Patent application number | Description | Published |
20100053053 | DISPLAY PANEL - A display panel has a display area and a peripheral circuit area next to the display area. The display panel includes a number of pixels, a first signal line, a second signal line, and a third signal line. The pixels are arranged in array in the display area. The first signal line disposed in an intersection of the display area and the peripheral circuit area is electrically connected to the pixels. A data signal is suitable for being applied to the first signal line. The second signal line is disposed in the peripheral circuit area. A common signal is suitable for being applied to the second signal line. The third signal line is disposed between the first signal line and the second signal line. A reference signal is suitable for being applied to the third signal line. The data signal, the common signal, and the reference signal are different signals. | 03-04-2010 |
20100265002 | METHOD OF MODULATING A COMMON SIGNAL OF LIQUID CRYSTAL DISPLAY - A driving circuit of LCD includes a common signal generator and a modulation circuit. The modulation circuit can generate a first frequency, a second frequency, and a third frequency. The common signal generator generates a swing common signal according to the first frequency, and modulates the frequency of the common signal in the frequency range between the second frequency and the third frequency. | 10-21-2010 |
20100289792 | METHOD FOR DRIVING A TRI-GATE TFT LCD - A method for driving a tri-gate TFT-LCD includes providing a polarity converting common voltage. When polarity of the common voltage is converted, a first gate line is turned on for a source line to charge a first sub-pixel for a first write in duration. When the first gate line is turned off, a second gate line is turned on for the source line to charge a second sub-pixel for a second write in duration. When the second gate line is turned off, a third gate line is turned on for the source line to charge a third sub-pixel for the second write in duration. By adjusting the first write in duration the first sub-pixel can be fully charged, consequently improving the color deviation of the displayed image. | 11-18-2010 |
20120146960 | TOUCH PEN - A touch pen comprises a penholder, an electrically conducting core, a flexible covering and fabric covering. The electrically conducting core is coupled to the penholder. The electrically conducting core is ensheathed in the flexible covering, while the fabric covering wraps around the flexible covering, wherein either flexible covering or fabric covering has electrical conductivity. In the present invention, the flexible covering and the fabric covering are shaped under the pressure exerted by the electrically conducting core and a touch panel so as to increase the contact area between the touch pen and the touch panel and, meanwhile, the fabric covering is capable of reducing the friction between touch pen and the touch panel, thereby improving the sensitivity and touch effect. | 06-14-2012 |
Patent application number | Description | Published |
20100294330 | PHOTOVOLTAIC ELECTROCHROMIC DEVICE AND METHOD OF MANUFACTURING THE SAME - A photovoltaic electrochromic device and a method of manufacturing the same are provided. According to the method, a plurality of thin-film solar cells are formed on a transparent substrate, wherein each of the thin-film solar cells at least includes an anode, a photoelectric conversion layer, and a cathode, and a portion of a surface of the anode is exposed from each of the thin film solar cells. An electrochromic thin film is then deposited on at least one surface of the cathode and the exposed surface of the anode. Thereafter, an electrolyte layer is formed on surfaces of the thin-film solar cells to cover the electrochromic thin films. The anodes and the cathodes of the thin-film solar cells also serve as the anodes and the cathodes of the photovoltaic electrochromic device. | 11-25-2010 |
20100294335 | PHOTOVOLTAIC ELECTROCHROMIC DEVICE AND METHOD OF MANUFACTURING THE SAME - A photovoltaic electrochromic device and a method of manufacturing the same are provided. According to the method, at least one thin-film solar cell is formed on a transparent substrate, wherein the thin-film solar cell at least includes an anode, a photoelectric conversion layer, and a cathode, and a portion of a surface of the anode is exposed from the thin film solar cell. An electrochromic thin film is then deposited on at least one surface of the cathode and the exposed surface of the anode. Thereafter, an electrolyte layer is formed on a surface of the thin-film solar cell to cover the electrochromic thin film. The anode and the cathode of the thin-film solar cell also serve as the anode and the cathode of the photovoltaic electrochromic device. | 11-25-2010 |
20130000703 | COMPLEX DYE-SENSITIZED PHOTOVOLTAIC APPARATUS - An embodiment of the invention provides a complex dye-sensitized photovoltaic apparatus including a conductive substrate, a counter electrode, a partition member, a photoelectric conversion layer, a first electrolyte, and a charge storage device or an electrochromic solution. A space is provided between the counter electrode and the conductive substrate. The partition member is disposed in the space, dividing the space into a first chamber and a second chamber. The photoelectric conversion layer is disposed on the conductive substrate in the first chamber filled with the first electrolyte, wherein the photoelectric conversion layer includes a porous semiconductor film and a dye absorbed on the porous semiconductor film. The photoelectric conversion layer and the conductive substrate form a working electrode. The charge storage device or the electrochromic solution is disposed in the second chamber. | 01-03-2013 |
Patent application number | Description | Published |
20090110965 | METHOD FOR SUPPLYING FUEL TO FUEL CELL - The present invention provides a method for supplying fuel to a fuel cell, which comprises steps of: (a) feeding a specific amount of a fuel into a fuel cell system; (b) determining a specific monitoring period according to a characteristic value measured from the fuel cell when subjected to a load; (c) detecting if the load is varying during the specific monitoring period ; and (d) selecting to proceed to the step (a) or (b) according the variation of the load. In one embodiment, the method further comprises a step (e) determining, if the load is not changed, whether the specific amount of fuel is enough to judge the timing for supplying the fuel. By the aforesaid method, the supplying of fuel to the fuel cell under dynamic load can be effectively controlled for optimizing the performance of the fuel cell without the use of fuel concentration sensor. | 04-30-2009 |
20100003547 | METHOD FOR SUPPLYING FUEL TO FUEL CELL - The present invention provides a method for supplying fuel to a fuel cell, in which a monitoring period is determined for monitoring the fuel cell, and then a feeding amount of fuel is determined by integrating characteristic value generated from the fuel cell in the monitoring period. In another embodiment, it is further comprising a step of determining the variation profile associated with the characteristic value during the period so as to judge whether it is necessary to feed the fuel into the fuel cell or not. By means of the present invention, the supplying of fuel to the fuel cell under dynamic loadings can be effectively controlled for optimizing the performance of the fuel cell as well as reducing the cost without installing any fuel sensor. | 01-07-2010 |
20140204012 | ELECTROPHORETIC DISPLAY AND METHOD FOR DRIVING PANEL THEREOF - An electrophoretic display and method for driving panel using the same are provided. The electrophoretic display includes a display panel and a driving circuit. The display panel includes a plurality of column data lines and a plurality of row scan lines. The driving circuit provides a plurality of data driving signals to the column data lines, and provides a plurality of scan signals to row scan lines. Each of the scan signals has a plurality of scan enable periods, and each of the scan enable periods includes a plurality of scan interval periods. Each of the scan signals is floating or grounding during the scan interval periods. Each of the data driving signals includes a plurality of data driving periods, and each of the data driving periods includes a plurality of driving interval period. Each of the data driving signals is floating or grounding during the driving interval period. | 07-24-2014 |
