Patent application number | Description | Published |
20090115502 | REFERENCE CURRENT CIRCUIT, REFERENCE VOLTAGE CIRCUIT, AND STARTUP CIRCUIT - A current mirror circuit | 05-07-2009 |
20090295489 | PLL CIRCUIT - In a PLL circuit, a voltage controlled oscillator | 12-03-2009 |
20100244878 | PLL BURN-IN CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT - In a PLL which does not include a loop filter, an additional circuit for subjecting a voltage-controlled oscillator to a burn-in test with an appropriate oscillation frequency is realized by a less circuit configuration. | 09-30-2010 |
20110012664 | CLOCK SIGNAL AMPLIFIER CIRCUIT - A clock signal amplifier circuit includes: an inverter; a coupling capacitor connected to the input of the inverter; two resistors connected in series between the power supply potential and the ground potential, a connection node of the two resistors being connected to the input of the inverter; a feedback resistor provided between the input and output of the inverter; and two switches configured to perform a same open/close operation according to a control signal, the two switches being provided on any two of a supply path of the power supply potential to the inverter, a supply path of the ground potential to the inverter, and a feedback path of the inverter via the feedback resistor. | 01-20-2011 |
20110291715 | PHASE ADJUSTMENT CIRCUIT - In a phase adjustment circuit that divides the frequency of a double-frequency clock to obtain a 50% duty-cycle clock, a first 1/2 frequency division circuit having a phase inversion function generates an intermediate reference clock apart in phase from both a phase reference clock and a phase-adjusted clock. A first phase control circuit controls the phase of the intermediate reference clock to be in a desired phase state with respect to the phase reference clock. A second phase control circuit controls the phase of the phase-adjusted clock to be in a desired phase state with respect to the intermediate reference clock. Thus, when the phase-adjusted clock is adjusted to be close in phase to the phase reference clock, the phase difference between these clocks can be determined correctly and stably even if it varies due to clock jitter. | 12-01-2011 |
20120286835 | PLL CIRCUIT - A PLL circuit includes: a frequency division section; a phase detector configured to detect the phase difference between a reference clock signal and an output signal of the frequency division section; a loop filter configured to filter an output signal of the phase detector and output the result as a digital value; a selector configured to select either the digital value or a fixed value; a digitally controlled oscillator configured to oscillate at a frequency corresponding to the value selected by the selector; and a control section configured to instruct the selector to select the fixed value until receiving a start signal, and after receiving the start signal, instruct the selector to select the digital value, and the frequency division section to start output, at timing of an edge of the reference clock signal. | 11-15-2012 |
Patent application number | Description | Published |
20090002338 | Screen input type image display - In an image display device incorporating a touch sensor capable of detecting coordinates with simple structure and high precision, a transparent conductive film on a substrate SUB forming a display screen of the image display device is patterned to form detection electrodes taking the shape of a plurality of pad electrodes SSP arranged in a two-dimensional matrix form of rows (X direction) and columns (Y direction). Row connection electrodes LNL and column connection electrodes LNC connecting the detection electrodes in rows and columns of the two-dimensional matrix to each other are formed of the same transparent conductive film as the pad electrodes. By arranging the pad electrodes in the matrix form, the contact area of a finger or the like touching the screen can be made large, resulting in improved detection precision (resolution). The pad electrodes are connected at four corners to coordinate detection terminals PDT | 01-01-2009 |
20090102809 | Coordinate Detecting Device and Operation Method Using a Touch Panel - In a touch panel capable of detecting the coordinates of two pressed-down points individually at the same time, the coordinates detected while one point is pressed are stored and, if a second point is subsequently pressed, the stored coordinates of a first point are used to identify the coordinates closer to the stored coordinates as the first point and the coordinates of another detected point as the second point, thereby identifying an order in which the two points are pressed. Thereafter, what mouse operation has been executed at the coordinates of the first point is detected based on a positional relation between the coordinates of the first point and the coordinates of the second point, and a result of the detection is output to an application operable through a graphical user interface. | 04-23-2009 |
