data signals to the pixels, and the scan lines transmit scan signals to the pixels. The data driver provides the data signals, and the scan driver provides the scan signals. The scan driver comprises a shift register circuit. The shift register circuit comprises an i+1 | 11-19-2015 |
Yi-Ching Chen, Chu-Nan TW
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20150077679 | DISPLAY PANEL WITH AGGLOMERATES - A display panel comprises a first substrate having a first alignment film, a second substrate having a second alignment film and plural spacers, a liquid crystal layer disposed between the first and second substrates, and a plurality of agglomerates positioned between the first and second alignment films and further surrounding at least one of the spacers. The spaces maintain a uniform gap between the first and second substrates. The second alignment film is disposed oppositely to the first alignment film and covers the spacers. In one embodiment, sizes of the agglomerates are distributed in a range of 0.1 μm˜2 μm. | 03-19-2015 |
Yi-Hsin Chen, Chu-Nan TW
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20130141676 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device is provided. The liquid crystal display device includes a first substrate having a pixel unit with a pixel electrode. A second substrate has an opposite electrode. A first polarizer is disposed under the first substrate. A second polarizer is disposed above the second substrate. A liquid crystal (LC) layer with chiral dopants is disposed between the first and second substrates. A parameter of the LC rotations of d/p ratios of the liquid crystal layer with chiral dopants is between 0.2 and 0.3. A parameter of the optical phase retardation factor R of the LC layer with chiral dopants is larger than 0.6 and less than 0.95. | 06-06-2013 |
20130286328 | LIQUID-CRYSTAL DISPLAY - An embodiment of a liquid-crystal display is provided which includes: a first substrate having a first pixel electrode, a second pixel electrode, and a third pixel electrode; a second substrate having an opposite electrode, wherein the first pixel electrode, the second pixel electrode and the third pixel electrode, respectively, have a first overlapping area, a second overlapping area and a third overlapping area overlapped with the opposite electrode, and wherein the first overlapping area is smaller than the second overlapping area and the third overlapping area; and a liquid-crystal layer interposed between the first substrate and the second substrate. In addition, another embodiment of a liquid-crystal display is also provided, in which the first pixel electrode, the second pixel electrode and the third pixel electrode have different gaps with the opposite electrode, respectively. | 10-31-2013 |
Ying-Ching Chen, Chu-Nan TW
Patent application number | Description | Published |
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20100271823 | HEAT DISSIPATION DEVICE AND ILLUMINATION DEVICE USING SAME - An exemplary heat dissipation device includes an elongated main body, a number of heat sinks, and a number of airflow channels. The main body has a central axis, and includes a first portion and a second portion. The second portion has an end distant from the first portion which is configured for supporting at least one item selected from the group consisting of a solid-state light source and a circuit board having a solid-state light source mounted thereon. The heat sinks are arranged around the first portion in sequence along the central axis of the main body, and spaced from one another. Each heat sink includes a number of fins extending out from the first portion radially. The airflow channel is defined between each two neighboring heat sinks. | 10-28-2010 |
20110291542 | LED BULB - An LED bulb includes a connector for electrically connecting with a power supply, a heat sink disposed on the connector, and a plurality of LEDs mounted the heat sink. The heat sink includes a base, a tube extending downwardly from a first face of the base, and a plurality of fins extending outwardly from an outer circumference of the tube. The LEDs are attached on a second face of the base. The base defines a plurality of through tunnels extending through the base from the first face to the second face of the base. | 12-01-2011 |
20120038271 | LED BULB AND METHOD FOR MANUFACTURING THE SAME - An LED bulb includes a heat sink, a circuit, an LED, and a driving module. The heat sink includes a base, a tube extending downwardly from a first face of the base, and a plurality of fins extending outwardly from an outer circumference of the tube. The circuit is formed on a second face of the base, and the LED is disposed on the second face of the base and electrically connected with the circuit. The LED bulb further includes a first lead and a second lead electrically connecting with the circuit and extending through the base. The driving module includes a first electrode, and a second electrode electrically insulated from the first electrode and surrounding the first electrode. The first electrode of the driving circuit contacts with the first lead, and the second electrode of the driving circuit contacts with the second lead. | 02-16-2012 |