20140206292 | ELECTRONIC SHELF LABEL SYSTEM - An electronic shelf label (ESL) system is disclosed. The ESL system includes a shelf, at least an ESL, and a radio-frequency (RF) signal transceiver. The ESL is disposed on the shelf. The ESL includes a RF antenna, and the RF antenna defines a signal transmitting H-plane. The RF signal transceiver transceives data with the ESL through the RF antenna, wherein, a connection line between the RF signal transceiver and the RF antenna has an included angle smaller than a pre-determined angle with the signal transmitting H-plane of the RF antenna. | 07-24-2014 |
Patent application number | Description | Published |
20090153764 | THIN FILM TRANSISTOR ARRAY SUBSTRATE AND REPAIR METHOD - A TFT array substrate comprising a substrate has a pixel region and a peripheral circuit region surrounding the pixel region, a TFT array, first lead lines, second lead lines, and first repair patterns is provided. The peripheral circuit region has an outer area and an inner area. The inner area is disposed between the pixel region and the outer area. The TFT array disposed in the pixel region includes a first conducting layer and a second conducting layer. The first lead lines and the second lead lines disposed in the peripheral circuit region are on the same layer of the first conducting layer and the second conducting layer respectively. The first repair patterns disposed in the inner area are sandwiched between the second lead lines and the substrate. At least a first pre-repair area is at a region where the second lead lines and the first repair patterns are overlapped. | 06-18-2009 |
20100253870 | REPAIRING STRUCTURE OF LIQUID CRYSTAL DISPLAY AND REPAIRING METHOD THEREOF - A repairing structure of an LCD is provided, which includes at least a first conductive layer, an insulating layer located on the first conductive layer, at least a second conductive layer located on the insulating layer, and an opening located on the first conductive layer in a crossing region where the first conductive layer and the second conductive layer are overlapped. A repairing method of the repairing structure is further provided. | 10-07-2010 |
20110248908 | GATE SIGNAL TRANSMISSION CIRCUIT STRUCTURE - A gate signal transmission circuit structure is provided which is disposed on a peripheral circuit region of a display panel and includes at least a driver bonding pad, at least a transmission line and a plurality of connection lines. The transmission line is disposed around the driver bonding pad. The connection lines are connected between the driver bonding pad and the transmission line, wherein a plurality of holes exist between the connection lines, and the thickness of each connection line is substantially the same as the thickness of the transmission line. | 10-13-2011 |
20120025855 | DISPLAY DEVICE HAVING REPAIR AND DETECT STRUCTURE - A display device having repair and detect structure includes a substrate, a pixel array, a first shorting bar and a first repair line. The pixel array disposed on the substrate includes a plurality of data lines and a plurality of gate lines. The first shorting bar disposed on the substrate is connected to the gate lines for testing the gate lines, and the first shorting bar includes a first shorting segment. The first repair line is disposed on the substrate for repairing at least one of the data lines. The first shorting segment of the first shorting bar is electrically connected to the first repair line. Furthermore, another repair and detect structure of a display device is disclosed, wherein the first shorting bar includes a first shorting segment, the first repair line includes a first repair segment, and the first shorting segment overlaps with the first repair segment. | 02-02-2012 |
20120057089 | WIRING STRUCTURE OF LIQUID CRYSTAL DISPLAY DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - A wiring structure of a liquid crystal display device and a liquid crystal display device are disclosed. The wiring structure of the liquid crystal display device includes a substrate, plural electrical elements, and plural wirings. The electrical elements are disposed on the substrate to generate plural electrical signals. The wirings are coupled to the electrical elements to transmit the electrical signals. The wirings include inner wirings and an outermost peripheral wiring. The outermost peripheral wiring and the inner wirings have different wiring patterns. Each of the electrical elements is positioned at a side of the outermost peripheral wiring facing the center of the substrate. After the liquid crystal display device is cut and polished, by distinguishing the wiring patterns of both the outermost peripheral wiring and the inner wirings, the existence of the outermost peripheral wiring shows that the outermost peripheral wiring is not polished and removed. | 03-08-2012 |
20120057092 | ACTIVE DEVICE ARRAY SUBSTRATE AND LIQUID CRYSTAL PANEL - An active device array substrate including a substrate, a pixel array and a plurality of switching elements used for detection is provided. The substrate has a display area and a peripheral circuit area adjacent with each other. The pixel array is disposed in the display area. The switching elements are disposed in the peripheral circuit area. Each switching element includes a semiconductor layer, and a plurality of first and second electrode branches. The first and second electrode branches are disposed on the semiconductor layer. The first and second electrode branches form a plurality of first conductive channels in a first direction and a plurality of second conductive channels in a second direction via the semiconductor layer. A portion of the lengths of the first conductive channels are the same. A portion of the lengths of the second conductive channels are the same. | 03-08-2012 |
20120105755 | ACTIVE DEVICE ARRAY SUBSTRATE AND LIQUID CRYSTAL DISPLAY PANEL - An active device array substrate includes a substrate, a pixel array, a peripheral circuit and at least an auxiliary metal pattern. The substrate has an active area and a peripheral circuit area connected to the active area. The pixel array is disposed on the active area of the substrate. The peripheral circuit is disposed on the peripheral circuit area of the substrate. The peripheral circuit includes a plurality of driver bonding pads and a plurality of fan-out line units. Each fan-out line unit includes a plurality of fan-out lines, a plurality of connection lines and a line-free area. The fan-out lines are electrically connected to the pixel array. Each connection line connects one of the driver bonding pads and one of the fan-out lines correspondingly. The auxiliary metal pattern is disposed at the line-free area. The auxiliary metal pattern and the connection lines are arranged in a same interval. | 05-03-2012 |
20140203281 | DISPLAY DEVICE HAVING REPAIR AND DETECT STRUCTURE - A display device having repair and detect structure includes a substrate, a pixel array, a first shorting bar and a first repair line. The pixel array disposed on the substrate includes a plurality of data lines and a plurality of gate lines. The first shorting bar disposed on the substrate is connected to the gate lines for testing the gate lines, and the first shorting bar includes a first shorting segment. The first repair line is disposed on the substrate for repairing at least one of the data lines. The first shorting segment of the first shorting bar is electrically connected to the first repair line. Furthermore, another repair and detect structure of a display device is disclosed, wherein the first shorting bar includes a first shorting segment, the first repair line includes a first repair segment, and the first shorting segment overlaps with the first repair segment. | 07-24-2014 |
Patent application number | Description | Published |
20090033551 | RECEIVING DEVICE FOR GLOBAL POSITIONING SYSTEM AND ANTENNA STRUCTURE THEREOF - A receiving device for a global positioning system and an antenna structure thereof. The receiving device includes a housing, a circuit board and the antenna structure. The circuit board is disposed inside the housing and has a ground portion and a signal feeding portion. The antenna structure is disposed inside the housing and includes a metal plate, a first electric conducting element and a second electric conducting element. The metal plate is used for receiving a GPS signal. The first electric conducting element has one end coupled to the metal plate, and the other end coupled to the ground portion of the circuit board. The second electric conducting element for feeding the GPS signal to the circuit board has one end coupled to the metal plate, and the other end coupled to the signal feeding portion of the circuit board. | 02-05-2009 |
