KR100833376B1 - Method and apparatus for controlling of Liquid Crystal Display Device - Google Patents

Abstract

According to the present invention, a white balance can be adjusted by changing a color temperature of a lamp in a liquid crystal display device to which a light emitting diode backlight is applied.

That is, the present invention can express all gray levels and colors that can be expressed by the module by inputting the module without damaging the gray level of the input signal and correcting the white balance using the color temperature of the backlight itself, which is not related to the signal data. By inputting the data on the input signal into the module as it is without conversion and reduction of the gradation, it is possible to express the image as it is input. In addition, it is also possible to set an arbitrary color temperature in addition to the color temperature set by the set maker.

Therefore, the present invention can prevent the reduction of the frequency characteristic of the signal by changing the white balance by changing the color temperature of the backlight LED lamp of the module applied in the LCD, and can receive and express the input image signal as it is in the module. Not only can you use all the areas of color that can be expressed, but you can also expect productivity improvement by reducing color variation and adjusting time due to white balance adjustment.

LED / White Balance

Description

Control apparatus and method of liquid crystal display device {Method and apparatus for controlling of Liquid Crystal Display Device}

1 and 2 are a flow chart showing a white balance adjustment method of a liquid crystal display according to the prior art.

3 is a graph showing signal gradation according to an input signal in a liquid crystal display according to the related art.

Figure 4 is a block diagram showing the configuration of a control device of the liquid crystal display device according to the present invention.

5 and 6 are flowcharts illustrating a control method of a liquid crystal display according to the present invention.

7 is a graph showing signal gradations according to input signals in the liquid crystal display according to the present invention;

<Description of main parts of drawing>

100: key input unit 200: image processing unit

300: LCD module 320: LED backlight

330: backlight driving unit 400: control unit

500: memory

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device, and more particularly, to a control device and a method of a liquid crystal display device in which a white balance can be adjusted by changing a color temperature of a lamp in a liquid crystal display device to which a light emitting diode backlight is applied. .

As the electronics industry develops, various display devices having small size and low energy consumption are being developed, and imaging devices, computers, and mobile communication terminals using the same are being developed. The liquid crystal display (hereinafter referred to as LCD), which reflects this trend, is currently in the spotlight as a display device such as a monitor and a mobile communication terminal.

Since the above-described LCD does not spontaneously generate light, it is common to have a backlight composed of a light guide plate and a light source for generating light on the back of the LCD panel. In this case, the backlight is generated by the LCD panel by generating white light. The color of the image to be implemented can be reproduced close to the actual color.

The backlight of the LCD has conventionally used a Cold Cathode Fluorescent Lamp (CCFL) or an External Electrode Fluorescent Lamp (EEFL) as a light source.

Conventional LCD backlight module using CCFL is configured to arrange the light source means using CCFL on one side of the light guide plate to supply the light generated from the CCFL to a predetermined region of the LCD panel (not shown) through the light guide plate, diffuser plate, prism. do. At this time, the conventional backlight light sources such as the CCFL is a light source using a plasma principle, and implements a white color.

However, the above-described conventional light sources have shortcomings as the gas pressure of the plasma changes, and require an inverter for obtaining a high operating voltage of several hundred volts required for plasma discharge. In this case, most of the power is consumed by the backlight. In this case, the conventional light source such as CCFL or EEFL has another problem of excessive power consumption due to poor power consumption efficiency.

Therefore, in order to solve such a problem, a backlight module using an LED has been proposed, and the LED is a light emitting device that generates light by using a light emitting phenomenon generated when a voltage is applied to a semiconductor.

A method of generating white light by using such an LED as a light source of an LCD backlight module has been proposed, and generates a white light by mixing light by combining LEDs generating various colors of light.

LCD modules using such LED backlights inevitably have deviations in the color coordinates of white expressed by their characteristics, and in order to use them in TVs or monitors, they are corrected through white-balance adjustment to express the desired color and to reduce the deviation between products. Doing.

Hereinafter, a white balance adjusting method of a liquid crystal display according to the related art will be described with reference to the accompanying drawings.

FIG. 1 is a flowchart illustrating a white balance adjustment method of a liquid crystal display according to the related art, and FIG. 2 is a flowchart illustrating a signal processing method according to the white balance adjustment method shown in FIG. 1.

