KR101438219B1 - Method and apparatus for protecting flicker of (a) liquid display device - Google Patents

Abstract

The present invention relates to an apparatus and method for preventing flicker in a liquid crystal display device in which a liquid crystal can be driven in consideration of a sufficient charge of a liquid crystal when a power source of the liquid crystal display device is turned on, thereby minimizing flicker.

That is, according to the present invention, there is provided a liquid crystal display device including a lamp and a liquid crystal display module, comprising: a scaler for processing R, G, and B image signals input from the outside to be displayed on the liquid crystal display module; And a controller for controlling power supply through the power supply unit according to a horizontal / vertical synchronizing signal input from the outside, displaying a predetermined setting pattern through the scaler, A controller for controlling the liquid crystal display module to be displayed; and an inverter for controlling driving of the lamp according to a control signal of the controller.

Flicker / Black Screen

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flicker prevention device and a flicker prevention device for a liquid crystal display device,

The present invention relates to a liquid crystal display device, and more particularly, to a liquid crystal display device capable of minimizing a flicker phenomenon by allowing a liquid crystal to be driven in consideration of sufficiently charging the liquid crystal when the power source of the liquid crystal display device is turned on, Apparatus and method.

In accordance with the development of the information age, demands for display devices are increasing in various forms. Recently, various flat panel display devices such as LCD (Liquid Crystal Display), PDP (Plasma Display Panel) and ELD (Elctro Luminescent Display) And some have already been used as display devices in many devices.

Among them, the LCD is the most widely used while replacing the CRT for the use of the portable type image display device because of its excellent image quality, light weight, thinness, and low power consumption. In addition to the portable type monitor such as a notebook computer, And a monitor for a computer and a display for displaying a program.

Although various technological developments have been made in order to make such a liquid crystal display device serve as a screen display device in various fields, there are many aspects in which a job of improving the quality of an image as a screen display device is arranged with the above advantages.

Therefore, in order for a liquid crystal display device to be used in various parts as a general screen display device, it is important to develop a high-quality image such as a fixed screen, a high brightness, and a large area while maintaining the characteristics of lightweight, thin and low power consumption. .

Such a liquid crystal display device can be broadly divided into a liquid crystal panel for displaying an image and a driving part for applying a driving signal to the liquid crystal panel. The liquid crystal panel includes first and second glass substrates, And a liquid crystal layer injected between the first and second glass substrates.

The first glass substrate is provided with a plurality of gate lines arranged at a predetermined interval in one direction, a plurality of data lines arranged at regular intervals in a direction perpendicular to the gate lines, A plurality of pixel electrodes formed in a matrix form in each pixel region defined in an intersecting manner and a plurality of thin film transistors which are switched by a signal of the gate line to transmit a signal of the data line to the pixel electrodes.

The second glass substrate (color filter substrate) is provided with a black matrix layer for shielding light in a portion excluding the pixel region, an R, G, and B color filter layers for expressing color hues, and a common An electrode is formed.

The first and second glass substrates are bonded together by a sealant having a certain space by a spacer and injected with liquid crystal between the two substrates.

At this time, in the liquid crystal injection method, the liquid crystal is injected between the two substrates by the osmotic pressure phenomenon when the liquid crystal injection port is locked in the liquid crystal container by keeping the vacuum between the two substrates bonded together by the sealing agent. When the liquid crystal is injected as described above, the liquid crystal injection hole is sealed with a sealant.

A typical liquid crystal panel is designed in accordance with a power sequence. As shown in FIG. 1, when power is applied to the liquid crystal panel (a) and a predetermined set time elapses in a process (b) And a sequence (c) in which power is applied to a lamp (not shown) so that the lamp (not shown) can be driven.

A conventional control method of the liquid crystal display device having such a structure will be described with reference to FIG. 2. When a power-on command is applied, the signal and data are enabled (S11 to S12).

When the predetermined time has elapsed, the backlight is driven to drive the inverter to display the video signal (S13 to S14).

That is, when the user turns off the power source, the liquid crystal of the liquid crystal display device is in a state of being discharged. When the power source is reapplied, the liquid crystals are driven again without sufficient discharge, There is a problem that a flicker phenomenon occurs.

Accordingly, it is an object of the present invention to minimize the flicker phenomenon occurring in the time until the liquid crystal is fully charged when power is supplied to the liquid crystal display module in the liquid crystal display device.

The invention also has another purpose in providing a more comfortable viewing or working environment for the user.

According to an aspect of the present invention, there is provided a liquid crystal display device including a lamp and a liquid crystal display module, wherein the R, G, and B image signals input from the outside are displayed on the liquid crystal display module A power supply unit for supplying power to the liquid crystal display module, and a control unit for controlling power supply through the power supply unit according to a horizontal / vertical synchronization signal inputted from the outside, A controller configured to display R, G, and B image signals on the liquid crystal display module after displaying the setting pattern, and an inverter that controls driving of the lamp according to a control signal of the controller .

According to another aspect of the present invention, there is provided a flicker prevention method for a liquid crystal display device including a lamp and a liquid crystal display module, the method comprising: The method includes the steps of: inputting a control signal and data when the power is supplied; displaying a predetermined setting pattern when the control signal and data are input; And a step of controlling the control unit.

The apparatus and method for preventing flickering of a liquid crystal display according to the present invention configured as described above can minimize the flickering phenomenon caused by the module characteristics of the liquid crystal display device, thereby minimizing the fatigue of the eyes and the inconvenience The liquid crystal display device can be used in a more comfortable environment.