20090147453 | ELECTRONIC DEVICE AND SLIDING MECHANISM THEREOF - A sliding mechanism is disclosed, wherein the sliding mechanism movably connects to a display module and an input module of an electronic device. The sliding mechanism includes a first member, a second member, a connection member, and a cover movably disposed on the first member. The first member is movable with respect to the second member and has an opening. A flexible printed circuit (FPC) of the electronic device is disposed through the opening and electronically connects to the display module and the input module. The connection member connects the first and second members at opposite sides thereof, and a middle portion of the connection member connects to the cover. When the first member slides with respect to the second member in a first direction, the connection member impels the cover to block a part of the opening. | 06-11-2009 |
20100048263 | PORTABLE ELECTRONIC DEVICE - A portable electronic device having an immovable body, a movable body, and a sliding module. The sliding module has a fixing frame fixed to the immovable body, a movable frame fixed to the movable body and slidably coupled to the fixing frame, and an elastic element having a fixing end fixed to the fixing frame and a movable end fixed to the movable frame. When the movable body slides with respect to the immovable body from a first position to a second position by the sliding module, the movable end relatively moves from a first stop position to a second stop position along a moving path. The distance from the orthographic projection of the fixing end on the moving path to the first stop position is larger than the distance from the orthographic projection of the fixing end on the moving path to the second stop position. | 02-25-2010 |
20130016457 | HANDHELD ELECTRONIC DEVICEAANM Chen; Chih-WeiAACI Taoyuan CountyAACO TWAAGP Chen; Chih-Wei Taoyuan County TWAANM Hsu; Hsi-HsingAACI Taoyuan CountyAACO TWAAGP Hsu; Hsi-Hsing Taoyuan County TWAANM Lin; Che-KaiAACI Taoyuan CountyAACO TWAAGP Lin; Che-Kai Taoyuan County TW - A handheld electronic device includes a first body, a second body, and a locating member. The second body is slidably connected to the first body, and has a slide surface and a locating opening. The locating opening is located at an end of the slide surface. The locating member has an elastic portion and a sliding portion, the elastic portion is disposed between the first body and the sliding portion, and the sliding portion is capable of leaning against the slide surface or being inserted in the locating opening under an elastic prestress of the elastic portion. | 01-17-2013 |
20130063904 | HANDHELD DEVICE - A handheld device includes a body, a back cover and a latch mechanism. The body has a back portion. The back cover coves the back portion. The latch mechanism is disposed between the body and the back portion to lock the back portion to the body. Reliving the lock connection between the body and the back cover performed by the latch mechanism causes the back cover is able to depart from the body. | 03-14-2013 |
Patent application number | Description | Published |
20110025617 | HYBRID TOUCH PANEL - A hybrid touch panel has a first substrate, a second substrate, and an insulation layer and a separating layer sandwiched between the first and second substrates. The first substrate has a first transparent electrode mounted thereon. A plurality of first electrodes are respectively mounted alongside edges of the first transparent electrode and are respectively connected with a plurality of first leading lines. The second substrate has a plurality of juxtaposed second transparent electrodes respectively corresponding to the first transparent electrode, a plurality of second electrodes respectively mounted on the second transparent electrodes and connected with a plurality of wires and second leading lines. Each second transparent electrode accompanying with the first transparent electrode forms an active areas. Accordingly, a multi-area touch panel can be constructed to enable a more smooth and flexible operation. | 02-03-2011 |
20110050621 | RESISTIVE TOUCH PANEL - A resistive touch panel has a lower panel module, an upper panel module and a flexible circuit board. The upper panel module has a protective film sequentially printed with a pattern layer and a varnish layer on a top thereof, an upper conducting layer mounted on a bottom of the protective film, an upper electrode mounted on a perimeter on a bottom of the upper conducting layer, an insulation layer mounted on edges of the bottom of the upper conducting layer, covered on the upper electrode and bonded to a top of the lower panel module, and an conductive adhesive mounted on the insulation layer to contact with the upper electrode. Given the foregoing structure, due to the elimination of the solid film and the adhesive layer, defects generated when using the adhesive layer to bond the solid film and the protective film are avoided for improved productivity. | 03-03-2011 |
20110157845 | TOUCH PANEL - A touch panel is characterized in that one side of a top panel protrudes beyond a side of a bottom panel, signals of sensing areas or conductive layer on the top panel for sensing capacitive variation or voltage variation are transmitted to a bottom surface of the protruded side, signals of sensing areas or conductive layer on the bottom panel for sensing capacitive variation or voltage variation are transmitted to a bottom surface of the top panel through conductive adhesives and to the bottom surface of the protruded side, and the top panel has a flexible PCB formed on the bottom surface of the protruded side to receive those signals. As the flexible PCB is not sandwiched between the top and bottom panels, all layers of the touch panel can be uniformly and tightly bonded and touch insensitivity caused by air penetration into the touch panel can be prevented. | 06-30-2011 |
20110227859 | CAPACITIVE TOUCH PANEL - A capacitive touch panel has two basal plates, an adhesive ring and a dot spacer. Each of the two basal plates has a working surface and an outer rim. One basal plate further has a conductive area, a peripheral area and a metal wiring area. The peripheral area is defined between the outer rim and the conductive area. The adhesive ring is made with a reusable adhesive agent and clamped between the peripheral areas of the basal plates without contacting the conductive area. The dot spacer is clamped between the basal plates and positioned within the conductive area. The adhesive ring, being a reusable adhesive agent, does not stick fast to the conductive area and thus allows a manufacturer to accurately align the basal plates during manufacture and thus to raise yield rate. | 09-22-2011 |
20110267286 | TOUCH PANEL - A touch panel has a pattern layer which designates positions of sensing areas respectively activating specific functions after being pressed, and is mounted on a top surface or a bottom surface of a lower substrate. As the substrates and sensing units mounted on the substrates are all transparent, the pattern layer can be visible when seen from the top surface of the touch panel. When the position of the pattern layer is pressed by a finger, the sensitivity upon pressing the pattern layer can be enhanced, since the pattern layer does not get in the way between the finger and the sensing unit. | 11-03-2011 |
20120007812 | TOUCH PANEL - A touch panel has a test point formed on one end of each of the wires formed inside the touch panel and connected to a circuit board. The test point is larger than a wire diameter of the wires and serves to be contacted by a probe of a test instrument. Even if the probe is similar to the wires in width, the wires are not cut and broken by the probe. Accordingly, after the wires of the touch panel are tested by a probe-type test instrument, the touch panel can still operate normally without having the fault arising from the broken wires inadvertently cut by a probe. | 01-12-2012 |
