Patent application number | Description | Published |
20100066693 | TOUCH PANEL DEVICE - A touch panel device according to the present invention includes: a stylus pen including a conductive stylus pen electrode portion at a tip portion thereof; a plurality of capacitance detecting interconnections formed on a substrate in row and column directions; an oscillator circuit which outputs an oscillation signal for performing charging/discharging to each of the plurality of capacitance detecting interconnections, the oscillation signal having a cycle which changes in accordance with an amount of electric charges in the charging/discharging; and a counter circuit and a computing circuit/control circuit which compute, based on a change of the cycle being in accordance with a capacitance formed between the electrode portion of the stylus pen and the capacitance detecting interconnections, positional coordinates of the stylus pen brought in proximity to the capacitance detecting interconnections in a non-contact manner, wherein the stylus pen outputs to the electrode portion of the stylus pen an input pen signal which is in synchronization with the oscillation signal, has a phase different from a phase of the oscillation signal, and has a larger voltage amplitude compared with the oscillation signal. | 03-18-2010 |
20100253647 | TOUCH PANEL AND DISPLAY DEVICE COMPRISING THE SAME - A touch panel capable of calculating touch position coordinates of an indicator with high accuracy in a desired detection time even if a large number of detection wire groups are provided. An oscillator circuit selects one of detection wires selected by a circuit or the like according to a command from a detection control circuit and oscillates. A circuit counts an output signal from the oscillator circuit up to a first count value. A circuit measures a period of the count. A circuit determines that there is a touch when it detects the detection wire of which the measured period is equal to or higher than a threshold value and sends the detection wire giving a maximum value equal to or higher than the threshold value to a circuit as a touch detection wire. The circuit causes the circuit or the like to select the touch detection wire and the detection wires adjacent thereto on both sides, the circuit counts up until the count value becomes a second count value larger than the first count value, and the circuit measures the count period. The circuit performs interpolation on the basis of the count value obtained by subtracting a background capacitance value from a measured value obtained by the circuit, to thereby determine the touch coordinates. | 10-07-2010 |
20100302204 | TOUCH PANEL AND DISPLAY APPARATUS HAVING THE SAME - An object is to obtain a touch panel with improved sensitivity and enhanced display quality. A touch panel according to the present invention includes a touch screen including a plurality of first sensing lines formed of mesh-like conductors and arranged in parallel on a substrate, an insulating film formed over the substrate and the first sensing lines, a plurality of second sensing lines formed of mesh-like conductors and arranged in parallel on the insulating film, first dummy patterns arranged in areas opposed to areas between adjacent first sensing lines through the insulating film, and having a form as part of the mesh forms of the first sensing lines such that the adjacent first sensing lines form an apparently continuous mesh form in plan view, and second dummy patterns arranged in areas opposed to areas between adjacent second sensing lines through the insulating film, and having a form as part of the mesh forms of the second sensing lines such that the adjacent second sensing lines form an apparently continuous mesh form in plan view. | 12-02-2010 |
20110122988 | Semiconductor device and shift register circuit - A dual-gate transistor formed of two transistors connected in series between a first power terminal and a first node is used as a charging circuit for charging a gate node (first node) of a transistor intended to pull up an output terminal of a unit shift register. The dual-gate transistor is configured such that the connection node (second node) between the two transistors constituting the dual-gate transistor is pulled down to the L level by the capacitive coupling between the gate and second node in accordance with the change of the gate from the H level to the L level. | 05-26-2011 |
20110142191 | SHIFT REGISTER CIRCUIT - A shift register circuit comprises a first transistor connected between a clock terminal and an output terminal, a second transistor for charging a control electrode of the first transistor in response to activation of an output signal of the preceding stage, a third transistor for discharging the control electrode of the first transistor, an inverter using a control electrode of the third transistor as an output end, and a fourth transistor which discharges an input end of the inverter at power-off and is turned off after power-on. A fifth transistor which is a load element of the inverter charges the control electrode of the third transistor at power-on. It is thereby possible to initialize the respective levels of the nodes without any external initialization signal and prevent a decrease in the level change rate of the output signal in the shift register circuit. | 06-16-2011 |
