Patent application number | Description | Published |
20130215655 | SWITCH CONTROLLER, SWITCH CONTROL METHOD, AND POWER SUPPLY DEVICE COMPRISING THE SWITCH CONTROLLER - An exemplary embodiment of the present invention relates to a switch controller, a method for controlling a switch, and a power supply including the switch controller. According to the exemplary embodiment of the present invention, an AC input passed through a dimmer is rectified such that an input voltage is generated, and the input voltage is transmitted to the power switch. A charging current is generated using a voltage that depends on the input voltage, a zero cross-point at which the input voltage becomes zero voltage is detected using a detection voltage output from a current source, and a reference signal synchronized at the detected zero cross-point is generated. | 08-22-2013 |
20130300315 | SWITCH CONTROLLER, POWER SUPPLY DEVICE COMPRISING THE SAME, AND DRIVING METHOD OF THE POWER SUPPLY DEVICE - The power supply device includes a power switch including one terminal to which an input voltage is transferred; an inductor including one terminal connected to another terminal of the power switch; a diode connected between a ground and a floating ground; a sensing resistor connected between the floating ground and the one terminal of the inductor. A switch controller compares a modulation sensing voltage depending on a sensing voltage generated from the sensing resistor with a high peak reference and a low peak reference when a LED string is connected between an inductor and the ground. The switch controller controls a switching operation of a power switch according to the comparison result. The high peak reference and the low peak reference are references for controlling an upper limit and a lower limit of an LED current flowing through the LED string, respectively. | 11-14-2013 |
20140126088 | PROTECTION CIRCUIT, SWITCH CONTROL CIRCUIT, AND POWER SUPPLY DEVICE COMPRISING THE SAME - Exemplary embodiments relate to a protection circuit, a switch circuit, and a power supply device including the same. The protection circuit includes: a detection circuit that generates a detection voltage that is increased by fluctuation of a comparison voltage; and an SCR (Silicon-Controlled Rectifier Thyristor) that includes a gate where the detection voltage is inputted, an anode electrically connected to a power voltage, and a cathode connected to a predetermined reference voltage, which is turned on when the detection voltage is inputted in the gate, and is turned off when a current does not flow to the anode. | 05-08-2014 |
Patent application number | Description | Published |
20100118024 | METHOD FOR REMOVING OFFSET BETWEEN CHANNELS OF LCD PANEL - A method of removing offsets between channels of a liquid crystal panel is provided. The method includes: alternately arranging first type output buffers and second type output buffers for driving the pixels in units of at least two rows of the pixels; and arranging the first type output buffers and the second type output buffers in units of at least two columns of the pixels so that the output buffers with types opposite to those of previous two columns are arranged. The second type output buffers are embodied by switching connections among the differential transistors and connections among the load transistors in the first type output buffers. | 05-13-2010 |
20110096054 | LIQUID CRYSTAL DISPLAY PANEL DRIVING CIRCUIT - Disclosed is a liquid crystal display panel driving circuit for driving a liquid crystal display panel with a resolution of N bits. N-bit digital data including upper X bits and lower Y bits is inputted. The liquid crystal display panel driving circuit includes a resistor string unit according to areas, a DAC converter switching unit according to areas, and an interpolation amplifier. The resistor string unit outputs analog reference voltages at different ratios according to three areas. The DAC converter switching unit receives the N-bit digital data, selects (Y+1) analog voltages from the analog reference voltages based on the upper X bits, outputs the (Y+1) analog voltages, and outputs the (Y+1) analog voltages of different combinations based on the lower Y bits. The interpolation amplifier receives the (Y+1) analog voltages and generates an interpolated output voltage by setting weights for the (Y+1) analog voltages by using multi-factors. | 04-28-2011 |
20110102408 | LAYOUT OF LCD DRIVING CIRCUIT - A layout of a liquid crystal display driving circuit is capable of minimizing an area which the layout occupies. The layout of the liquid crystal display driving circuit transmits positive analog voltages and negative analog voltages to a liquid crystal display, and includes a digital-to-analog converter (DAC) block and a buffer block. The DAC block has N/2 positive DACs generating the respective positive analog voltages corresponding to corresponding digital data using a positive reference voltage, where N is the integer, and N/2 negative DACs generating the respective negative analog voltages corresponding to corresponding digital data using a negative reference voltage. The buffer block has N/2 positive and negative buffers, which buffer the N/2 positive and negative analog voltages, and are alternately arranged. The N/2 positive and negative DACs are divided into groups one by one or in twos or more, and the groups are alternately arranged. | 05-05-2011 |
20110102410 | CIRCUIT AND METHOD FOR DRIVING OLED DISPLAY - A circuit for driving an organic light emitting diode display includes a display panel that displays an image by using organic light emitting diodes disposed at intersection areas of a plurality of gate lines and a plurality of data lines; a threshold voltage detection control unit that supplies a precharge voltage by sequentially turning on transistors for threshold voltage detection, which are connected among the data lines and the organic light emitting diodes on the display panel, in units of horizontal lines, and enables threshold voltages to be detected; and a source driver that detects threshold voltages of all organic light emitting diodes arranged on a corresponding horizontal line, and repeats an operation, as necessary, for sampling/holding the detected threshold voltages through M sample/hold circuits, converting the sampled/held threshold voltages into digital signals, and storing the digital signals in a memory. | 05-05-2011 |
