Patent application number | Description | Published |
20100013004 | RECESSED CHANNEL TRANSISTOR AND METHOD FOR PREPARING THE SAME - A recessed channel transistor comprises a semiconductor substrate having a trench isolation structure, a gate structure having a lower block in the semiconductor substrate and an upper block on the semiconductor substrate, two doped regions positioned at two sides of the upper block and above the lower block, and an insulation spacer positioned at a sidewall of the upper block and having a bottom end sandwiched between the upper block and the doped regions. In particular, the two doped regions serves as the source and drain regions, respectively, and the lower block of the gate structure serves as the recessed gate of the recessed channel transistor. | 01-21-2010 |
20120256275 | METAL GATE STRUCTURE AND MANUFACTURING METHOD THEREOF - A manufacturing method of a metal gate structure includes first providing a substrate having a dummy gate formed thereon. The dummy gate includes a high-K gate dielectric layer, a bottom barrier layer, a first etch stop layer and a sacrificial layer sequentially and upwardly stacked on the substrate. Then, the sacrificial layer is removed to form a gate trench with the first etch stop layer exposed on the bottom of the gate trench. After forming the gate trench, a first work function metal layer is formed in the gate trench. | 10-11-2012 |
20130009288 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a semiconductor device is disclosed. The method includes the steps of: providing a substrate; forming a dielectric layer on the substrate, wherein the dielectric layer comprises metal interconnects therein; forming a top metal layer on the dielectric layer; and forming a passivation layer on the top metal layer through high-density plasma chemical vapor deposition (HDPCVD) process. | 01-10-2013 |
Patent application number | Description | Published |
20090022881 | ELECTRON-EMITTING DEVICE AND FABRICATING METHOD THEREOF - An electron-emitting device and a fabricating method thereof are provided. First, a substrate, having a first side and a second side which is opposite to the first side, is provided. Afterwards, a first electrode pattern layer is formed on the first side of the substrate. Next, a conductive pattern layer is formed on the substrate and the first electrode pattern layer. After that, an electron-emitting region is formed in the conductive pattern layer. Then, a second electrode pattern layer is formed on the second side of the substrate and partially covers the conductive pattern layer. The fabricating method has a simple fabricating process and a low fabricating cost. | 01-22-2009 |
20100216366 | FABRICATING METHOD OF ELECTRON-EMITTING DEVICE - A fabricating method of an electron-emitting device is provided. The fabricating method of the electron-emitting device includes at least following procedures. Firstly, a substrate is provided. Next, a first electrode and a second electrode are formed on the substrate. Afterward, a conductive layer covering the first electrode and the second electrode is formed on the substrate. Then, a first conductive layer, a second conductive layer and a gap are formed by patterning the conductive layer. The gap is disposed between the first conductive layer and the second conductive layer. After that, a plasma process is performed at the first conductive layer and second conductive layer. | 08-26-2010 |
20110229630 | FABRICATING METHOD OF ELECTRON-EMITTING DEVICE - A fabricating method of an electron-emitting device includes at least the following steps. A substrate having a first side and a second side is provided. The first side is opposite to the second side. A first electrode pattern layer is formed on the first side of the substrate. A conductive pattern layer is formed on the substrate and the first electrode pattern layer, and the conductive pattern layer partially covers the first electrode pattern layer. An electron-emitting region is formed in the conductive pattern layer. A second electrode pattern layer is formed on the second side of the substrate. The second electrode pattern layer partially covers the conductive pattern layer. The fabricating method has a simple fabricating process and a low fabricating cost. | 09-22-2011 |
Patent application number | Description | Published |
20110069892 | METHOD OF COMPARING SIMILARITY OF 3D VISUAL OBJECTS - Comparison of parameters, including width, length, depth, color, and shape of a target object with a reference object is performed through use of a stereo camera. If the parameters of the target object are within threshold values of the parameters of the reference object, a match is indicated. If not, a new reference object is selected for comparison with the target object. | 03-24-2011 |