20120207266 | SHIFT REGISTER CIRCUIT - A shift register circuit comprises a first transistor connected between a clock terminal and an output terminal, a second transistor for charging a control electrode of the first transistor in response to activation of an output signal of the preceding stage, a third transistor for discharging the control electrode of the first transistor, an inverter using a control electrode of the third transistor as an output end, and a fourth transistor which discharges an input end of the inverter at power-off and is turned off after power-on. A fifth transistor which is a load element of the inverter charges the control electrode of the third transistor at power-on. It is thereby possible to initialize the respective levels of the nodes without any external initialization signal and prevent a decrease in the level change rate of the output signal in the shift register circuit. | 08-16-2012 |
20130093721 | TOUCH PANEL AND DISPLAY DEVICE INCLUDING THE SAME - A touch screen of a touch panel includes plural detection column wirings and plural detection row wirings that cross the detection column wirings. Dummy column wirings having a similar configuration to that of the detection column wirings are arrayed at further outer sides of outermost detection column wirings out of the plural detection column wirings. Dummy row wirings having a similar configuration to that of the detection row wirings are arrayed at further outer sides of outermost detection row wirings out of the plural detection row wirings. | 04-18-2013 |
20130194232 | TOUCH SCREEN, TOUCH PANEL, AND DISPLAY DEVICE INCLUDING THE SAME - In a touch screen, the number of dummy column block region patterns is made smaller than the number of plurality of detection block region patterns. The plurality of detection block region pattern are obtained as a result of dividing a crossing region where a column direction wire bunch and a row direction wire bunch cross each other. The dummy column block region patterns are obtained as a result of dividing a crossing region where a dummy column direction wire bunch and a row direction wire bunch cross each other. | 08-01-2013 |
20130321318 | COORDINATE INPUT DEVICE AND TOUCH PANEL DEVICE - A coordinate input device and a touch panel device determine a correction value with a plurality of output values obtained from a plurality of sensors arranged in a touch panel based on the output value of a 1st peak sensor that outputs the largest output value, the output value of a 2nd peak sensor having the second largest output value, the output value of a 3rd peak sensor having the third largest output value, and the output value of a 4th peak sensor having the fourth largest output value. | 12-05-2013 |
20130337438 | MONOCLONAL ANTIBODY RECOGNIZING HUMAN PAPILLOMAVIRUS (HPV) L2 PROTEIN AND METHOD FOR MEASURING HPV-NEUTRALIZING ANTIBODY TITER USING THE SAME - The present invention relates to the development of a monoclonal antibody which has binding activity to many high-risk types of HPV, etc. The present invention also provides a simple and high-throughput method for measuring cross-neutralizing antibody titers, which is used for assay of cross-neutralizing antibody against HPV in serum samples from subjects, etc. The method of the present invention for measuring cross-neutralizing antibody titers comprises the steps of: preparing a monoclonal antibody against a peptide having a specific amino acid sequence common to high-risk types of HPV; and assaying cross-neutralizing antibody using this monoclonal antibody. | 12-19-2013 |
20140146008 | TOUCH PANEL DEVICE - A touch panel device includes an abnormal state determining part that determines if there is an abnormal state based on second difference information extracted by a second difference information extracting part and a second baseline stored in a second baseline storage, and a controller that, if the abnormal state determining part determines that there is an abnormal state, controls to update a first baseline stored in a first baseline storage and the second baseline stored in the second baseline storage. | 05-29-2014 |
20140152916 | TOUCHSCREEN - A touchscreen of the present invention is covered by wiring patterns of a row-directional line and a column-directional line being upper and lower two layers. A step height that is produced by an upper electrode riding on a lower electrode when a floating electrode is provided at a region adjacent to the row-directional line and the column-directional line is suppressed. | 06-05-2014 |