20120092276 | TOUCH PANEL AND SUBSTRATE THEREOF - A substrate of a touch panel has a body, a dielectric layer and multiple wires. The dielectric layer is formed on the bottom surface of the body and has multiple sensing areas and a wiring area. The wiring area is formed around the sensing areas and has multiple rough surfaces formed on the wiring area and being identical to the sensing areas in number. The wires are identical to the sensing areas in number. Each wire is formed on one of the rough surfaces of the wiring area and is electrically connected with one of the sensing areas. The formation of the wires on the respective rough surfaces can enhance adhesion of the wires so that the wires do not easily come off or get fractured. | 04-19-2012 |
20120092287 | RESISTIVE TOUCH PANEL - A resistive touch panel has an upper module, a lower module and a spacer. The upper module has a substrate, an upper touch layer, a top insulation, two upper electrodes and two conductive layers. The two conductive layers are respectively mounted on the two sides of the upper touch layer between the two upper electrodes and the substrate. The lower module has a base, a lower touch layer, a bottom insulation layer and two lower electrodes. The spacer is mounted between the upper touch layer of the upper module and the lower touch layer of the lower module to space apart the upper touch layer of the upper module and the lower touch layer of the lower module. Based on the above structure, the conductive layers in the resistive touch panel are capable of properly sheltering electrodes to prevent the electrodes from being observed. | 04-19-2012 |
20120139618 | PROJECTED CAPACITIVE TOUCH PANEL - A projected capacitive touch panel has an X-axis sensing layer and a Y-axis sensing layer. The X-axis sensing layer includes a plurality of sensing rows, each of which has two or more electrode sequences connected in parallel. The Y-axis sensing layer includes a plurality of sensing columns, each of which has two or more electrode sequences connected in parallel. Each electrode sequence has a plurality of Y-axis electrodes connected in series. Each of the Y-axis electrodes interposes or aligns with an X-axis electrode. The projected capacitive touch panel effectively reduces the impedance of each of the sensing columns and sensing rows, thus having higher sensitivity for a controller. The arrangement of the X-axis sensing layer and the Y-axis sensing layer is also useful for enlarging the size of the projected capacitive touch panel. | 06-07-2012 |
20120146937 | CAPACITIVE TOUCH PANEL - A capacitive touch panel has an. X-axis sensing layer and a Y-axis sensing layer. The X-axis and Y-axis sensing layers respectively have multiple sensing rows and sensing columns. Each sensing row or sensing column has multiple X-axis or Y-axis electrode strings. Each X-axis or Y-axis electrode string has multiple X-axis electrodes or Y-axis electrodes serially connected. The X-axis electrode strings or Y-axis electrode strings are connected in parallel with each other. The Y-axis electrodes are alternately or directly aligned with the X-axis electrodes. With the foregoing design, the resistance of each row and column can be effectively reduced so as to raise the reading sensitivity of a controller and maintain uniform internal resistance for each sensing row and column to facilitate enlargement of the capacitive touch panel. | 06-14-2012 |
20120194259 | TOUCH PANEL WITH INTERFERENCE SHIELDING ABILITY - A touch panel with interference shielding ability mainly has a substrate with four edges and a transparent electrode formed on a top surface of the substrate. The substrate is rectangular and transparent. The transparent electrode has an active area with four edges. A routing region is defined between the edges of the active area and the edges of the substrate. A structure of compensating impedance is formed on the routing region. An anti-interference layer is formed on the top surface or a bottom surface corresponding to the routing region. The compensating impedance on the routing region forms a shield. The interference induced by directly touching the routing region is avoided for determination of coordinates of a touch point. | 08-02-2012 |
20120199462 | PROJECTED CAPACITIVE TOUCH PANEL WITH SENSITIVITY ADJUSTING STRUCTURE - A projected capacitive touch panel with sensitivity adjusting structure has an X-axis sensing layer and a Y-axis sensing layer. The X-axis sensing layer comprises multiple sensing rows and each sensing row is composed of multiple X-axis electrodes connected in series. The Y-axis sensing layer comprises multiple sensing columns, and each sensing column is composed of multiple Y-axis electrodes connected in series. The X-axis electrodes and the Y-axis electrodes are formed between each other. There is at least one hole formed on at least one X-axis electrode and at least one Y-axis electrode. The areas of the X-axis electrodes and the Y-axis electrodes decrease. Therefore, the coupling capacitance between two adjacent electrodes decreases. | 08-09-2012 |
20120229148 | PROJECTED CAPACITIVE TOUCH PANEL HAVING A RESISTANCE FINE-TUNING STRUCTURE - A projected capacitive touch panel having a resistance fine-tuning structure has an X-axis sensing layer and a Y-axis sensing layer. The X-axis sensing layer and the Y-axis sensing layer respectively have multiple X-axis electrode arrays and multiple Y-axis electrode arrays. Each X-axis electrode array or each Y-axis electrode array is composed of multiple electrodes and multiple connection portions. Each connection portion is connected between adjacent two of the electrodes of one of the X-axis or Y-axis electrode arrays. By varying widths and adjusting resistance of the connection portions of the X-axis electrode arrays and the Y-axis electrode arrays, the touch sensitivity of the touch panel can be enhanced and the size of the touch panel can be enlarged. | 09-13-2012 |
20120229194 | TOUCH PANEL HAVING NON-INTEGRATED AND SECURELY ATTACHED PORTIONS OF A SUBSTRATE - A touch panel having non-integrated and securely attached portions of a substrate has a substrate and an extended portion. The substrate takes a regular form and has two opposite surfaces, multiple edge walls and a transparent electrode layer. The transparent electrode layer is formed on one of the opposite surfaces of the substrate. The extended portion has a thickness matching that of each edge wall and is securely attached to one of the edge walls. Accordingly, a substrate having a specific form can be formed by non-integrated parts without cutting off unnecessary material during a specific cutting process, thereby simplifying the fabrication process and saving the material cost. | 09-13-2012 |
20120242613 | PROJECTED CAPACITIVE TOUCH PANEL - A projected capacitive touch panel has a substrate and at least two sensing units. The sensing units form an active region as an operating zone for users. Because the active region is divided into smaller ranges, the path in which electric signals are transported becomes shorter. The electric signals can be outputted to an outer processor effectively. Additionally, when the projected capacitive touch panel of this invention is mounted on a display, the influence of the electromagnetic interference from the display can be decrease. | 09-27-2012 |
20120306565 | PROJECTED CAPACITIVE TOUCH PANEL WITH IMPEDANCE ADJUSTMENT STRUCTURE - A projected capacitive touch panel with impedance adjustment structure has an X-axis sensing layer and a Y-axis sensing layer. The X-axis sensing layer has multiple X-axis electrode strings. Each X-axis electrode string has multiple X-axis electrodes connected in series. The Y-axis sensing layer has multiple Y-axis electrode strings. Each Y-axis electrode string has multiple Y-axis electrodes in series. The Y-axis electrodes and the X-axis electrode are arranged alternately to form a coupling capacitor between an X-axis electrode and a Y-axis electrode. At least one gap is formed on part of or all the X, Y axis electrodes to reduce the electrode area and the impedance of the electrodes, thereby enhancing the sensing sensitivity and being beneficial to enlarge the size of the touch panel. | 12-06-2012 |
20130056343 | PROJECTED CAPACITIVE TOUCH PANEL - A projected capacitive touch panel has multiple first electrode strings and multiple second electrode strings parallelly and alternately formed on a substrate. The first and the second electrode strings respectively have multiple first sensing electrodes and multiple second sensing electrodes connected in series, and have a first end and a second end. The first sensing electrodes of each first electrode string progressively decrease in area from the first end to the second end while the second sensing electrodes of each second electrode string progressively decrease oppositely. Accordingly, the difference of the RC values between each first electrode string and an adjacent second electrode string increases, and the accuracy of touch detection on edges of the touch panel is enhanced to facilitate the manufacture of oversized projected capacitive touch panels. | 03-07-2013 |