20120073626 | LIGHT CONCENTRATOR ASSEMBLY AND SOLAR CELL APPARATUS HAVING SAME - A light concentrator assembly includes a first Fresnel lens, a second Fresnel lens, and a compound parabolic concentrator. The first Fresnel lens includes a first flat surface and an opposite first Fresnel lens surface. The second Fresnel lens includes a second flat surface and an opposite second Fresnel lens surface facing the first Fresnel lens surface. A first focal point of the first Fresnel lens and a second focal point of the second Fresnel lens coincide. The compound parabolic concentrator is located opposite the second flat surface. Light beams are converged by the first and second Fresnel lenses, and exit through the compound parabolic concentrator. | 03-29-2012 |
20120073653 | LIGHT CONCENTRATION ELEMENT ASSEMBLY AND SOLAR CELL APPARATUS HAVING SAME - A light concentration element assembly includes a Fresnel lens unit and a compound parabolic concentrator. The Fresnel lens unit includes a first Fresnel lens and a second Fresnel lens arranged parallel with each other, and configured for converging light transmitted therethrough. The compound parabolic concentrator includes at least two paraboloidal reflecting surfaces. The parabolic concentrator includes a light incident opening facing the Fresnel lens unit and a light output opening, and the paraboloidal reflecting surfaces are configured for reflecting the converged light from the Fresnel lens unit and outputting the reflected light through the light output opening. A solar cell apparatus using the light concentration element assembly is provided. | 03-29-2012 |
20120085389 | LIGHT CONCENTRATOR ASSEMBLY AND SOLAR CELL APPARATUS HAVING SAME - A light concentrator assembly includes a Fresnel lens, a plano-concave lens, and a CPC. The CPC is aligned with the Fresnel lens and the plano-concave lens. The Fresnel lens unit is configured for converging parallel light transmitted the Fresnel lens. The plano-concave lens is configured for further concentrating the light from the Fresnel lens before the light converged at a point. The CPC is configured for reflecting and directing the light beams from the plano-concave lens to exit through a light output opening of the CPC. The light concentrator assembly has a large incident acceptance angle. | 04-12-2012 |
20130126714 | LIGHT ENERGY TESTING DEVICE - A light energy testing device includes a light source emitting parallel light, a Fresnel lens concentrating the parallel light, a fiber array consisting of a plurality of optical fibers, and an energy detecting device. Each fiber includes a light incident and emitting surface. The light incident surfaces are coplanar to define a light receiving surface. The light emitting surfaces cooperatively define a light transmitting surface. The energy detecting device includes a plurality of sensor units optically coupled with the light transmitting surface and a testing device connected to the sensor units. The parallel light is focused by the Fresnel lens to irradiate the light receiving surface. The sensor units generate energy signals according to the light from the light transmitting surface. The energy detecting device calculates a light energy distribution according to the energy signals. | 05-23-2013 |
Yu-Heing Chen, Chu-Nan TW
Patent application number | Description | Published |
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20130037794 | PIXEL ARRAY SUBSTRATE AND DETECTING MODULE - A pixel array substrate including a substrate and a plurality of pixel structures is provided. Each pixel structure includes a patterned metal layer, an insulating layer, a patterned semiconductor layer and a data line layer. The patterned metal layer includes a gate line and a common electrode line. The patterned semiconductor layer includes a channel layer and a photosensitive resistance layer. The channel layer is disposed above and overlaps a part of the gate line. The data line layer includes a patterned first data line, a second data line and a third data line. The first and the second data lines are coupled to the channel layer and combine with the channel layer and the gate line to compose an active component. The second and the third data lines are coupled to the photosensitive resistance layer and combine with the photosensitive resistance layer to compose a light detecting component. | 02-14-2013 |
Yu-Ju Chen, Chu-Nan TW
Patent application number | Description | Published |
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20130242247 | LIQUID CRYSTAL DISPLAY DEVICE AND FABRICATION METHOD OF A CONDUCTIVE SUBSTRATE - A liquid crystal display device includes: a first substrate; a second substrate spaced apart from the first substrate; and a plurality of liquid crystal molecules disposed between the first and second substrates. The first substrate includes a transparent substrate, an insulator layer formed on a surface of the transparent substrate and formed with a plurality of grooves, and a pixel electrode formed on a surface of the insulator layer and formed with a plurality of electrode slits. | 09-19-2013 |