20090115742 | ON-SCREEN INPUT IMAGE DISPLAY SYSTEM - A detection resolution is improved in a display device that employs an electrostatic capacity coupling type touch panel provided with a transparent conductive film serving as a detection film. A plurality of electrode terminals ( | 05-07-2009 |
20090128518 | Screen-input image display device - The screen-input image display device has a touch panel for outputting touched locations of a finger or the like in contact with a display panel screen; and a sensing circuit for sensing coordinates of the touched locations based on the output of the touch panel. The touch panel has a transparent conductor film which is single layer on a transparent substrate, the transparent conductor film being patterned into numerous electrode pads arranged in rows and columns of a two-dimensional matrix, and surface areas of the electrode pads vary depending on the location of the touch areas. Coordinates of the touch locations are sensed based on the proportion of charge signals of the touch locations due to differences in surface areas of the electrode pads. | 05-21-2009 |
20090262095 | Electrostatic Capacitance Type Touch Panel and Screen Input Display Device Including the Same - An electrostatic capacitance type touch panel includes: a substrate; a plurality of first electrodes disposed in parallel on the substrate; an insulating film formed so as to cover the plurality of first electrodes; a plurality of second electrodes disposed in parallel to intersect the plurality of first electrodes on the insulating film; a plurality of first drawing wiring lines connected to the plurality of first electrodes to be drawn to a connection terminal; and a plurality of second drawing wiring lines connected to the plurality of second electrodes to be drawn to the connection terminal. The plurality of first drawing wiring lines have different lengths, larger widths as the lengths are shorter, and larger intervals between adjacent two of the plurality of first drawing wiring lines as the lengths are longer. | 10-22-2009 |
Patent application number | Description | Published |
20080198140 | Image display apparatus with image entry function - An image display apparatus with image entry function of high accuracy enabling high-speed direct screen input without decreasing a pixel aperture ratio. Data lines of thin-film transistors which do not receive light and storage lines are connected to respective selector switches. The selector switches are turned on and off by a switching signal supplied through a switching line from a control circuit. The conveyance of a drive signal and a video signal supplied from a gate line driving circuit and a data line driving circuit and the conveyance of a light signal to an X address detection circuit and a Y address detection circuit are switched by turning on and off the selector switches. | 08-21-2008 |
20080198143 | Image display apparatus with image entry function - An image display apparatus with image entry function capable of high-speed and high-accuracy direct screen entry without increasing the peripheral circuit scale or the number of circuit elements for each pixel that lower the pixel aperture ratio. A first pixel circuit and a second pixel circuit are alternately arrayed horizontally. First and second data lines are connected to a data driver and a sensor signal processor circuit. Selector switches are connected to the input terminal of the data driver. Gray scale voltages are sent from the data driver to the first and second data lines, and first and second photo sensor signals are sent to the sensor signal processor circuit. | 08-21-2008 |
20080303022 | Optical sensor element, optical sensor device and image display device using optical sensor element - A highly sensitive optical sensor element, and a switch element such as a sensor driver circuit are formed on the same insulating substrate by using an LTPS planar process to provide a low cost area sensor (optical sensor device) incorporating the sensor driver circuit and the like or an image display device incorporating the optical sensor element. As an optical sensor element structure, one electrode of the sensor element is manufactured with the same film of the polycrystalline silicon film that is an active layer of the switch element constituting a circuit. A photoelectric conversion unit for performing photoelectric conversion is made of an amorphous silicon or a polycrystalline silicon film of an intrinsic layer. A structure in which the amorphous silicon of the photoelectric conversion unit and the insulating layer are sandwiched between two electrodes of the sensor element is adopted. | 12-11-2008 |
20120068287 | Highly Sensitive Photo-Sensing Element and Photo-Sensing Device Using the Same - According to the present invention, a highly sensitive photo-sensing element and a sensor driver circuit are prepared by planer process on an insulating substrate by using only polycrystalline material. Both the photo-sensing element and the sensor driver circuit are made of polycrystalline silicon film. As the photo-sensing element, a photo transistor is formed by using TFT, which comprises a first electrode | 03-22-2012 |