Patent application number | Description | Published |
20110285950 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate includes a substrate, first scan lines, second scan lines, data lines, and pixels. The first and the second scan lines are alternately arranged along a first direction. The data lines are arranged in parallel along a second direction. The pixels are arranged to form first pixel rows and second pixel rows alternately arranged in the first direction. The first pixel row includes first and second pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The second pixel row includes third and fourth pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The pixels between two adjacent data lines are arranged in two columns. Among the pixels in the same column, the pixels in odd rows and in even rows are electrically connected to different data lines, respectively. | 11-24-2011 |
20130293821 | ACTIVE DEVICE ARRAY SUBSTRATE - An active device array substrate includes a substrate, first scan lines, second scan lines, data lines, and pixels. The first and the second scan lines are alternately arranged along a first direction. The data lines are arranged in parallel along a second direction. The pixels are arranged to form first pixel rows and second pixel rows alternately arranged in the first direction. The first pixel row includes first and second pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The second pixel row includes third and fourth pixels electrically connected to the first scan lines, the second scan lines, and the data line, respectively. The pixels between two adjacent data lines are arranged in two columns. Among the pixels in the same column, the pixels in odd rows and in even rows are electrically connected to different data lines, respectively. | 11-07-2013 |
20140198023 | GATE DRIVER ON ARRAY AND METHOD FOR DRIVING GATE LINES OF DISPLAY PANEL - A gate driver circuit including a plurality of gate driver stages is provided. The gate driver stages are combined on the display panel and configured to receive a plurality of clock signals and a start pulse. After being started by the start pulse, the gate driver stages generate a plurality of scan signals based on the clock signals. The scan signals respectively drive a plurality of gate lines of the display panel in a plurality of scan sequences during different frame periods based on the clock signals, wherein at least two scan sequences of the scan sequences are different. Furthermore, a method for driving gate lines of the display panel including the foregoing gate driver circuit is also provided. | 07-17-2014 |
Patent application number | Description | Published |
20110043461 | SYSTEMS AND METHODS FOR APPLICATION MANAGEMENT - Methods and systems for application management are provided. First, a first picture of an application is displayed on a lower display layer in a touch-sensitive display unit. At least one contact on the touch-sensitive display unit is detected. In response to the at least one contact, a second picture is displayed on an upper display layer in the touch-sensitive display unit, wherein the upper display layer is visually above the lower display layer. | 02-24-2011 |
20130208127 | AUTO BURST IMAGE CAPTURE METHOD APPLIED TO A MOBILE DEVICE, METHOD FOR TRACKING AN OBJECT APPLIED TO A MOBILE DEVICE, AND RELATED MOBILE DEVICE - The present invention discloses a mobile device, where the mobile device includes an image sensing unit, a touch screen, and a processor. The image sensing unit is configured to receive at least an image of a scene comprising at least an object. The touch screen is configured to display at least an image of a scene and received at least one user input. The processor is configured to identify the object in response to a first user input corresponding to the object is received, determine characteristics of the object, track the object in the scene according to the characteristics of the object, and capture a number of images of the scene according to a motion state of the object. The motion state is determined according to variance of the characteristics of the object in consecutive images received by the image sensing unit. | 08-15-2013 |
20130208143 | Image Capture Method and Image Capture System thereof - With the aid of separating data paths for generating preview frames, for generating video frames, and for generating encoded camera frames of an image fetching system in a concurrent and mutually-independent manner, the image fetching system is free from introducing unnecessary shutter lags. | 08-15-2013 |
20130222671 | Burst Image Capture Method and Image Capture System thereof - The present invention discloses an image capture method comprises capturing a sequence of image frames; providing the sequence of image frames for preview along a first path and buffering the sequence of image frames into a buffer along a second path separately and concurrently; receiving an input command via an input interface unit; and in response to the input command, extracting a portion of the sequence of image frames from the buffer and encoding the portion of image frames along the second path; and storing the portion of encoded image frames in a memory unit. | 08-29-2013 |
Patent application number | Description | Published |
20090162925 | CELL/TISSUE MASS SELECTING APPARATUS AND DIVIDING MECHANISM THEREOF - A selecting apparatus for selecting cell/tissue mass includes a base, a feeding mechanism and a dividing mechanism. The base has a platform for placing the cell/tissue mass. The feeding mechanism, disposed on the base, moves relative to the platform. The dividing mechanism, disposed on the feeding mechanism, includes a first cutting set and a second cutting set connected therewith. The second cutting set reciprocally moves between a first position and a second position, toward the first cutting set. The feeding mechanism moves the dividing mechanism above the platform, aligning the dividing mechanism with a portion of the cell/tissue mass, and moves the first cutting set toward the cell/tissue mass, cutting into the portion of the cell/tissue mass. The second cutting set moves from the first position to the second position, limiting the portion of the cell/tissue mass between the first cutting set and the second cutting set. | 06-25-2009 |
20100261261 | CELL/TISSUE MASS SELECTING APPARATUS AND DIVIDING MECHANISM THEREOF - A selecting apparatus for selecting cell/tissue mass includes a base, a feeding mechanism and a dividing mechanism. The base has a platform for placing the cell/tissue mass. The feeding mechanism, disposed on the base, moves relative to the platform. The dividing mechanism, disposed on the feeding mechanism, includes a first cutting set and a second cutting set connected therewith. The second cutting set reciprocally moves between a first position and a second position, toward the first cutting set. The feeding mechanism moves the dividing mechanism above the platform, aligning the dividing mechanism with a portion of the cell/tissue mass, and moves the first cutting set toward the cell/tissue mass, cutting into the portion of the cell/tissue mass. The second cutting set moves from the first position to the second position, limiting the portion of the cell/tissue mass between the first cutting set and the second cutting set. | 10-14-2010 |
Patent application number | Description | Published |
20110189827 | METHOD OF FABRICATING EFUSE STRUCTURE, RESISTOR STURCTURE AND TRANSISTOR STURCTURE - A method of fabricating an efuse structure, a resistor structure and a transistor structure. First, a work function metal layer, a polysilicon layer and a first hard mask layer are formed to cover a transistor region, a resistor region and an e-fuse region on a substrate. Then, the work function metal layer on the resistor region and the efuse region is removed by using a first photomask. Later, a gate, a resistor, an efuse are formed in the transistor region, the resistor region and the efuse region respectively. After that, a dielectric layer aligning with the top surface of the gate is formed. Later, the polysilicon layer in the gate is removed by taking a second hard mask as a mask to form a recess. Finally, a metal layer fills up the recess. | 08-04-2011 |
