Patent application number | Description | Published |
20120061661 | SEMICONDUCTOR STRUCTURE AND FABRICATING METHOD THEREOF - A semiconductor structure and a fabricating method thereof are provided. The fabricating method includes forming a gate, a source, and a drain on a substrate and forming an oxide semiconductor material between the gate and the source and drain. The oxide semiconductor material is formed by performing a deposition process, and nitrogen gas is introduced before the deposition process is completely performed, so as to form oxide semiconductor nitride on the oxide semiconductor material. | 03-15-2012 |
20120105401 | ELECTRONIC DEVICE - An electronic device including a display unit and a photoelectric conversion board is provided. The display unit includes a display surface and a back surface which are opposite to each other, and an edge of the photoelectric conversion board is rotatably connected to the back surface of the display unit. The photoelectric conversion board includes a substrate, a first photoelectric conversion unit, and a second photoelectric conversion unit. The substrate has a first surface and a second surface which are opposite to each other, the first photoelectric conversion unit is disposed on the first surface, the second photoelectric conversion unit is disposed on the second surface, and an absorption band of the first photoelectric conversion unit is different from an absorption band of the second photoelectric conversion unit. | 05-03-2012 |
20120205646 | DISPLAY WITH PHOTO SENSOR AND MANUFACTURING METHOD THEREOF - A display with a photo sensor is provided, wherein the photo sensor is integrated with an active device array substrate of the display and fabricated through an existing process to reduce the manufacturing cost. A photosensitive silicon-rich dielectric layer or any other photosensitive material layer having similar photosensitive characteristics (for example, a photosensitive semiconductor layer) is adopted to form the photo sensor with a lower electrode and a transparent upper electrode. Thereby, the fill factor of the photo sensor is maximized and noises caused by a backlight source electrode are eliminated. | 08-16-2012 |
20120267621 | THIN FILM TRANSISTOR AND FABRICATION METHOD THEREOF - A thin film transistor is provided. The thin film transistor includes a substrate, a gate, a gate insulating layer, a source and a drain, a channel layer, and first and second patterned passivation layers. The gate is disposed on the substrate. The gate insulating layer is disposed on the gate. The source and the drain are disposed on the gate insulating layer. The channel layer is disposed above or under the source and the drain, wherein a portion of the channel layer is exposed between the source and the drain. The first patterned passivation layer is disposed on the portion of the channel layer, wherein the first patterned passivation layer includes metal oxide, and the first patterned passivation layer has a thickness ranging from 50 angstroms to 300 angstroms. The second patterned passivation layer covers the first patterned passivation layer, the gate insulating layer, and the source and the drain. | 10-25-2012 |
20120274263 | POWER MANAGEMENT SYSTEM AND METHOD THEREOF - A system for power management electrically connected to a solar cell is provided. The system for power management includes a photo-sensor, a controller electrically connected to the photo-sensor, and a power manager. The photo-sensor detects an illumination (illuminance or irradiance) of an environment where the solar cell is located. A look-up table of illumination vs. maximum output power is built in the controller, wherein a corresponding maximum output power is determined by the controller according to the illumination detected by the photo-sensor. The power manager is electrically connected to the controller and the solar cell. The power manager controls the output current of the solar cell so as to equalize an output power of solar cell and the corresponding maximum output power. A method for power management is also provided. | 11-01-2012 |
20130100070 | STYLUS, TOUCH SENSITIVE DISPLAY SYSTEM AND TOUCH SENSITIVE DISPLAY METHOD - A stylus, a touch sensitive display system, and a touch sensitive display method are provided. A pressure sensing material is disposed in the stylus for sensing a force exerted by a user and feeding the force back to a touch sensitive display panel, so as to adjust an appearance of a display image (e.g., a width of a line or a gray level of the line) and provide diverse touch sensitive display effects. | 04-25-2013 |
20130107533 | THREE-DIMENSIONAL DISPLAY DEVICE | 05-02-2013 |
20130270618 | TOUCH PANEL AND FABRICATING METHOD THEREOF - A touch panel and fabricating method thereof are provided. The patterned transparent conductive layer, disposed on the substrate, includes first electrodes. The photo-sensing layers are disposed on the first electrodes. The first patterned conductive layer includes gate electrodes, scan lines and second electrodes. The gate electrodes and the scan lines are disposed on the substrate. The second electrodes are disposed on the photo-sensing layers. The first electrodes, the photo-sensing layers and the second electrodes constitute photo-sensors. The second patterned conductive layer includes source electrodes and drain electrodes, wherein the gate electrodes, the channel layers, the source electrodes and the drain electrodes constitute read-out transistors and each of the read-out transistors is electrically connected to the corresponding photo-sensor respectively. | 10-17-2013 |
Patent application number | Description | Published |