The white balance adjustment method of the liquid crystal display according to the related art will be described with reference to FIG. 1 to determine whether or not the number n of inputs and the number N of modes to be adjusted match (S11 to S12).

Subsequently, if the result of the determination (S12) does not match, the current white color coordinate is measured to determine whether the color temperature corresponds to the target color temperature (S13 to S14).

As a result of the determination (S14), if it does not match the target color temperature, the R, G, B gain and offset values are adjusted (S15).

In addition, if the determination result (S14) matches the target color temperature, the number of adjustments is increased and then the process returns to the step S12 (S16).

When the signal processing method according to the adjustment method described above is described with reference to FIG. 2, the signal processing method is changed into a signal suitable for a module according to an input signal (S21 to S22).

The R, G, and B gain values are changed to have the desired color coordinates (S23).

Subsequently, R, G, and B video signals are output according to the changed gain value (S24).

As described above, the LCD according to the related art adjusts the white balance to express a desired color by arbitrarily reducing the maximum value of the R, G, and B signals input to the module, and thus the maximum expressive power that can be expressed in the actual module. There was a problem that could not be used sufficiently.

In addition, since this method has a different white color distribution for each module, there is another problem in that the gray scale expression power varies among sets as the adjustment value thereof is changed.

Accordingly, the present invention has been made to solve the above problems, and an object thereof is to enable white balance adjustment by changing the color temperature of the backlight LED lamp of the module.

In addition, the present invention has another object to improve the productivity because it is possible to reduce the color deviation and adjustment time due to the white balance adjustment.

The control device of the liquid crystal display device according to the present invention for achieving the above object is an image processing unit for processing the image signal to be output to the LCD module in the liquid crystal display device having an LCD module, and the LCD module The LED backlight unit for supplying the R, G, B light source to the LED backlight unit, the backlight driver for controlling the driving of the LED backlight unit, and receives the white color coordinates from the LCD module to determine whether it matches the preset setting coordinates to the user. And a controller for outputting a control signal to set the LED driving voltages of the R, G, and B through the backlight driver to be differently output through the LED backlight according to the color temperature set by the controller. It has its features.

Preferably, the control unit outputs a control signal so that the voltage supplied to the LED backlight unit from the backlight driver is varied if the input white color coordinate does not match a preset coordinate.

More preferably, the color temperature set by the user is differentially set according to the cold mode, the middle mode and the warm mode according to the screen mode set by the user.

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The control method of the liquid crystal display device according to the present invention for achieving the above object in the liquid crystal display device having an LCD module, an LED backlight, it is determined whether the white color coordinates measured from the LCD module is consistent with a predetermined set coordinates. And determining, by the user, a preset color temperature if the white color coordinate measured by the LCD module does not match a preset set coordinate, and configuring the LED backlight unit according to the determined color temperature. It is characterized by comprising the step of controlling the driving voltage of the R, G, B LED backlight is set differently.

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

4 is a block diagram showing a control device of a liquid crystal display device according to the present invention. FIGS. 5 and 6 are flowcharts showing a control method of the liquid crystal display device according to the present invention, and FIG. 7 is a signal gray scale according to an input signal. Is a graph.

As shown in FIG. 4, the control apparatus of the liquid crystal display device according to the present invention includes an image processor 200, an LCD module 300, and an image processor to output an input image signal to the LCD module 300. LED backlight unit 320 for supplying R, G, B light sources to the LCD module 300, a backlight driver 330 for controlling the driving of the LED backlight unit 320, and the LCD module 300 The control unit outputs a control signal to the backlight driver 330 so that different brightnesses are output through the LED backlight 320 according to the color temperature set by the user by determining whether or not the color coordinates are received from the white color coordinates. And a control unit 400, a key input unit 100 for inputting a user request command, and a memory 500 for storing a preset color temperature.

Here, the memory 500 stores the color temperature for each image mode as follows.

mode Cool video Normal video Warm footage Color temperature 12,000 K 9,600 K 6,700 K R-LED 192 224 256 G-LED 237 256 237 B-LEG 256 205 154

Referring to the operation of the control device of the LCD according to the present invention configured as described above are as follows.