20150310811 | DISPLAY PANEL - A display panel is disclosed, which comprises: a first substrate; a second substrate opposite to the first substrate; a liquid crystal layer disposed between the first substrate and the second substrate; a shielding pattern disposed on the second substrate and comprising a first region and a second region, in which a transmittance of the first region is larger than that of the second region; and a first aggregation layer disposed on a side of the first substrate facing to the second substrate, wherein a roughness of the first aggregation layer corresponding to the first region of the shielding pattern is larger than that of the first aggregation layer corresponding to the second region thereof. | 10-29-2015 |
20160054617 | LIQUID CRYSTAL DISPLAY DEVICE AND FABRICATION METHOD OF A CONDUCTIVE SUBSTRATE - A liquid crystal display device includes: a first substrate; a second substrate spaced apart from the first substrate; and a plurality of liquid crystal molecules disposed between the first and second substrates. The first substrate includes a transparent substrate, an insulator layer formed on a surface of the transparent substrate and formed with a plurality of grooves, and a pixel electrode formed on a surface of the insulator layer and formed with a plurality of electrode slits. | 02-25-2016 |
Yung-Wei Chen, Chu-Nan TW
Patent application number | Description | Published |
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20150280078 | WHITE FLIP CHIP LIGHT EMITTING DIODE (FC LED) AND FABRICATION METHOD - A white flip chip light emitting diode (FC LED) includes a flip chip (LED) die configured to emit electromagnetic radiation; reflective sidewalls on the (LED) die; and a wavelength conversion member having a uniform thickness and a surface area greater than or equal to a footprint of the flip chip (LED) die configured to change a wavelength of the electromagnetic radiation to produce white light. A method for fabricating the white flip chip light emitting diode (FC LED) includes the steps of: providing the flip chip (LED) die; forming reflective sidewalls on the flip chip (LED) die; and forming a wavelength conversion member on the flip chip (LED) die. | 10-01-2015 |
Yun-Sheng Chen, Chu-Nan TW
Patent application number | Description | Published |
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20150325634 | DISPLAY DEVICE - A display device is disclosed, which comprises: a first substrate; a first insulating layer disposed on the first substrate; a second insulating layer disposed on the first insulating layer; and a patterned metal layer disposed on the second insulating layer and comprising plural conductive lines, wherein an opening region is located between two adjacent conductive lines to expose the second insulating layer, and a thickness of the second insulating layer under the conductive lines of the patterned metal layer is larger than that exposed from the opening region. | 11-12-2015 |
Yu-Shu Chen, Chu-Nan TW
Patent application number | Description | Published |
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20100290223 | LIGHT SOURCE HOLDER AND BULB USING SAME - A light source holder includes a spherical surface and a number of recessed portions. The recessed portions are defined in the spherical surface and arranged substantially evenly over the spherical surface. Each of the recessed portions comprises a plurality of inner surfaces. The inner surface of each recessed portion comprises a bottom surface and a lateral reflective surface. The bottom surface is capable of having a solid-state light source arranged thereon. The lateral reflective surface is adjacent to the bottom surface and configured for reflecting light emitted from the solid-state light source and outputting the light from the recessed portion. | 11-18-2010 |
20110019407 | REFLECTING COVER AND ILLUMINATION DEVICE USING THE SAME - A reflecting cover includes a first reflective plate, a second reflective plate and a plurality of side reflective plates. The first reflective plate and the second reflective plate are perpendicular to the X-Z plane. The side reflective plates are perpendicular to the X-Y plane. The side reflective plates are located between the first reflective plate and the second reflective plate. The first reflective plate and the second reflective plate inclined toward each other. A plurality of LEDs is received in the reflecting cover and adjacent to the first reflective plate and the second reflective plate. A part of the emission of the LEDs is blocked and reflected by the first reflective plate and the second reflective plate and portions of the side reflective plates adjacent to the first and second reflective plates. | 01-27-2011 |