20120070952 | REMOVING METHOD OF A HARD MASK - A removing method of a hard mask includes the following steps. A substrate is provided. At least two MOSFETs are formed on the substrate. An isolating structure is formed in the substrate and located between the at least two MOSFETs. Each of the MOSEFTs includes a gate insulating layer, a gate, a spacer and a hard mask on the gate. A protecting structure is formed on the isolating structure and the hard mask is exposed from the protecting structure. The exposed hard mask is removed to expose the gate. | 03-22-2012 |
20120088368 | METHOD OF SELECTIVELY REMOVING PATTERNED HARD MASK - A method of selectively removing a patterned hard mask is described. A substrate with a patterned target layer thereon is provided, wherein the patterned target layer includes a first target pattern and at least one second target pattern, and the patterned hard mask includes a first mask pattern on the first target pattern and a second mask pattern on the at least one second target pattern. A first photoresist layer is formed covering the first mask pattern. The sidewall of the at least one second target pattern is covered by a second photoresist layer. The second mask pattern is removed using the first photoresist layer and the second photoresist layer as a mask. | 04-12-2012 |
20120142157 | Method of fabricating a semiconductor structure - The method of fabricating a semiconductor structure according to the present invention includes planarizing an inter-layer dielectric layer and further a hard mask to remove a portion of hard mask in a thickness direction. The remaining hard mask has a thickness less than the original thickness of the hard mask. The remaining hard mask and the dummy gate are removed to form a recess. After a gate material is filled into the recess, a gate with a relatively accurate height can be obtained. | 06-07-2012 |
20120220113 | Method of Manufacturing Semiconductor Device Having Metal Gate - The present invention provides a method of manufacturing semiconductor device having metal gate. First, a substrate is provided. A first conductive type transistor having a first sacrifice gate and a second conductive type transistor having a second sacrifice gate are disposed on the substrate. The first sacrifice gate is removed to form a first trench and then a first metal layer and a first material layer are formed in the first trench. Next, the first metal layer and the first material layer are flattened. The second sacrifice gate is removed to form a second trench and then a second metal layer and a second material layer are formed in the second trench. Lastly, the second metal layer and the second material layer are flattened. | 08-30-2012 |
20120244669 | Method of Manufacturing Semiconductor Device Having Metal Gates - The present invention provides a method of manufacturing semiconductor device having metal gates. First, a substrate is provided. A first conductive type transistor having a first sacrifice gate and a second conductive type transistor having a second sacrifice gate are disposed on the substrate. The first sacrifice gate is removed to form a first trench. Then, a first metal layer is formed in the first trench. The second sacrifice gate is removed to form a second trench. Next, a second metal layer is formed in the first trench and the second trench. Lastly, a third metal layer is formed on the second metal layer wherein the third metal layer is filled into the first trench and the second trench. | 09-27-2012 |
20120256276 | Metal Gate and Fabricating Method Thereof - A method of manufacturing a metal gate is provided. The method includes providing a substrate. Then, a gate dielectric layer is formed on the substrate. A multi-layered stack structure having a work function metal layer is formed on the gate dielectric layer. An O | 10-11-2012 |
20120313178 | SEMICONDUCTOR DEVICE HAVING METAL GATE AND MANUFACTURING METHOD THEREOF - A method of manufacturing a semiconductor device having metal gate includes providing a substrate having a first transistor and a second transistor formed thereon, the first transistor having a first gate trench formed therein, forming a first work function metal layer in the first gate trench, forming a sacrificial masking layer in the first gate trench, removing a portion of the sacrificial masking layer to expose a portion of the first work function metal layer, removing the exposed first function metal layer to form a U-shaped work function metal layer in the first gate trench, and removing the sacrificial masking layer. The first transistor includes a first conductivity type and the second transistor includes a second conductivity type. The first conductivity type and the second conductivity type are complementary. | 12-13-2012 |
20130137256 | SEMICONDUCTOR PROCESS - A semiconductor process is provided. The prior steps include: a first gate including a first cap layer and a second gate including a second cap layer are formed on a substrate. A hard mask layer is formed to cover the first gate and the second gate. The material of the hard mask layer is different from the material of the first cap layer and the second cap layer. The hard mask layer is removed entirely after a lithography process and an etching process are performed. The following steps include: a material is formed to entirely cover the first gate and the second gate. The material, the first gate and the second gate are etched back to make the first gate and the second gate have the same level and expose layers in both of them. | 05-30-2013 |
20130234216 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE AND PMOS DEVICE FABRICATED BY THE METHOD - A method for fabricating a semiconductor device is described. A gate layer, a C-doped first protective layer and a hard mask layer are formed on a substrate and then patterned to form a first stack in a first area and a second stack in a second area. A second protective layer is formed on the sidewalls of the first and the second stacks. A blocking layer is formed in the first area and a first spacer formed on the sidewall of the second protective layers on the sidewall of the second stack in the second area. A semiconductor compound is formed in the substrate beside the first spacer. The blocking layer and the first spacer are removed. The hard mask layer in the first stack and the second stack is removed. | 09-12-2013 |
20140103443 | SEMICONDUCTOR DEVICE HAVING METAL GATE AND MANUFACTURING METHOD THEREOF - A semiconductor device having a metal gate includes a substrate having a first gate trench and a second gate trench formed thereon, a gate dielectric layer respectively formed in the first gate trench and the second gate trench, a first work function metal layer formed on the gate dielectric layer in the first gate trench and the second gate trench, a second work function metal layer respectively formed in the first gate trench and the second gate trench, and a filling metal layer formed on the second work function metal layer. An opening width of the second gate trench is larger than an opening width of the first gate trench. An upper area of the second work function metal layer in the first gate trench is wider than a lower area of the second work function metal layer in the first gate trench. | 04-17-2014 |
20140127892 | SEMICONDUCTOR DEVICE HAVING METAL GATE AND MANUFACTURING METHOD THEREOF - A method of manufacturing a semiconductor device having metal gate includes providing a substrate having a first transistor and a second transistor formed thereon, the first transistor having a first gate trench formed therein, forming a first work function metal layer in the first gate trench, forming a sacrificial masking layer in the first gate trench, removing a portion of the sacrificial masking layer to expose a portion of the first work function metal layer, removing the exposed first function metal layer to form a U-shaped work function metal layer in the first gate trench, and removing the sacrificial masking layer. The first transistor includes a first conductivity type and the second transistor includes a second conductivity type. The first conductivity type and the second conductivity type are complementary. | 05-08-2014 |
