Abstract:
A display device includes: a plurality of gate lines for transmitting a gate signal; a plurality of data lines for transmitting a data signal; a plurality of switching elements connected to the gate lines and the data lines; a plurality of pixel electrodes connected to the switching elements; a gate driver connected to the gate lines and including a gate signal generation mechanism for generating the gate signal and applying the gate signal to the gate lines; a data driver for applying the data signal to the data lines; a signal controller for receiving and processing incoming image signals to be supplied to the data driver, the signal controller generating a first gate control signal for controlling the gate driver and generating a data control signal for controlling the data driver; and a signal generator for receiving the first gate control signal and generating second and third gate control signals based on the received first gate control signal, wherein the gate driver is capable of receiving the second and third gate control signals, wherein the gate driver generates the gate signal based on the second and third gate signals, and wherein the period of the first gate control signal is the same as the period of the second and third gate control signals.
Abstract:
A display panel includes a source-pad portion, a first source fan-out portion and source lines. The source-pad portion has a group of pads to which a driving signal is applied from an external source. The source fan-out portion has output lines that are extended from the group of pads and are formed to have an asymmetric structure. The source lines are extended from the output lines, and pixels of different colors are connected to each of the source lines. Accordingly, a unit pixel portion is formed to be perpendicular to each other and a fan-out portion is formed to have the asymmetric structure, so that a size of a printed circuit board is remarkably decreased. Thus, costs for manufacturing a display apparatus may be decreased.
Abstract:
A display panel includes a source-pad portion, a first source fan-out portion and source lines. The source-pad portion has a group of pads to which a driving signal is applied from an external source. The source fan-out portion has output lines that are extended from the group of pads and are formed to have an asymmetric structure. The source lines are extended from the output lines, and pixels of different colors are connected to each of the source lines. Accordingly, a unit pixel portion is formed to be perpendicular to each other and a fan-out portion is formed to have the asymmetric structure, so that a size of a printed circuit board is remarkably decreased. Thus, costs for manufacturing a display apparatus may be decreased.
Abstract:
A display device includes: a plurality of gate lines for transmitting a gate signal; a plurality of data lines for transmitting a data signal; a plurality of switching elements connected to the gate lines and the data lines; a plurality of pixel electrodes connected to the switching elements; a gate driver connected to the gate lines and including a gate signal generation mechanism for generating the gate signal and applying the gate signal to the gate lines; a data driver for applying the data signal to the data lines; a signal controller for receiving and processing incoming image signals to be supplied to the data driver, the signal controller generating a first gate control signal for controlling the gate driver and generating a data control signal for controlling the data driver; and a signal generator for receiving the first gate control signal and generating second and third gate control signals based on the received first gate control signal, wherein the gate driver is capable of receiving the second and third gate control signals, wherein the gate driver generates the gate signal based on the second and third gate signals, and wherein the period of the first gate control signal is the same as the period of the second and third gate control signals.
Abstract:
A driving-voltage generation apparatus and a liquid crystal display (LCD) having the same are provided. The driving-voltage generation apparatus includes an input node coupled to an input voltage, a voltage converter configured to convert the input voltage into an output voltage and output the output voltage, and a voltage cutoff unit electrically connected between the input node and the voltage converter. The voltage cutoff unit is configured to sense the input voltage and selectively cut off the supply of the input voltage.
Abstract:
A display panel includes a source-pad portion, a first source fan-out portion and source lines. The source-pad portion has a group of pads to which a driving signal is applied from an external source. The source fan-out portion has output lines that are extended from the group of pads and are formed to have an asymmetric structure. The source lines are extended from the output lines, and pixels of different colors are connected to each of the source lines. Accordingly, a unit pixel portion is formed to be perpendicular to each other and a fan-out portion is formed to have the asymmetric structure, so that a size of a printed circuit board is remarkably decreased. Thus, costs for manufacturing a display apparatus may be decreased.
Abstract:
A display panel includes a source-pad portion, a first source fan-out portion and source lines. The source-pad portion has a group of pads to which a driving signal is applied from an external source. The source fan-out portion has output lines that are extended from the group of pads and are formed to have an asymmetric structure. The source lines are extended from the output lines, and pixels of different colors are connected to each of the source lines. Accordingly, a unit pixel portion is formed to be perpendicular to each other and a fan-out portion is formed to have the asymmetric structure, so that a size of a printed circuit board is remarkably decreased. Thus, costs for manufacturing a display apparatus may be decreased.
Abstract:
A driving-voltage generation apparatus and a liquid crystal display (LCD) having the same are provided. The driving-voltage generation apparatus includes an input node coupled to an input voltage, a voltage converter configured to convert the input voltage into an output voltage and output the output voltage, and a voltage cutoff unit electrically connected between the input node and the voltage converter. The voltage cutoff unit is configured to sense the input voltage and selectively cut off the supply of the input voltage.
Abstract:
A liquid crystal display includes a liquid crystal panel, which receives a plurality of gate signals and a plurality of data signals to display an image, a gate driver and a signal supplier which supplies a first scan-start signal, a clock signal and a clock bar signal to the gate driver, the clock bar signal having an inverse phase to that of the clock signal, wherein the clock signal includes a maintenance period and first and second transition periods, the maintenance period is defined when the clock signal is maintained at a first level, the first and second transition periods defined from a point when the clock signal transitions to a second level from the first level and to a subsequent point when the clock signal transitions to the first level from the second level, the first scan-start signal is maintained at the second level during the first transition period.