Han-Ming
Han-Ming Chen, Taipei TW
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20090211047 | BRUSH STRUCTURE AND A BRISTLE STRUCTURE THEREOF PROVIDING A HIGHLY EFFECTIVE CLEANING ABILITY - A brush structure and a bristle structure thereof are disclosed. The brush structure comprises a brush body and a bristle structure. The bristle structure is set up on the brush body and includes a plurality of bristles. Each bristle has a cleaning structure set up at the free end of the bristle. The cleaning structure comprises a plurality of cleaning units. Each cleaning unit has a near end and a far end relative to the position of the brush body, and the diameter of the near end is larger than the diameter of the far end. A circular fillister is formed between each two neighboring cleaning units. Hence, the bristle structure is able to scrape and take away the crud from the surface of a cleaned object easily. It is also easy to wash the jammed crud out of the circular fillisters. Moreover, the average cross-section area of the cleaning units is smaller than that of the other part of the bristle, and thereby the free end of the bristle is soft and not easily harm the surface of the cleaned object. | 08-27-2009 |
Han-Ming Chen, Tainan City TW
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20130335345 | TOUCH DISPLAY DEVICE - A touch display device includes a transparent substrate, a light-blocking frame layer and a transparent protecting layer. The transparent substrate includes a frame area and a visual area. The light-blocking frame layer is disposed above the frame area of the transparent substrate. The transparent protecting layer is disposed above the transparent substrate and the light-blocking frame layer, and includes a gap having a projection on the transparent substrate, wherein the projection of the gap has one of conditions of at least partially overlapping the light-blocking frame layer and being located at a distance less than 2 millimeters from the light-blocking frame layer. | 12-19-2013 |
20140152909 | TOUCH PANEL AND MANUFACTURING METHOD THEREOF - The present invention provides a touch panel including a substrate, a patterned transparent conductive layer, and a color compensation layer. The patterned transparent conductive layer is disposed on the substrate, and includes a plurality of first sensing pads and a plurality of second sensing pads, and each first sensing pad and each sensing pad adjacent thereto have a first gap between them that exposing the substrate. The color compensation layer is disposed on the substrate in the first gap, and is not in contact with the patterned transparent conductive layer. | 06-05-2014 |
20140182888 | TOUCH PANEL - A touch panel has a substrate on which a first conductive layer, an insulating layer, a second conductive layer and a protective layer are formed in order. The second conductive layer and the first conductive layer form a touch-sensing area. The protective layer and the substrate have the same refractive index; and the first conductive layer, the insulating layer and the second conductive layer have the same refractive index so that the whole layered structure substantially has a symmetrical distribution of refractive indices, and leading to having optical characteristics of high transmittance and low reflectance. | 07-03-2014 |
20150049047 | TOUCH UNIT AND FLAT PANEL DISPLAY - In a flat panel display, two direction sensing electrodes, respectively representing an X-axis sensor and a Y-axis sensor, are disposed on both sides of a substrate of a color filter of the flat panel display. One direction sensing electrode is disposed in the black matrix on one side of the substrate and the other direction sensing electrode is disposed on the other side of the substrate locating farther from the black matrix. The configuration provides a much thinner dimension for the flat panel display with touch function while the touch function is less interfered by the display panel. | 02-19-2015 |
Han-Ming Chen, Hsinchu TW
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20140125632 | OPTICAL TOUCH DISPLAY PANEL - An optical touch display panel includes a plurality of resetting signal lines, a plurality of scanning signal lines, and a plurality of optical sensing touch units. Each optical sensing touch unit includes an optical sensing element and a storage capacitor. The optical sensing elements in a first direction are connected electrically to different scanning signal lines, and are configured to respectively receive a control signal. The optical sensing elements in a second direction includes a plurality of groups, and the optical sensing elements of each group are connected electrically to different resetting signal lines, so that each group receives a reset signal. Each optical sensing element outputs a charging signal corresponding to the reset signal to the storage capacitor according to the control signal, so as to reset a voltage of the storage capacitor. | 05-08-2014 |
Han-Ming Chen, Hsin-Chu TW
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20150062076 | SUBSTRATE WITH TOUCH FUNCTION AND DISPLAY USING THE SAME - A substrate with touch function includes a plurality of scan lines and at least a touch device disposed thereon. The touch device includes at least a power line, at least a readout line, a light sensing circuit and a voltage divider circuit. The power line and the readout line are disposed on the substrate. The light sensing circuit is electrically coupled to a (N+1)th of the power lines, an Nth of the scan lines and an Nth of the readout lines, wherein N is an integer. The voltage divider circuit has an output terminal and is configured to output a first voltage to the light sensing circuit through the output terminal thereof according to a degree of illumination thereon or a degree of capacitance change. A display using the aforementioned substrate is also provided. | 03-05-2015 |
Han-Ming Hsieh, Hsin Chu City TW
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20140278213 | Overlay Sampling Methodology - One embodiment relates to a method to achieve enhanced overlay control while maintaining manufacturing throughput for a fabrication process. Locations of a plurality of alignment structures on a wafer comprising a plurality of reticle fields are determined with a layout tool to define a layout-based wafer map. The topography of the wafer is then measured as a function of wafer position by a surface measuring tool. The layout-based wafer map is then projected onto the measured wafer topography to define a modeled wafer map. A subset of alignment structure locations are measured with an alignment tool in an in-line fabrication flow so as not to delay subsequent fabrication steps. Disagreement between the measured alignment structure locations and modeled alignment structure locations is then minimized mathematically to enhance overlay control while maintaining manufacturing throughput. | 09-18-2014 |
Han-Ming Wu, Pingjhen City TW
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20110124203 | Method of forming a gate insulator in group III-V nitride semiconductor devices - A method of forming a gate insulator in the manufacture of a semiconductor device comprises conducting a photo-assisted electrochemical process to form a gate-insulating layer on a gallium nitride layer of the semiconductor device, wherein the gate-insulating layer includes gallium oxynitride and gallium oxide, and performing a rapid thermal annealing process. The photo-assisted electrochemical process uses an electrolyte bath including buffered CH3COOH at a pH between about 5.5 and 7.5. The rapid thermal annealing process is conducted in O2 environment at a temperature between about 500° C. and 800° C. | 05-26-2011 |