20120069151 | METHOD FOR INTENSIFYING IDENTIFICATION OF THREE-DIMENSIONAL OBJECTS - A method for intensifying identification of three-dimensional objects identification includes utilizing a left eye camera and a right eye camera to capture a left eye image and a right eye image, calibrating the left eye image and the right eye image to generate a calibrated left eye image and a calibrated right eye image, using the calibrated left eye image and the calibrated right eye image to generate a disparity map, differentiating a three-dimensional object from a background image according to the disparity map, projecting the three-dimensional object onto a plan view, filtering noise out of the plan view to generate a filtered three-dimensional object, determining whether the filtered three-dimensional object contains at least two three-dimensional objects, and separating the at least two three-dimensional objects if the filtered three-dimensional object contains at least two three-dimensional objects. | 03-22-2012 |
20150043777 | THREE DIMENSIONAL DETECTING DEVICE AND METHOD FOR DETECTING IMAGES THEREOF - A method includes generating a disparity map according to two sets of image data, identifying at least one object in the disparity map, mapping the at least one object onto a plane view, tracking at least one object on the plane view, and providing a robust algorithm about a cross-line time interval and a cross-line degree. The robust algorithm includes detecting whether the at least one object enters a predetermined region when the at least one object crosses a predetermined boundary. | 02-12-2015 |
Patent application number | Description | Published |
20100230676 | TFT ARRAY SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - A TFT array substrate includes a substrate, at least one gate line and gate electrode, a gate insulating layer, and at least one channel component, source electrode, drain electrode and data line. The gate line and gate electrode are disposed on the substrate, wherein both of the gate line and gate electrode have first and second conductive layers, the first conductive layer is formed on the substrate, the first conductive layer contains molybdenum nitride, the second conductive layer is formed on the first conductive layer, and the second conductive layer contains copper. The gate insulating layer is disposed on the gate line, gate electrode and the substrate. The channel component is disposed on the gate insulating layer. The source electrode and drain electrode are disposed on the channel component, and data line is disposed on the gate insulating layer. | 09-16-2010 |
20100283501 | TESTING METHOD FOR OPTICAL TOUCH PANEL AND ARRAY TESTER - A testing method for an optical tough panel includes the steps of: coupling a negative voltage to a common line to turn off an optical sensing element; coupling a positive voltage to a readout line; turning on a switching device to have the positive voltage charge the optical sensing element through the readout line and the switching element; turning off the switching element for a predetermined period of time; coupling the negative voltage to the readout line; turning on the switching element again to read a voltage variation of the optical sensing element through the readout line and the switching element; and analyzing the voltage variation. The present invention further provides an array tester. | 11-11-2010 |
20120264260 | TFT ARRAY SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME - A TFT array substrate includes a substrate, at least one gate line and gate electrode, a gate insulating layer, and at least one channel component, source electrode, drain electrode and data line. The gate line and gate electrode are disposed on the substrate, wherein both of the gate line and gate electrode have first and second conductive layers, the first conductive layer is formed on the substrate, the first conductive layer contains molybdenum nitride , the second conductive layer is formed on the first conductive layer, and the second conductive layer contains copper. The gate insulating layer is disposed on the gate line, gate electrode and the substrate. The channel component is disposed on the gate insulating layer. The source electrode and drain electrode are disposed on the channel component, and data line is disposed on the gate insulating layer. | 10-18-2012 |