20120080951 | POWER SOURCE CIRCUIT AND POWER SOURCE MANAGEMENT METHOD THEREOF - A power source circuit includes a power source detection unit, a control unit and a switch unit. The power source detection unit detects whether a plurality of power sources including a green power source is supplied to the power source circuit, and detects and outputting a power value of the green power source. In addition, the control unit is electrically coupled to the power source detection unit and a load, and the control unit further detects a power consumption value of the load, to generate a switch signal to the switch unit according to the power consumption value of the load and a result detected by the power source detection unit. Therefore, the switch unit selects the green power source and at least one of other power sources thereof to supply electric power to the load when necessary. | 04-05-2012 |
20120105780 | LIQUID CRYSTAL DISPLAY INTEGRATED WITH SOLAR CELL MODULE - The present invention provides a liquid crystal display integrated with a solar cell module, which includes a first transparent substrate, a second transparent substrate, a cholesteric liquid crystal layer, a third transparent substrate, and a photoelectric conversion layer. The second transparent substrate is disposed on a side of the first transparent substrate, and the cholesteric liquid crystal layer is disposed between the first transparent substrate and the second transparent substrate. The third transparent substrate is disposed on the other side of the first transparent substrate opposite to the second transparent substrate, and the photoelectric conversion layer is adhered between the first transparent substrate and the third transparent substrate. The first transparent substrate, the photoelectric conversion layer and the third transparent substrate constitute the solar cell module. | 05-03-2012 |
20120132914 | OXIDE SEMICONDUCTOR THIN FILM TRANSISTOR STRUCTURE AND METHOD OF MAKING THE SAME - An oxide semiconductor thin film transistor structure includes a substrate, a gate electrode disposed on the substrate, a semiconductor insulating layer disposed on the substrate and the gate electrode, an oxide semiconductor layer disposed on the semiconductor insulating layer, a patterned semiconductor layer disposed on the oxide semiconductor layer, and a source electrode and a drain electrode respectively disposed on the patterned semiconductor layer. The source electrode and the drain electrode are made of a metal layer. | 05-31-2012 |
20130010409 | Electronic Apparatus and Display Thereof - An electronic apparatus and a display thereof are disclosed. The display includes a back plate, a photoelectric converting module, and a display module. The back plate has an inner surface and an open is formed on the back plate. The back plate has an inner edge around the open. The inner edge is concave toward the direction back to inner surface to form a supporting part. The photoelectric converting module is disposed on the supporting part without protruding out of the inner surface. The photoelectric converting module has a light-receiving surface exposed to the open. The display module is disposed on the inner surface of the back plate and the display module covers the photoelectric converting module. The display module has a display surface back to the photoelectric converting module. | 01-10-2013 |
20130044093 | DISPLAY AND METHOD OF DETERMINING A POSITION OF AN OBJECT APPLIED TO A THREE-DIMENSIONAL INTERACTIVE DISPLAY - A display includes a backlight source, display panel, first light source, and controller. The display panel includes a sensor array for sensing first reflection light generated from an object reflecting first detection light. The first detection light is generated by the backlight source for locating a coordinate of a projection point of the object on the display panel. The first light source is disposed in a first side of the display panel, for repeatedly transmitting second detection light of different transmitting angles to the object at different time to generate a second reflection light. The second reflection light is sensed by the sensor array. The controller is for performing a corresponding operation according to a transmitting angle of the first light source and the coordinate of the projection point when brightness value of the reflective light is substantially greater than a predict value. | 02-21-2013 |
20130092231 | PHOTOVOLTAIC PACKAGE - A photovoltaic package includes a substrate, a photovoltaic cell, an electric device, a cover, and an encapsulating material. The photovoltaic cell is disposed on the substrate. The electric device is disposed on the substrate and is electrically connected to the photovoltaic cell. The cover covers the substrate, the photovoltaic cell, and the electric device. The cover has a first depression formed therein. The first depression receives at least a portion of the electric device. The encapsulating material is located between the substrate and the cover. The encapsulating material at least partially encapsulates the photovoltaic cell and the electric device. | 04-18-2013 |
20130100079 | TOUCH DISPLAY DEVICE - A touch display device includes a first substrate, a second substrate, a plurality of sub-pixel regions, a plurality of display devices, a plurality of first optical touch sensor device and second optical touch sensor devices. The first substrate and the second substrate are disposed oppositely. The display devices are disposed in the sub-pixel regions, respectively, to provide images for a first display surface and a second display surface. The first optical touch sensor devices are disposed on the first substrate and at least corresponding to part of the sub-pixel regions for implementing touch input function on the first display surface. The second optical touch sensor devices are disposed on the first substrate and at least corresponding to part of the sub-pixel regions for implementing touch input function on the second display surface. | 04-25-2013 |