20110041916 | LENS WITH A DETERMINED PITCH - A non-imaging lens includes a transparent member, a conical protrusion, and a plurality of annular protrusions. The transparent member includes a first surface and a second surface. The first surface and the second surface are planar. The conical protrusion is defined on the first surface of the transparent member. The annular protrusions are concentrically defined on the first surface around the conical protrusion. Each of cross-sections of the annular protrusions approximately forms a right triangle. Each of the triangles includes a first angle, a second angle, a bottom surface, a first surface and a second surface. The first angle exceeds the second angle. The first angle is less than or equal to 90°. The second angles increase in turn outwards from the conical protrusion. The width of the bottom surface is equal to the radius of the conical protrusion. | 02-24-2011 |
20110061721 | LENS WITH INCREASING PITCHES - A non-imaging lens includes a transparent member, a conical protrusion and a plurality of annular protrusions. The transparent member includes a first surface and a second surface. The first surface and the second surface are planar. The conical protrusion is defined on the first surface. The annular protrusions are concentrically defined on the first surface around the conical protrusion. Each of cross-sections of the annular protrusions approximately forms a right-angled triangle. The triangle includes a first angle, a second angle, a bottom surface, a first surface and a second surface. The first angle exceeds the second angle. The first angle is less than or equal to 90°. The bottom surfaces of the triangles increase in turn outwards from the conical protrusion. | 03-17-2011 |
20110157726 | LENS WITH MULTIPLE PROTRUSIONS - A non-imaging lens includes a transparent member, a first Fresnel lens portion and a second Fresnel lens portion. The transparent member includes a first surface and a second surface. The first Fresnel lens portion includes a plurality of first saw-toothed protrusions concentrically defined on the first surface. The second Fresnel lens portion includes a plurality of second saw-toothed protrusions concentrically defined on the first surface. The second saw-toothed protrusions are defined around the first saw-toothed protrusions. Each of radii of curvature of the second saw-toothed protrusions is different from each of radii of curvature of the first saw-toothed protrusions. | 06-30-2011 |
20120037936 | LED PACKAGE - A LED package includes a substrate, at least one LED chip, a transparent adhesive and a lens. The at least one LED chip is mounted on the substrate. The transparent adhesive is filled between the LED chip and the lens. A number of through holes is regularly defined in an optical non-effective portion of the lens. The through holes are configured for increasing the air convection between inside and outside of the lens. | 02-16-2012 |
20120038260 | LAMP ENVELOPE AND LED LAMP USING THE SAME - An LED lamp includes a lamp holder, a heat sink, a light source and an envelope. The lamp holder is configured for electrically connecting with a power source. The heat sink is connected to the lamp holder. The light source is mounted on the heat sink. The envelope is mounted on the heat sink and covers the light source. The envelope has a light incident surface and a light output surface opposite to the light incident surface. A plurality of lens are formed on the lamp envelope and configured for collecting light rays generated by the light source. | 02-16-2012 |
20120073626 | LIGHT CONCENTRATOR ASSEMBLY AND SOLAR CELL APPARATUS HAVING SAME - A light concentrator assembly includes a first Fresnel lens, a second Fresnel lens, and a compound parabolic concentrator. The first Fresnel lens includes a first flat surface and an opposite first Fresnel lens surface. The second Fresnel lens includes a second flat surface and an opposite second Fresnel lens surface facing the first Fresnel lens surface. A first focal point of the first Fresnel lens and a second focal point of the second Fresnel lens coincide. The compound parabolic concentrator is located opposite the second flat surface. Light beams are converged by the first and second Fresnel lenses, and exit through the compound parabolic concentrator. | 03-29-2012 |
20120073653 | LIGHT CONCENTRATION ELEMENT ASSEMBLY AND SOLAR CELL APPARATUS HAVING SAME - A light concentration element assembly includes a Fresnel lens unit and a compound parabolic concentrator. The Fresnel lens unit includes a first Fresnel lens and a second Fresnel lens arranged parallel with each other, and configured for converging light transmitted therethrough. The compound parabolic concentrator includes at least two paraboloidal reflecting surfaces. The parabolic concentrator includes a light incident opening facing the Fresnel lens unit and a light output opening, and the paraboloidal reflecting surfaces are configured for reflecting the converged light from the Fresnel lens unit and outputting the reflected light through the light output opening. A solar cell apparatus using the light concentration element assembly is provided. | 03-29-2012 |