20130071650 | FABRICATING METHOD OF FLEXIBLE DISPLAY AND FLEXIBLE DISPLAY - A fabricating method of a flexible display is provided. A release layer is formed on a carrier substrate. The release layer is patterned to form a patterned release layer. A flexible substrate is formed on the patterned release layer, wherein the flexible substrate covers the patterned release layer and a portion of the flexible substrate contacts the carrier substrate. An adhesive force between the patterned release layer and the flexible substrate is larger than an adhesive force between the patterned release layer and the carrier substrate. A device layer is formed on the flexible substrate. A display layer is formed on the device layer. The flexible substrate and patterned release layer are cut simultaneously. The patterned release layer being cut is separated from the carrier substrate, wherein the flexible substrate, the device layer and the display layer which have been cut are sequentially disposed on the separated patterned release layer. | 03-21-2013 |
20130082590 | ORGANIC ELECTROLUMINESCENT LIGHTING ELEMENT ARRAY AND ORGANIC ELECTROLUMINESCENT LIGHTING ELEMENT - An organic electroluminescent (OEL) lighting element disposed on a substrate includes a first electrode, a second electrode, an OEL layer, an auxiliary electrode, a patterned scattering layer, and a patterned dielectric layer. The second electrode is opposite to the first electrode having a first refraction index. The OEL layer is disposed between the first electrode and the second electrode. The auxiliary electrode is disposed between the first electrode and the second electrode, electrically connected to the first electrode, and separated from the OEL layer by a gap. The patterned scattering layer is disposed between the first electrode and the auxiliary electrode, covers the auxiliary electrode, and has a second refraction index greater than or substantially equal to the first refraction index. The patterned dielectric layer is disposed between the auxiliary electrode and the second electrode, covers the auxiliary electrode, and is disposed between the auxiliary electrode and the OEL layer. | 04-04-2013 |
20130099658 | FLEXIBLE ORGANIC LIGHT EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - A flexible organic light emitting device includes a flexible substrate, an organic light emitting unit and a covering substrate. The organic light emitting unit includes a first electrode layer, a second electrode layer opposing the first electrode, and a light emitting layer, which is disposed between the first and second electrode layers. The covering substrate includes a base film, an insulation layer and an adhesion layer. An inner surface of the base film is facing an inner surface of the flexible substrate, and space is formed there-between. The insulation layer is disposed on the inner surface of the base film, and an adhesive force between the insulation layer and the organic light emitting unit is less than 0.1 N/cm. The adhesion layer is disposed between the insulation layer and the inner surface of the base film, covers the insulation layer and the organic light emitting unit, and fills the space. | 04-25-2013 |
20140375916 | FLEXIBLE DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A flexible display panel including a buffer layer, an active element, a pad, a display device and a signal transmission circuit is provided. The active element is located on the buffer layer. The pad is located in the buffer layer and is electrically connected to the active element. The display device is located on the active element and is electrically connected to the active element, in which the display device includes a pixel electrode, an opposite electrode and a display medium layer located therebetween. The active element and the signal transmission circuit are respectively located at a first surface and a second surface of the buffer layer, the second surface is opposite to the first surface, and the signal transmission circuit is electrically connected to the active element via the pad. A manufacturing method of a flexible display panel is also provided. | 12-25-2014 |
Patent application number | Description | Published |
20090136976 | Luminescence-based composition - Luminescence-based compositions for measurement of aspartate aminotranserase, alanine aminotransferase, total-bilirubin, creatinine phosphokinase, or lactate dehydrogenase, wherein the chemiluminescence-based composition comprises 0.01-100 mM of luminol, 0.001-1000 U/mL of horseradish peroxidase (HRP), 0-10% of Triton X-100, 0-100 mM PIP, and 5˜500 mM of buffer at pH 6˜9, and the luminescence-base composition measures Aspartate aminotransferase (AST), alanine aminotransferase (ALT), total bilirubin, or lactate dehydrogenase (LDH). | 05-28-2009 |
20090298092 | ANALYTICAL SYSTEM, AND ANALYTICAL METHOD AND FLOW STRUCTURE THEREOF - An analytical system includes a working fluid, a uniform dividing unit and a separating unit. The working fluid includes a first component and a second component with different characteristics. The uniform dividing unit is utilized to uniformly divide the working fluid and relatively rotated with respect to a reference axis. Under a capillarity force as well as the result of Coriolis force and siphon force, the first component can be separated from the second component by the separating unit. | 12-03-2009 |
