Xiaoxing
Xiaoxing Cao, Guangdong CN
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20150041303 | NOVEL ITO CROSSOVER INTEGRATED CAPACITIVE TOUCH SCREEN AND MANUFACTURING METHOD THEREOF - Disclosed are a novel ITO crossover integrated capacitive touch screen and a manufacturing method thereof. The novel ITO crossover integrated capacitive touch screen comprises a transparent substrate, and a silicon dioxide layer, a niobium pentoxide layer, a black resin layer, an ITO crossover electrode, a first insulation layer, an ITO electrode, a metal electrode, and a second insulation layer sequentially stacked on the transparent substrate. The silicon dioxide layer covers the glass completely, and the niobium pentoxide layer covers the silicon dioxide layer completely. The ITO electrode comprises a capacitive screen driver and a sensing electrode, and is provided with a patterned graphic structure. The capacitive screen driver and the sensing electrode are on the same layer, mutually independent, mutually insulated, and vertical in design. By the reasonable design for the stacked structure and the crossover conductive mode of the capacitive touch screen, the present invention can effectively improve the transmittance of the capacitive touch screen and reduce the visibility of the ITO pattern, and the reliability of the touch screen is further improved. novel ITO crossover integrated capacitive touch screen. | 02-12-2015 |
20150234494 | NON-OVERLAPPED INTEGRAL CAPACITIVE TOUCH SCREEN WITH ITO (INDIUM TIN OXIDE) LAYER AND MANUFACTURING METHOD THEREOF - Disclosed are a non-overlapped integral capacitive touch screen with an ITO (indium tin oxide) layer and the manufacturing method thereof. The non-overlapped integral capacitive touch screen with the ITO layer comprises a transparent substrate, and a silicon dioxide layer, a niobium pentoxide layer, a black resin layer, ITO electrodes and an insulating layer sequentially laminated on the transparent substrate. The silicon dioxide layer convers the transparent substrate completely, and the niobium pentoxide layer covers the silicon dioxide layer completely. The ITO electrodes are horizontally or vertically conductive electrodes having regular graphic structures. The ITO electrodes include the first ITO conductive electrode and the second ITO conductive electrode, and the first ITO conductive electrode and the second ITO conductive electrode are positioned on the same plane, independent and insulated mutually and are staggered. The transparent substrate comprises a windowing region and a non-windowing region, and the black resin layer covers the non-windowing region of a display screen. Since the laminated structure of the capacitive touch screen is designed reasonably, transmittance of the capacitive touch screen is improved effectively, visibility of ITO graphics is lowered, and reliability of the touch screen is improved further. | 08-20-2015 |
Xiaoxing Guo, Valenciennes FR
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20130131856 | PRODUCTION CONTROL METHOD AND DEVICE FOR CHECKING THE TRAVERSABILITY OF PIPES - A device for checking steel pipes during production and to a method using the device. The device includes a station for acquiring measurement data representative of physical measurements of the geometry of a pipe taken on an outside thereof, and a computer system configured to store template data applicable in a coordinate system and representative of overall geometry of a sizing body. In a chosen coordinate system, the system then provides a three-dimensional representation of parts of the pipe. For each part of the pipe, the system is referenced to determine a critical parameter, representative of the margin of passage of the sizing body inside a chosen part of the pipe. The method and device may thus establish a diagnostic of traversability of the pipe by a sizing body. | 05-23-2013 |
Xiaoxing Li, San Jose, CA US
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20150350548 | Video Image Stabilization - Techniques to permit a digital image capture device to stabilize a video stream in real-time (during video capture operations) are presented. In general, techniques are disclosed for stabilizing video images using an overscan region and a look-ahead technique enabled by buffering a number of video input frames before generating a first stabilized video output frame. (Capturing a larger image than is displayed creates a buffer of pixels around the edge of an image; overscan is the term given to this buffer of pixels.) More particularly, techniques are disclosed for buffering an initial number of input frames so that a “current” frame can use motion data from both “past” and “future” frames to adjust the strength of a stabilization metric value so as to keep the current frame within its overscan. This look-ahead and look-behind capability permits a smoother stabilizing regime with fewer abrupt adjustments. | 12-03-2015 |
Xiaoxing Ma, Shanghai CN
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20140013825 | TESTING APPARATUS FOR TESTING AIR PERMEABILITY ON THICKNESS DIRECTION OF PLASTIC MATRIX, AND METHOD THEREFOR - An apparatus for testing the air permeability in the thickness direction of a resin matrix composite material layer includes a mold having a cavity and a covering plate, a loading apparatus, a temperature controlling apparatus, a vacuuming apparatus, and a flow detecting element. An air inlet is connected to the flow detecting element, and an air outlet is connected to the vacuuming apparatus. The covering plate has a through-hole with upper and lower ventilation pieces. The loading apparatus addresses the upper ventilation piece. A test specimen is laid flat between the ventilation pieces. Employment of the present invention allows for accurate testing of air permeability of pre-impregnated material in the thickness direction of the resin matrix composite material layer under different pressure and temperature conditions. | 01-16-2014 |
20140013826 | TESTING APPARATUS FOR TESTING GAS PERMEABILITY ON THICKNESS DIRECTION OF PLASTIC MATRIX - An apparatus for testing the gas permeability on the inward facing direction of a pre-impregnated resin matrix composite material layer includes a mold, a loading apparatus, a temperature control apparatus, a vacuuming apparatus, and a flow detecting element. A test specimen is laid flat inside the mold between airtight sealing elements that leave exposed two ends of the test specimen on the inward facing direction of the layer. An air inlet and an air outlet respectively are arranged on the mold and correspond to the two exposed ends of the test specimen. The inlet is connected to the flow detecting element, and the outlet is connected to the vacuuming apparatus. Air is forced to move in a vacuumed cavity along the inward facing direction of the layer. Testing of air permeability of pre-impregnated material in solidification technique is allowed via adjustments of pressure and temperature. | 01-16-2014 |
Xiaoxing Zhang, Tianjin CN
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20150084652 | Module and Capacitance Detecting Method - A capacitance detecting circuit includes a constant current source supplying a constant current to a voltage detection point, a time measuring unit measuring time of charge until the voltage of the voltage detection point reaches a prescribed voltage, a storage unit and an operation unit. The storage unit stores first data obtained in advance concerning the time of charge of a capacitance element having a known capacitance value, and second data obtained in advance concerning the time of charge of a capacitance component. The operation unit generates third data representing the time of charge of an object of detection from a difference between the first measurement value of the time measuring unit when the capacitance component is connected to the voltage detection point and the second data, and based on the ratio between the third data and the first data and the known capacitance value, calculates the capacitance value of the object of detection. | 03-26-2015 |