20120085389 | LIGHT CONCENTRATOR ASSEMBLY AND SOLAR CELL APPARATUS HAVING SAME - A light concentrator assembly includes a Fresnel lens, a plano-concave lens, and a CPC. The CPC is aligned with the Fresnel lens and the plano-concave lens. The Fresnel lens unit is configured for converging parallel light transmitted the Fresnel lens. The plano-concave lens is configured for further concentrating the light from the Fresnel lens before the light converged at a point. The CPC is configured for reflecting and directing the light beams from the plano-concave lens to exit through a light output opening of the CPC. The light concentrator assembly has a large incident acceptance angle. | 04-12-2012 |
20130126714 | LIGHT ENERGY TESTING DEVICE - A light energy testing device includes a light source emitting parallel light, a Fresnel lens concentrating the parallel light, a fiber array consisting of a plurality of optical fibers, and an energy detecting device. Each fiber includes a light incident and emitting surface. The light incident surfaces are coplanar to define a light receiving surface. The light emitting surfaces cooperatively define a light transmitting surface. The energy detecting device includes a plurality of sensor units optically coupled with the light transmitting surface and a testing device connected to the sensor units. The parallel light is focused by the Fresnel lens to irradiate the light receiving surface. The sensor units generate energy signals according to the light from the light transmitting surface. The energy detecting device calculates a light energy distribution according to the energy signals. | 05-23-2013 |
Yu-Wei Chen, Chu-Nan TW
Patent application number | Description | Published |
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20130154911 | DISPLAY DEVICE AND ELECTRONIC DEVICE - A display device includes a first, second and third sub-pixel areas allowing light of a first, second and third main wavelengths transmitting therethrough, respectively. The first, second and third sub-pixel areas have first, second and third ratios of first, second and third electrode widths to first, second and third electrode slits of first, second and third interdigitated electrodes, respectively. When the first main wavelength is larger than the second main wavelength and the second main wavelength is larger than the third main wavelength, a difference between any two of the first, second and third ratios is less than 0.2. A first electrode slit of the first interdigitated electrode is smaller than the second electrode slit of the second interdigitated electrode, and the second electrode slit of the second interdigitated electrode is smaller than the third electrode slit of the third interdigitated electrode. | 06-20-2013 |
20130265535 | LIQUID CRYSTAL DISPLAY PANEL AND PIXEL ELECTRODE STRUCTURE THEREOF - A pixel electrode structure including a first electrode and a second electrode is provided. The first electrode has a first stripe electrode extended along a first direction and pleural first branch electrodes connected to the first strip electrode. The first branch electrodes include pleural first branch domain electrodes extended along a second direction and pleural second branch domain electrodes extended along a third direction substantially perpendicular to the second direction. The second electrode has a second stripe electrode extended along the first direction and pleural second branch electrodes connected to the second stripe electrode. The second branch electrodes include pleural third branch domain electrodes extended along the second direction and pleural fourth branch domain electrodes extended along the third direction. The first and the third branch domain electrodes are alternated to each other. The second and the fourth branch domain electrodes are alternated to each other. | 10-10-2013 |
20130271681 | PIXEL STRUCTURE AND LIQUID CRYSTAL DISPLAY STRUCTURE USING THE SAME - A pixel structure including a substrate, a first dielectric layer and a second dielectric layer is provided. A signal line and a pixel electrode are disposed on the substrate. The first dielectric layer covers the signal line and has a first capacitance. The second dielectric layer is disposed on the substrate, and covers the pixel electrode. The second dielectric layer has a second capacitance larger than the first capacitance. | 10-17-2013 |
20150309378 | PIXEL STRUCTURE AND LIQUID CRYSTAL DISPLAY STRUCTURE USING THE SAME - A pixel structure substrate including a substrate, a first dielectric layer and a second dielectric layer is provided. A data line and a first electrode are disposed on the substrate. The first dielectric layer directly covers the data line. The second dielectric layer covers the first electrode and the first dielectric layer. A thickness of the second dielectric layer is smaller than a thickness of the first dielectric layer, and the following equation is satisfied | 10-29-2015 |