Patent application number | Description | Published |
20100188364 | GHOST RESOLUTION FOR A CAPACITIVE TOUCH PANEL - Ghost resolution sensing methods are provided for capacitive touch panels. When ghost is detected involving two points on a capacitive touch panel, for each of the two points, the intersected traces at that one are concurrently charged to sense the capacitance value from either one of the intersected traces, and according thereto, a real point and a ghost point can be distinguished from each other. Alternatively, the intersected traces are crisscross driven by two synchronous and in phase signals or synchronous but out of phase signals, to sense the capacitance values at the two points. Preferably, intersectional calibration is performed in conjunction therewith, to recognize the real points. | 07-29-2010 |
20110050614 | OBJECT POSITIONING FOR AN X-Y PROJECTED CAPACITIVE TOUCH PANEL - Methods are proposed for object positioning for an X-Y projected capacitive touch panel. In an embodiment, capacitance sensing under inphase excitation of traces is applied to set a base value when the capacitive touch panel is not touched and to obtain capacitances at intersections when the capacitive touch panel is touched, and the base value is compared with the measured capacitances to identify touch points. In other embodiments, X-Y projected sensing and all-point sensing are combined to reduce the amount of calculation and achieve the same positioning effect as an all-point capacitive touch panel. | 03-03-2011 |
20110050635 | BOUNDARY RESOLUTION IMPROVEMENT FOR A CAPACITIVE TOUCH PANEL - A capacitive touch panel has a plurality of traces including a boundary trace, and a virtual trace is defined outward of the boundary trace and assigned with a virtual coordinate and a virtual capacitance for interpolation to position a touch point around the boundary of the capacitive touch panel, thereby eliminating the non-addressable region of the capacitive touch panel. | 03-03-2011 |
20120299873 | SENSING METHOD FOR A CAPACITIVE TOUCH SYSTEM - A capacitive touch system uses at least two touch integrated circuits to simultaneously scan a touch panel, each of the touch integrated circuits only for scanning a portion of the traces of the touch panel. Therefore, the capacitive touch system can maintain a good frame rate, even the touch panel is a large scale touch panel. Sensing methods are provided to determine a sensed value for a boundary trace which is the last one of the traces connected to a first touch integrated circuit and prior to the first one of the traces connected to a second touch integrated circuit. | 11-29-2012 |
Patent application number | Description | Published |
20140169982 | HEAT DISSIPATION SYSTEM, ROTATION SPEED CONTROL CIRCUIT AND METHOD THEREOF - A rotation speed control circuit is disclosed. The rotation speed control circuit includes a temperature-controlled voltage duty generator, a pulse-width signal duty generator, a multiplier and a rotation speed signal generator. The temperature-controlled voltage duty generator converts temperature-controlled voltage to digital temperature-controlled voltage and executes linear interpolation operation according to a first setting data so as to output temperature-controlled voltage duty signal. The pulse-width signal duty generator coverts pulse-width input signal to a digital pulse-width input signal and executes linear interpolation operation according to a second setting data so as to output a pulse-width duty signal. The temperature-controlled voltage duty signal and the pulse-width duty signal are executed for multiplication by the multiplier so as to output mixing-duty signal. The rotation speed generator receives the mixing-duty signal and a third setting data, and executes a minimum output duty operation so as to output a pulse-width output signal. | 06-19-2014 |
20150023801 | FAN SYSTEM - ROTATION SPEED CONTROL CIRCUIT AND METHOD FOR ROTATION SPEED ERROR AUTO-CALIBRATION THEREOF - A rotation speed control circuit with function of auto-calibrating rotation speed error is disclosed. The rotation speed control circuit includes a first multiplexer, a second multiplexer, an error amplifier and a current compensation circuit. In calibration mode, the rotation speed control circuit selects a calibration clock signal and a calibration voltage through the first multiplexer and the second multiplexer correspondingly according to a mode switch signal, and adjusts current value of a first current accordingly. In other words, the rotation speed control circuit utilizes the first current to compensate error of the external capacitor through the calibration clock signal fixed and the calibration voltage fixed in the duration of calibration mode, so as to avoid that aging of the external capacitor leads to rotation speed error and then affects the whole operation. | 01-22-2015 |