20140339652 | SEMICONDUCTOR DEVICE WITH OXYGEN-CONTAINING METAL GATES - A semiconductor device with oxygen-containing metal gates includes a substrate, a gate dielectric layer and a multi-layered stack structure. The multi-layered stack structure is disposed on the substrate. At least one layer of the multi-layered stack structure includes a work function metal layer. The concentration of oxygen in the side of one layer of the multi-layered stack structure closer to the gate dielectric layer is less than that in the side of one layer of the multi-layered stack structure opposite to the gate dielectric layer. | 11-20-2014 |
Patent application number | Description | Published |
20100066959 | LIQUID CRYSTAL PANEL AND LIQUID CRYSTAL MIXTURE - A liquid crystal panel including a first substrate, a second substrate, a liquid crystal layer disposed between the first substrate and the second substrate, a counter electrode, a pixel array structure, at least one alignment layer and at least one polymer layer is provided. The counter electrode is disposed between the liquid crystal layer and the first substrate. The pixel array structure is disposed between the liquid crystal layer and the second substrate. The alignment layer is disposed between the counter electrode and the liquid crystal layer and between the pixel array structure and the liquid crystal layer. The polymer layer is disposed between the alignment layer and the liquid crystal layer, and a material of the polymer layer includes polymer monomers and polymethyl methacrylate (PMMA). A content of PMMA in the polymer layer is greater than 1 ppm and smaller than 15000 ppm. | 03-18-2010 |
20110242012 | ORGANIC ELECTRO-LUMINESCENT DEVICE PACKAGE AND FABRICATING METHOD THEREOF - An organic electro-luminescent device package includes an organic electro-luminescent device array substrate, a transparent cover, and a fit. The organic electro-luminescent device array substrate includes a first substrate and a plurality of organic electro-luminescent devices arranged on the first substrate in an array. The transparent cover is disposed over the organic electro-luminescent device array substrate. The transparent cover includes a second substrate and a conductive layer disposed on the second substrate. The organic electro-luminescent devices are located between the first substrate and the second substrate. The frit is disposed between the organic electro-luminescent device array substrate and the transparent cover to surround the organic electro-luminescent devices. The fit is located between the first substrate and a portion of the conductive layer, and the portion of the conductive layer corresponding to the frit is transparent. | 10-06-2011 |
20120168725 | ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device including a first electrode layer, a second electrode layer, a light emitting layer and a hole injection layer is provided. The light emitting layer is disposed between the first electrode layer and the second electrode layer. The hole injection layer is disposed between the first electrode layer and the light emitting layer, wherein the hole injection layer includes a first material layer and a second material layer. The second material layer is disposed on the first material layer and includes a main material and a doping material, wherein the doping material of the second material layer and a material of the first material layer are substantially the same. | 07-05-2012 |
20120294003 | MOTHER SUBSTRATE STRUCTURE OF LIGHT EMITTING DEVICES, LIGHT EMITTING DEVICE AND METHOD OF FABRICATING THE SAME - A mother substrate structure includes a mother substrate, a cover plate, a sealant and a spacer structure. The mother substrate has light emitting units thereon. The cover plate is disposed above the mother substrate and has unit regions, each unit region corresponding to one of the light emitting unit. The cover plate has a cutting line around each unit region, sealant regions between the cutting line and each of the unit regions, and spacer disposing regions between the cutting line and each of the sealant regions, wherein a distance between the cutting line and each of the spacer disposing region is 0˜100 um. The sealant is disposed in the sealant regions to bond the mother substrate and the cover plate. The spacer structure is disposed in the spacer disposing regions and surrounds each of the light emitting units, and materials of the spacer structure and the sealant include a glass fit. | 11-22-2012 |
Patent application number | Description | Published |
20080239190 | PIXEL STRUCTURE AND DRIVING METHOD - A pixel structure includes a scan line, a data line, a first thin film transistor (TFT), a second TFT, a first pixel electrode, a second pixel electrode and a third pixel electrode. The first TFT and the second TFT respectively possessing a first drain electrode and a second drain electrode are electrically connected to the scan line and the data line. The first pixel electrode is electrically connected to the first drain electrode. The second pixel electrode is placed on and coupled to parts of the first drain electrode, and the third pixel electrode is placed on and coupled to parts of the second drain electrode. As a result, the pixel structure is capable of reducing display quality variations arisen from different viewing angles. | 10-02-2008 |
20090079669 | FLAT PANEL DISPLAY - A flat panel display is provided. The flat panel display includes a display panel, a gate driver, a source driver and a signal switching unit. The gate driver outputs a gate signal. The signal switching unit turns on the first terminal and the second terminal thereof to deliver the gate signal to a first scan line during a preceding half period of a frame period. Moreover, the signal switching unit turns on the first terminal and the third terminal thereof during a rear half period of the frame period, so that the gate signal, which is previously delivered to the first scan line, is delivered to the second scan line at this time. In this way, the source driver drives the display panel in coordination with the gate signal delivered by the first and second scan lines. | 03-26-2009 |
20090231505 | MULTI-DOMAIN VERTICAL ALIGNMENT (MVA) PIXEL STRUCTURE - Each Multi-domain Vertical Alignment (MVA) pixel structures on a display panel array includes at least two sub-pixels. By adjusting the channel W/L ratios of the transistors in the sub-pixels, the sub-pixels may have different display voltages so as to improve the display quality in a slant vision. A transistor is disposed between one of the sub-pixels and a common line (Vcs) as the dispersion path for remaining electric charges to improve the condition of burn-in. | 09-17-2009 |
Patent application number | Description | Published |
20110097263 | KIT FORMULATION FOR THE PREPARATION OF IMMUNOLIPOSOME DRUG IN COMBINED BIMODALITY RADIOCHEMOTHERAPY - A kit formulation for the preparation of immunoliposome drug in combined chemotherapy and radionuclide therapy is disclosed, which consists: (1) a vial A containing proteins; (2) a vial B containing Traut's reagent; (3) a vial C containing DSPC, Cholesterol, mPEG-DSPE, Mal-DSPE-PEG and chemotherapy drug; (4) a vial D containing BMEDA, gluconate acetate, SnCl | 04-28-2011 |
20110158903 | ONE POT PROCESSES OF PREPARING MULTIFUNCTIONAL LIPOSOME DRUG FOR IMAGING, DELIVERY AND TARGETING IN CANCER DIAGNOSIS AND THERAPY - One pot process of preparing multifunctional liposome drug is provided. In this one pot process, liposome reacted with radionuclide labeled solution, chemotherapy drug, and targeted ligand at appropriate temperature. The product in this invention for preparation multifunctional liposome drugs in for imaging, delivery and targeting in cancer diagnosis and therapy has proved to be more simple, convenient, effective and easier than the prior art is. | 06-30-2011 |
20120107232 | KIT FOR PREPARING A RADIOLABELED LIPOSOME AND A METHOD USING THE SAME - A kit for preparing a radiolabeled liposome is provided, the kit including a liposome suspension and a radionuclide, wherein the liposome suspension includes a conjugate with a structure of [chelator-hydrophilic polymer-lipid]. A method for preparing a radiolabeled liposome using the kit is also disclosed herein, thereby the radiolabeled liposome being produced with the conjugate connected to the surface therein. The advantages of the present disclose such as simple, convenient and without purifying for the produced radiolabeled liposome are thus achieved. Further, the produced radiolabeled liposome has a high specific activity and a high sensitivity and suits for the clinical use. | 05-03-2012 |
Patent application number | Description | Published |