When the power-on command is input through the key input unit 100, the image processing unit 200 processes the input image signal, and the backlight driving unit 330 is the LED backlight unit according to the control signal of the controller 400. Power is supplied to the 320 to supply a light source to the LCD module 300.

In addition, a user may select a desired color temperature, that is, a display mode, through the key input unit 100. The selectable modes include a cool image, a normal image, and a warm image, depending on the mode selected by the user. The color temperature of the LED for outputting each of R, G, and B constituting the LED backlight unit 320 is differentially set with reference to the reference color temperature for each mode previously stored in the memory 500.

On the other hand, when the user manually specifies the color temperature of the LED for outputting each of the R, G, B by applying to a predetermined calculation formula using the color temperature for each mode stored in the memory 500.

That is, when the white balance adjustment command is input by the user, the controller 400 reads the white color coordinates from the LCD module 300 and determines whether or not it matches the preset setting coordinates, and matches the set coordinates. If not, the control signal is output to the backlight driver 330 to correct the color temperature of the LED backlight 320 according to the color temperature set by the user.

Then, the backlight driver 330 sets and drives the driving voltages of the respective LEDs for outputting the R, G, and B constituting the LED backlight unit 320 according to the control signal of the controller 400. The color desired by the user may be implemented through the LCD module 300.

The control method of the liquid crystal display according to the present invention configured as described above will be described with reference to FIG. 6. First, if the number of modes to be input does not match the number of modes to be adjusted, the current white color coordinate is measured (S101 to S103).

In operation S104, it is determined whether the measured color coordinates correspond to a preset set coordinate.

Subsequently, if the measured color coordinates do not correspond to the preset set coordinates (S104), the voltages of the R, G, and B LEDs constituting the backlight are adjusted (S105).

Accordingly, referring to FIG. 7, in the method of processing an input image, first, an image signal is received and a signal is changed to match the corresponding module (S201 to S202).

The lamp color temperature of the backlight is corrected according to the color temperature set by the user (S203).

Subsequently, the changed video signal is output according to the corrected color temperature (S204).

As described above, the present invention is to adjust the white balance by adjusting the voltage supplied to the R, G, B LED constituting the backlight without manipulation and modification of the input video signal.

Therefore, according to the present invention, as shown in FIG. 8 even after adjusting the white balance, the module can be expressed by inputting the module without damaging the gray level of the input signal and correcting the white balance using the color temperature of the backlight itself, which is not related to the signal data. You can express all the gradations and colors you can.

In addition, by inputting the data on the input signal to the module as it is without conversion and reduction of the gradation, it is possible to express the image as it is input, it is also possible to set any color temperature in addition to the color temperature set by the set maker.

As described above, the control device and method of the liquid crystal display according to the present invention have the following effects.

First, by adjusting the white balance by changing the color temperature of the backlight LED lamp of the module applied in the LCD, it is possible to prevent the reduction in the frequency characteristic of the signal.

Second, since the input image signal can be received as it is, it can utilize all the areas of color that can be expressed in the module.

Third, the color variation due to white balance adjustment and productivity improvement due to reduction of adjustment time can be expected.

Claims (6)

In a liquid crystal display device having an LCD module, An image processor which processes an image to output an input image signal to the LCD module; An LED backlight unit for supplying R, G, and B light sources to the LCD module; A backlight driver for controlling driving of the LED backlight unit; And, The R, G, through the backlight driver to determine whether or not the white color coordinates from the LCD module and the predetermined set coordinates to match the different brightness is output through the LED backlight according to the color temperature set by the user And a controller for outputting a control signal such that each LED driving voltage is set differently from each other. The method of claim 1, And the control unit outputs a control signal such that the voltage supplied to the LED backlight unit is varied from the backlight driver if the input white color coordinate does not match a preset coordinate. delete The method of claim 1, And the color temperature set by the user is differentially set according to a cold mode, a middle mode, a warm mode, and a manual mode according to the screen mode set by the user. In the liquid crystal display device having an LCD module, LED backlight, Determining whether the white color coordinate measured by the LCD module matches a predetermined set coordinate; Determining a color temperature preset by a user if the white color coordinate measured by the LCD module does not match a preset set coordinate as a result of the determination; And, And controlling the driving voltages of the R, G, and B LED backlights constituting the LED backlight unit to be set differently according to the identified color temperature. delete

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