20150365030 | DC MOTOR CONTROL METHOD AND DC MOTOR CONTROL CIRCUIT - The present disclosure provides a DC motor control method comprising comparing a first periodic signal and a second periodic signal for generating a control signal, wherein the frequency of the first periodic signal is lower than the frequency of the second periodic signal; configuring the amplitudes of the first periodic signal and the second periodic signal according to the needed speed of the DC motor, wherein increasing the ratio of the amplitude of the first periodic signal to the amplitude of the second periodic signal when the needed speed of the DC motor is increased, and decreasing the ratio of the amplitude of the first periodic signal to the amplitude of the second periodic signal when the needed speed of the DC motor is decreased. | 12-17-2015 |
Patent application number | Description | Published |
20080257058 | AUTOMATIC KEYBOARD INSPECTION APPARATUS - An automatic keyboard inspection apparatus, adapted for inspecting a keyboard, is disclosed, which comprises: a retractable device, a pressing part, a path control unit and a dual-axial platform; wherein, as the automatic keyboard inspection apparatus is enabled to operate in a first mode, the retractable device will activate a linage rode to move axially so as to trigger the pressing part to drop by the gravity and thus press upon a specific key of the keyboard; and as the automatic keyboard inspection apparatus is enabled to operate in a second mode, specifying a route of a specific traveling distance, the pressing part is direct to travel and fall following the specified route to press upon the specific key; and the dual-axial platform, being adapted for carrying the keyboard, is able to perform a bi-axial movement with respect to a 2-D Cartesian coordinates of X, Y axes so as to enable the pressing part to drop and press on four different corners of the specific key for testing the same. With the aforesaid automatic keyboard inspection apparatus, the yield of keyboards can be increase. | 10-23-2008 |
20110168532 | PRESS-KEY WITH LOW LIGHT DIFFUSING DESIGN AND KEYBOARD USING THE SAME - A press-key with low light diffusing design, adapted to be received inside a frame of a keyboard, is disclosed, which comprises: a substrate; a keycap, formed with a light-transmissive part, being mounted on the substrate while enabling the same to move vertically up and down in relative to the substrate; a light-emitting unit, disposed inside the keycap at a position below the light-transmissive part; and a light mask, made of an opaque material and being formed as an upward-extending wall surrounding the circumference of the light-emitting unit while allowing an opening to be formed on top thereof at a position corresponding to the light-transmissive part and thus allowing the light emitted from the light-emitting unit to be projected out of the light mask only through the opening of the same and thus to be emanating out of the keycap only through the light-transmissive part. | 07-14-2011 |
20110226600 | KEYSWITCH AND KEYBOARD - A keyswitch includes a key cap, a base, a first support member, a second support member and a link member. The base has a first restraining portion and a third restraining portion. The first support member is disposed between the key cap and the base. The first support member has a second restraining portion. The first restraining portion restrains the second restraining portion from moving in a direction perpendicular to the base. The second support member is disposed between the key cap and the base and opposite to the first support member. The second support member has a fourth restraining portion. The third restraining portion restrains the fourth restraining portion from moving in the direction perpendicular to the base. When the key cap is pressed to a bottom of the base, the second and fourth restraining portions are located under the first and third restraining portions respectively. | 09-22-2011 |
Patent application number | Description | Published |
20130057715 | ELECTRONIC DEVICE AND ANTI-SHAKE MODULE - An electronic device including a main board, an anti-shake module and a lens module is provided. The lens module is disposed at a first surface or a second surface opposing the first surface of the main board. The anti-shake module includes a flexible printed circuit board (FPCB), an image sensor, a carrier, a first and second guide rod, a first and second moving plate. The image sensor is fixed to the second moving plate and electrically connected with the FPCB. The first and second moving plates are movably disposed at the first and second guide rods respectively. Herein the first moving plate is adapted to move along the axis of first guide rod. The second moving plate is adapted to move together with the first moving plate. And the second moving plate is adapted to move along the axis of second guide rod. | 03-07-2013 |