20090017604 | METHOD FOR FABRICATING A SEMICONDUCTOR DEVICE - A method for fabricating a semiconductor device is provided. The method for fabricating the semiconductor device comprises providing a substrate. Under an atmosphere containing a fluoride nitride compound, a plasma treatment process is performed to simultaneously fluorinate and nitrify a surface of the substrate. Thereafter, a dielectric layer is formed on the substrate. | 01-15-2009 |
20090023300 | METHOD OF FORMING SHADOW LAYER ON THE WAFER BEVEL - A method of forming a shadow layer on a wafer bevel region is provided. First, a substrate having the wafer bevel region and a central region is provided. Thereafter, an upper insulator and a lower insulator are provided. The upper insulator is disposed on an upper surface of the substrate and at least covers the central region. The lower insulator is disposed on a lower surface of the substrate and at least covers the central region. A shadow layer is then formed on the upper surface which is not covered by the upper insulator and on the lower surface which is not covered by the lower insulator. Next, the upper insulator and the lower insulator are removed. | 01-22-2009 |
20090061612 | NONVOLATILE MEMORY DEVICE AND METHOD FOR FABRICATING THE SAME - A nonvolatile memory device and method for fabricating the same are provided. The method for fabricating the nonvolatile memory device comprises providing a substrate. A tunnel insulating layer and a first conductive layer are formed in the substrate. A trench is formed through the first conductive layer and the tunnel insulating layer, wherein a portion of the substrate is exposed from the trench. A first insulating layer is formed in the trench. A second insulating layer is formed on sidewalls of the first insulating layer. A third insulating layer is conformably formed in the trench, covering the first insulating layer on a bottom portion of the trench and the second insulating layer on the sidewalls of the trench, wherein thickness of the third insulating layer on the sidewalls is thinner than that on the bottom of the trench. A control gate is formed on the third insulating layer in the trench. | 03-05-2009 |
20100200903 | NONVOLATILE MEMORY DEVICE AND METHOD FOR FABRICATING THE SAME - A nonvolatile memory device and method for fabricating the same are provided. The method for fabricating the nonvolatile memory device comprises providing a substrate. A tunnel insulating layer and a first conductive layer are formed in the substrate. A trench is formed through the first conductive layer and the tunnel insulating layer, wherein a portion of the substrate is exposed from the trench. A first insulating layer is formed in the trench. A second insulating layer is formed on sidewalls of the first insulating layer. A third insulating layer is conformably formed in the trench, covering the first insulating layer on a bottom portion of the trench and the second insulating layer on the sidewalls of the trench, wherein thickness of the third insulating layer on the sidewalls is thinner than that on the bottom of the trench. A control gate is formed on the third insulating layer in the trench. | 08-12-2010 |
Patent application number | Description | Published |
20110318493 | CHEMICAL BATH DEPOSITION APPARATUSES AND FABRICATION METHODS FOR CHEMICAL COMPOUND THIN FILMS - Chemical bath deposition (CBD) apparatuses and fabrication methods for compound thin films are presented. A chemical bath deposition apparatus includes a chemical bath reaction container, a substrate chuck for fixing a substrate arranged face-down toward the bottom of the chemical bath reaction container, multiple solution containers connecting to a reaction solution mixer and further connection to the chemical bath reaction container, and a temperature control system including a first heater controlling the temperature of the chemical bath reaction container, a second heater controlling the temperature of the substrate chuck, and a third heater controlling the temperature of the multiple solution containers. | 12-29-2011 |
20120132134 | APPARATUS FOR CHEMICAL BATH DEPOSITION - The invention provides a film deposition apparatus, which includes a first cover and a second cover, wherein the first cover and the second cover are disposed opposite to each other, and the first cover has at least two holes, and a spacer disposed between the first cover and the second cover, wherein the first cover, the spacer and the second cover form a film deposition space. | 05-31-2012 |
20130152856 | CHEMICAL BATH DEPOSITION (CBD) APPARATUS - A chemical bath deposition (CBD) apparatus includes a first cap, a second cap, and a solution input/output device. The second cap is arranged corresponding to the first cap so as to form a deposition space. The solution input/output device is located in the first cap so as to feed a solution into/out of the deposition space. The position of the solution input/output device is fixed, or the solution input/output device is movable in the deposition space. | 06-20-2013 |
20140161979 | FABRICATION METHODS FOR CHEMICAL COMPOUND THIN FILMS - Chemical bath deposition (CBD) apparatuses and fabrication methods for compound thin films are presented. A chemical bath deposition apparatus includes a chemical bath reaction container, a substrate chuck for fixing a substrate arranged face-down toward the bottom of the chemical bath reaction container, multiple solution containers connecting to a reaction solution mixer and further connection to the chemical bath reaction container, and a temperature control system including a first heater controlling the temperature of the chemical bath reaction container, a second heater controlling the temperature of the substrate chuck, and a third heater controlling the temperature of the multiple solution containers. | 06-12-2014 |
Patent application number | Description | Published |
20110249169 | IMAGE CAPTURE LENS MODULES AND IMAGE CAPTURE SYSTEMS - Image capture lens modules are presented. An image capture lens module includes a first compound lens with a first element and a second element arranged in sequence from an object side to an image side. The second element is a plano-convex lens with a convex surface facing the image side on a paraxial line. A second compound lens includes a third element, a fourth element, and a fifth element arranged in sequence from an object side to an image side. The third element is a plano-convex lens with a convex surface facing the object side on a paraxial line, and the fifth element is a plano-concave lens with a concave surface facing the image side on a paraxial line. A third compound lens includes a sixth element and a seventh element arranged in sequence from an object side to an image side, wherein the sixth element is a plano-convex lens with a convex surface facing the object side on a paraxial line. | 10-13-2011 |
20120062997 | OPTICAL DEVICE HAVING EXTENTED DEPTH OF FIELD AND FABRICATION METHOD THEREOF - A method for designing an optical device which includes a lens and a microlens array is disclosed. A point spread function (PSF) of the lens including rotationally symmetrical aberration coefficients is formulated, wherein the PSF presents various spherical spot sizes. A virtual phase mask having phase coefficients is provided and the phase coefficients are added to the PSF of the lens, such that the various spherical spot sizes are homogenized. The virtual phase mask is transformed into a polynomial function comprising high and low order aberration coefficients. A surface contour of the lens is determined according to the rotationally symmetrical aberration coefficients and the low order aberration coefficients, and a sag height of each microlens in the microlens array is determined according to the high order aberration coefficients. An optical device using the design method is also disclosed. | 03-15-2012 |
20120176690 | OPTICAL LENS MODULE - An optical lens module is provided, including a first lens, a second lens, a third lens, and an aperture stop formed in the first lens by wafer level processing. The first lens, the second lens, and the third lens are sequentially arranged from an object side to an image side along an optical axis of the optical lens module. The first lens has a convex surface and a concave surface, respectively, on an object side and an image side. The second lens has a concave surface and a convex surface, respectively, on the object side and the image side. The third lens has a convex peripheral portion on the image side, wherein the convex peripheral portion forms a surface with a concave center on the image side, and the surface has a deflection point. | 07-12-2012 |