20130155057 | THREE-DIMENSIONAL INTERACTIVE DISPLAY APPARATUS AND OPERATION METHOD USING THE SAME - A three-dimensional interactive display apparatus includes a display panel, two light source generators and a processing circuit. The two light source generator generators are configured to respectively emit two lights according to a predetermined sequence, and emission periods of the two second light source generators are configured to not overlap. The processing circuit is configured to sequentially obtain a plurality of images through sensing the two lights by a plurality light sensors, determine the corresponding light source generator of each one image according to the predetermined sequence, and further determine position information of the corresponding light source generator according to image information of the one image. An operation method of the aforementioned three-dimensional interactive display apparatus is also provided. | 06-20-2013 |
20130169596 | THREE-DIMENSIONAL INTERACTION DISPLAY AND OPERATION METHOD THEREOF - A three-dimensional interaction display includes a display panel having a plurality of light sensing devices, a first light emitting device, a second light emitting device, and a processing circuit. The first light emitting device includes a first light emitting surface including a first pattern, and the first pattern includes a first shape boundary having a first total length. The second light emitting device includes a second light emitting surface including a second pattern, and the second pattern includes a second shape boundary having a second total length. The processing circuit is electrically connected to the plurality of light sensing devices for processing an image obtained by the light sensing devices, calculating the total length of the shape boundary of each of the patterns shown in the obtained image, and determining the corresponding light emitting device according to the total length of the shape boundary of each of the patterns. | 07-04-2013 |
20130284230 | SOLAR CELL MODULE, ELECTRONIC DEVICE HAVING THE SAME, AND MANUFACTURING METHOD FOR SOLAR CELL - A solar cell module is provided and includes a first solar cell and a second solar cell. The first solar cell includes a first metal substrate, a first photoelectric conversion layer, a first top electrode layer, a first P-N junction semiconductor, and a first bottom electrode layer. The second solar cell includes a second metal substrate, a second photoelectric conversion layer, a second top electrode layer, a second P-N junction semiconductor, and a second bottom electrode layer. The first photoelectric conversion layer and the first P-N junction semiconductor are respectively located on two opposite sides of the first metal substrate. The second photoelectric conversion layer and the second P-N junction semiconductor are respectively located on two opposite sides of the second metal substrate. The second bottom electrode layer is located on the second P-N junction semiconductor, and is electrically coupled to the first metal substrate. | 10-31-2013 |
20130285636 | POWER TRACKING DEVICE AND POWER TRACKING METHOD - A power tracking device and a power tracking method is disclosed herein. The power tracking device includes a power voltage setting circuit, a switch, a switching signal circuit, and a voltage memory circuit. The switching signal circuit is configured for sending a first control signal to the switch. When the switch receives the first control signal and electrically isolates the power source and the power voltage setting circuit, the voltage memory circuit stores an open circuit voltage of the power source and sends a setting voltage relative to the open circuit voltage, and when the switch receives the first control signal and electrically connects the power source and the power voltage setting circuit, the power voltage setting circuit sets an output voltage of the power source to correspond with the setting voltage. | 10-31-2013 |
20130293011 | SOLAR POWER SYSTEM, SOLAR CELL MODULE AND POWER PROVIDING METHOD THEREOF - A solar power system includes a solar cell module, a main system and at least one sub system. The solar cell module includes at least one first solar cell unit and one second solar cell unit coupled in series. The first solar cell unit is configured to have an available maximum output current greater than that of the second solar cell unit. The main system is electrically coupled to the solar cell module and simultaneously supplied with electrical power by the first solar cell unit and the second solar cell unit both. The at least one sub system is electrically coupled to the solar cell module and supplied with electrical power by the first solar cell unit only. A solar cell module and a power providing method thereof are also provided. | 11-07-2013 |
20140092068 | OPTICAL TOUCH PANEL AND BRIGHTNESS CONTROL METHOD THEREOF - An optical touch panel includes a light source unit and a processing unit, wherein the processing unit is for executing a brightness control method. The brightness control method includes steps below. The light source unit emits at a first intensity in a touch control mode. Responding to a switching condition, the touch panel is switched into a scan mode, and the light source unit emits at a second intensity in the scan mode. | 04-03-2014 |