Hereinafter, an apparatus and method for preventing flickering of a liquid crystal display according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a block diagram showing a flicker prevention apparatus of a liquid crystal display according to the present invention, FIG. 4 is a flowchart showing a flicker prevention method of the liquid crystal display apparatus according to the present invention, As shown in FIG.

3, the apparatus includes a scaler 120 for receiving R, G, and B image signals and control signals from the PC 100, 100, to determine a signal input, and to control the supply of power through the power supply unit 150. The R, G, and B signals are displayed through the scaler 120, (Not shown) in response to a control signal from the controller 110 and receives power from the power source 150 in response to a control signal from the controller 110. The control unit 110 controls the liquid crystal display And a liquid crystal display module 140 for receiving and displaying signals processed by the scaler 120 through an interface unit 130. [

The operation of the flicker prevention apparatus of the liquid crystal display apparatus according to the present invention will now be described.

The scaler 120 is a digital video processor that converts R, G, and B video signals transmitted from the PC 100 according to the resolution of the liquid crystal display module 140. For example, if the signal input to the scaler 120 has a resolution of 800 * 600, the input signal is scaled to a resolution of 1024 * 768 LCD panel.

Next, the interface unit 130 converts the video signal and the control signal output from the scaler unit 120 into a signal format suitable for the interface scheme adopted in the liquid crystal display module 140. [ In general, the liquid crystal display module 140 has a TTL, LVDS, and TMDS interface method. The interface 130 processes signals according to an interface scheme adopted by the LCD panel 140 and outputs the signals.

The control unit (Micro_Controller) 110 is called a system controller or a microcomputer. When the horizontal and vertical synchronization signals are supplied from the PC 100 and the signal equipment, the control unit determines the operation mode from the configuration of the synchronization signal and the horizontal and vertical frequencies. The microcontroller recognizes the data of the mode stored in the nonvolatile memory (not shown in the figure), and then controls peripheral circuits or ICs to adjust the operation mode data.

The control unit 110 controls the power of the inverter unit 160 and the liquid crystal display module 140 through the power supply unit 150 after checking the mode from the synchronous signal transmitted from the PC 100. [

At this time, the control unit 110 transmits a control signal and R, G, B to the scaler 120 after a predetermined time elapses after supplying power to the liquid crystal display module 140 through the power unit 150 So that a valid data area is generated.

When the control signal and the R, G, and B data are enabled, the controller 110 controls a predetermined setting pattern to be displayed on the liquid crystal display module 140. In this case, A pattern is displayed so that the display module 140 becomes a black background.

After the predetermined set pattern is displayed, a desired signal is displayed through the liquid crystal display module 140 by driving a lamp (not shown) by outputting a control signal to the inverter 160.

The flicker prevention method of the liquid crystal display according to the present invention will be described with reference to FIG. 4. First, power is supplied to the liquid crystal display module when power is applied (S103).

Then, the control signal and the data signal are enabled (S104).

If it is the effective data area, the predetermined black screen is displayed (S105).

When the black screen is displayed, the inverter is driven to turn on the lamp, and the corresponding image signal is displayed on the liquid crystal display module (S106 to S107).

That is, according to the present invention, as shown in FIG. 5A, when the first and second set times T1 and T2 have elapsed after power is supplied, (Not shown) by outputting a control signal to the inverter as shown in FIG. 5 (c) after displaying a black screen which is a predetermined setting pattern at the time when the data signal is supplied and the valid data area starts,

As described above, in the liquid crystal display device and method according to the present invention, when a power source is applied to a liquid crystal display module, a black screen is displayed first and then a video signal is displayed. Accordingly, So that the flicker phenomenon can be prevented by charging the module quickly.

1 is a flow chart showing a control method of a liquid crystal display device according to the related art.

2 is a graph showing driving waveforms of a conventional liquid crystal display device.

3 is a block diagram showing a configuration of a flicker prevention apparatus of a liquid crystal display device according to the present invention.

4 is a flowchart showing a flicker preventing method of a liquid crystal display according to the present invention.

5 is a graph showing driving waveforms of a liquid crystal display according to the present invention.

DESCRIPTION OF THE EMBODIMENTS

100: PC 110:

120: scaler 130: interface unit

140: liquid crystal display module 150:

160: Inverter

Claims (6)

In a liquid crystal display device having a lamp and a liquid crystal display module, A scaler for processing R, G, and B image signals input from the outside to be displayed on the liquid crystal display module; A power supply unit for supplying power to the liquid crystal display module; Controlling the power supply to be supplied through the power supply unit in accordance with the horizontal / vertical synchronizing signal input from the outside, controlling the display unit to display a predetermined setting pattern through the scaler after a predetermined time after power supply, A controller for controlling the R, G, and B image signals to be displayed on the liquid crystal display module after the setting pattern is displayed; And, And an inverter for controlling driving of the lamp according to a control signal of the control unit. The method according to claim 1, Wherein the predetermined pattern is a black screen. The method according to claim 1, Wherein the inverter is driven after displaying a predetermined setting pattern according to a control signal of the control unit. A flicker preventing method of a liquid crystal display device including a lamp and a liquid crystal display module, Supplying power to the liquid crystal display module when power is applied; Receiving a control signal when the power is supplied; Displaying a predetermined setting pattern when the control signal is input; Displaying R, G and B image signals on the liquid crystal display module after the predetermined setting pattern is displayed; And, And controlling the driving of the lamp after the predetermined setting pattern is displayed. 5. The method of claim 4, The step of displaying the preset setting pattern And a predetermined pattern is displayed in a valid data area after the control signal and the data signal are inputted. 6. The method of claim 5, The step of displaying the preset setting pattern Wherein the step of driving the black screen is a step of driving the black screen.

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