20110164020 | DISPLAY DRIVE CIRCUIT AND DRIVE METHOD - A display driving circuit and method is capable of minimizing the residual image of a display panel as well as consumption electric current. The display driving circuit generates driving signals corresponding to valid data and black data and transmits the driving signals to a display panel, and includes N data selection switches (where N is the integer), N buffers, N buffer output selection switches, and multiple charge sharing switches. The N data selection switches select one of the valid data and the black data. The N buffers buffer the signal selected by the respective data selection switches. The N buffer output selection switches switch outputs of the buffers to output the respective driving signals. The multiple charge sharing switches connect the neighboring pairs of the driving signals. | 07-07-2011 |
20110169813 | DISPLAY PANEL DRIVING CIRCUIT HAVING CHARGE SHARING SWITCH FORMED IN PAD - A display panel driving circuit includes N number of amplifiers configured to supply N number of output voltages to a display panel; N number of output switches configured to transmit output signals from the N number of amplifiers through N number of pads to the display panel; and a plurality of charge sharing switches configured to share charges among the N number of pads, wherein the charge sharing switches are formed in the pads. | 07-14-2011 |
20110298769 | LIQUID CRYSTAL DISPLAY DRIVING CIRCUIT WITH LESS CURRENT CONSUMPTION - An LCD driving circuit includes a first buffer configured to have a terminal for a first voltage, a terminal for a second voltage and a terminal for an intermediate voltage between the first voltage and the second voltage, and be driven in a range from the first voltage to the intermediate voltage; and a second buffer configured to have a terminal for the first voltage, a terminal for the second voltage and a terminal for the intermediate voltage, and be driven in a range from the intermediate voltage to the second voltage. The terminal for the intermediate voltage of the first buffer and the terminal for the intermediate voltage of the second buffer are connected with each other, and the first voltage is a highest voltage, the second voltage is a lowest voltage, and the intermediate voltage is in a range from the first voltage to the second voltage. | 12-08-2011 |
20120081338 | SOURCE DRIVER INTEGRATED CIRCUIT WITH IMPROVED SLEW RATE - Disclosed is a source driver integrated circuit with an improved slew rate by disposing a switching unit, which operates as a resistance component during display driving, before the feedback line of an output buffer. According to the source driver integrated circuit with an improved slew rate, a switching unit, which operates as a resistance component when a signal is transferred, is disposed in the feedback loop of an output buffer, so that the resistance component is not shown to a panel load, thereby improving the slew rate of an output signal. In addition, the improved slew rate makes it possible to easily implement an image through a display. | 04-05-2012 |
20120161661 | DISPLAY DRIVING CIRCUIT HAVING HALF VDD POWER SUPPLY CIRCUIT BUILT THEREIN AND DISPLAY DRIVING SYSTEM INCLUDING THE SAME - The present invention relates to a display driving circuit and a display driving system, and more particularly, to a display driving circuit having a half-VDD power supply circuit built therein and a display driving system including the same, in which the display driving circuit is further provided with a half voltage VDD terminal in addition to the highest voltage VDD terminal and the lowest voltage VSS terminal, and the half voltage, which is between the highest voltage and the lowest voltage, is generated and supplied by the half voltage power supply from the inside of the display driving circuit, rather than being supplied from an external power supply. | 06-28-2012 |
20130244529 | METHOD FOR ROUTING GAMMA VOLTAGES IN FLAT PANEL DISPLAY - A method for routing gamma voltages in a flat panel display that includes a plurality of source driver integrated circuits (SDICs) each having a plurality of gamma buffers. The method includes forming routing lines to route a plurality of gamma voltages; connecting the routing lines to output terminals of the gamma buffers; applying the reset gamma voltage to the gamma buffer of selected SDIC after selecting the SDIC in which the gamma voltage is required to be reset in consideration of heating values of the SDICs, and changing connection between a routing line corresponding to the selected gamma buffer and a tap point of a resistor string of the SDIC such that the connection corresponds to the reset gamma voltage. | 09-19-2013 |
20150015473 | DISPLAY DRIVING CIRCUIT AND DISPLAY DEVICE - Disclosed are a display driving circuit and a display device. The display driving circuit includes an output buffer unit that outputs a pair of pixel signals, an output switch unit that directly transfers the pair of pixel signals to a pair of output lines or transfers the pair of pixel signals to the pair of output lines such that the pair of pixel signals cross each other in correspondence with repetitive panel charging/discharging periods, and a charge sharing switch unit that controls charge sharing of the pair of output lines in correspondence with a charge sharing period between the panel charging/discharging periods, and provides a variable connection resistance value for the charge sharing. Consequently, power consumption and heat generation of the display driving circuit are reduced. | 01-15-2015 |