20130076925 | ELECTRONIC DEVICE AND IMAGE SENSOR PLANARITY ADJUSTING MODULE - An electronic device having an image sensor planarity adjusting module is provided. The image sensor planarity adjusting module includes a moving base, an image sensing unit, a planarity adjusting plate and a plurality of supporting columns. Herein the top of the supporting columns substantially and uniformly support the planarity adjusting plate so as to adjust the image sensing unit to reach a predetermined planarity. | 03-28-2013 |
20130077257 | ELECTRONIC DEVICE AND IMAGE SENSOR HEAT DISSIPATION STRUCTURE - An electronic device including a main board, an image sensor heat dissipation structure and a lens module is provided. The image sensor heat dissipation structure includes a heat dissipation plate, a thermal interface layer, an image sensor package and a cover glass. The heat dissipation plate is fixed to the main board. The thermal interface layer is disposed on the heat dissipation plate. The image sensor package including a circuit board, a plurality of pads, an image sensor and an encapsulant is fixed to the thermal interface layer. The circuit board has an opening. The image sensor is electrically connected to the circuit board through the pads, wherein the light receiving surface faces the opening and the back surface faces the thermal interface layer. | 03-28-2013 |
20130135753 | ZOOM LENS STRUCTURE AND CAMERA LENS - This invention discloses a zoom lens structure and a camera lens. The zoom lens structure comprises a shifting barrel, a zoom-driving ring, a fixed barrel and a focus-driving ring. The shifting barrel has a first guiding protrusion. The zoom-driving ring is arranged at a periphery of the shifting barrel, and having a groove-hole and a first-driving part. The fixed barrel is arranged at a periphery of the zoom-driving ring, and having a first groove. The first guiding protrusion is passed through the groove-hole and inserted into the first groove. The focus-driving ring is coupled to an end of the zoom-driving ring and having a second-driving part at the outer edge thereof. By a driving module driving the first-driving part and the second-driving part at the same time, the zoom-driving ring and the focus-driving ring are rotated forwardly or reversely for zooming or focusing. | 05-30-2013 |
Patent application number | Description | Published |
20140125879 | IN-CELL TOUCH DISPLAY AND ELECTRONIC APPARATUS THEREOF - An in-cell touch display has a thin-film-transistor substrate, and the thin-film-transistor has a first transparent substrate, a touch sensor layer and a thin-film transistor circuit layer. The touch sensor layer is formed on the first transparent substrate, and has a plurality of parallel first electrode lines and a plurality of parallel second electrode lines. The first electrode lines and the second electrode lines are vertical to and insulated from each other. The thin-film-transistor circuit layer is insulated from the touch sensor layer, wherein at least a portion of the touch sensor layer is located in the thin-film-transistor layer, or the touch sensor layer is located under the thin-film-transistor layer. The thin-film transistor circuit layer has a plurality of parallel data lines and a plurality of parallel gate lines, and the data lines and the gate lines are vertical to and insulated from each other. | 05-08-2014 |
20140125880 | TOUCH DEVICE, TOUCH DISPLAY THEREOF, AND ELECTRONIC APPARATUS THEREOF - A touch device comprises a substrate, multiple floating gate transistors, multiple first touch electrode lines, and multiple second touch electrode lines. The floating gate transistors are formed on the substrate. Each of the floating gate transistors includes a first electrode, a second electrode, and an active layer located between the first electrode and the second electrode. The first touch electrode lines extending along with a row direction are parallel to each other, and the second touch electrode lines extending along with a column direction are parallel to each other. The first electrodes of the floating gate transistors arranged on the same row are electrically connected to the same first touch electrode line, and the second electrodes of the floating gate transistors arranged on the same column are electrically connected to the same second touch electrode line. | 05-08-2014 |