KR101500721B1 - Liquid Crystal Display Device and Driving Method thereof - Google Patents

Abstract

The present invention relates to a liquid crystal display (LCD), and more particularly, to a liquid crystal display device capable of increasing a contrast ratio by controlling a current value of a backlight differentially according to intervals during a DFC (Digital Fine Contrast) ≪ / RTI >

That is, if it is necessary to change the driving current value during the driving of the backlight unit 50 based on the backlight driving current value set by the user (in the DFC mode), the first driving current value (Temporary drive current value) lower than the first period (the current value) and supplies the drive current value to be actually input to the second period (stabilization period) other than the first period.

Accordingly, the liquid crystal display device and the driving method thereof according to the present invention reduce the time until the image is displayed at the actual desired contrast ratio CR by supplying the current value of the backlight differentially according to the interval in the DFC mode entry, An optimum image quality can be displayed with a contrast ratio.

DFC, a first section, a second section, a first drive current value, a second drive current value

Description

[0001] The present invention relates to a liquid crystal display device and a driving method thereof,

The present invention relates to a liquid crystal display (LCD), and more particularly, to a liquid crystal display device capable of increasing a contrast ratio by controlling a current value of a backlight differentially according to intervals during a DFC (Digital Fine Contrast) ≪ / RTI >

2. Description of the Related Art Generally, a video display device is a non-light emitting type in which an image is displayed by a light source such as a backlight lamp. Typically, there is a liquid crystal display (LCD) And a dimming circuit for continuously changing the brightness of the backlight. Therefore, a driving voltage for driving the backlight is supplied through the inverter, and the backlight is operated based on the supplied driving current, thereby displaying an image of desired brightness.

In addition, since the backlight for displaying an image on the LCD panel must be continuously turned on in the state where the power is on, the backlight generates a certain amount of light on the LCD panel, In order to solve the problem that the power consumption is increased by consuming a lot of light because the brightness of the LCD is maintained to be a constant brightness despite the fact that the ambient brightness of the liquid crystal display device is dark so that a relatively large amount of light is not required, A brightness of the backlight is varied by using an average of picture level (APL) of a video signal to reduce power consumption and improve image quality.

That is, as shown in FIG. 1, the histogram of the image signal is analyzed at the time of applying the DFC, and if the analyzed histogram is equal to or higher than a predetermined standard level, the lamp current value preset by the user is applied (Conventional) If the histogram is less than the predetermined standard level, a higher contrast ratio (CR) can be realized by adjusting the current value for adjusting the brightness of the backlight unit to lower the brightness of the LCD panel.

However, since the lamp current changing method according to the related art requires a time for the backlight to be discharged even if the current value of the backlight is lowered by entering the DFC mode, in the transient period in which the current value of the backlight is changed, There is a problem that the specification is not satisfied.

In other words, as shown in FIG. 2, when the DFC mode is entered while supplying the corresponding current to the backlight based on the value set by the user, the current value provided to the backlight is set to a value set for each model .

However, since a predetermined time (A) must be elapsed due to the discharge of the backlight until the image is displayed on the actual screen with the brightness according to the changed current value in the backlight, in the transient period of the predetermined time (A) There is a problem that the contrast ratio of the image displayed on the display device is not satisfied with the standard specification, resulting in user dissatisfaction.

SUMMARY OF THE INVENTION The present invention has been made in order to solve such a problem, and it is an object of the present invention to realize a higher contrast ratio by controlling the current value of the backlight differentially according to the interval.

According to an aspect of the present invention, there is provided a liquid crystal display device including: a liquid crystal panel for displaying a video signal; A backlight unit for supplying light to a front surface of the liquid crystal panel; A backlight control unit for supplying a driving current for causing the backlight unit to emit light; A histogram analyzer for analyzing a histogram of a video signal input from the outside; And a controller for outputting a control signal to the backlight control unit such that a driving current for driving the backlight unit is differentially supplied according to a predetermined section according to a histogram of the input image signal analyzed through the histogram analyzing unit.

According to another aspect of the present invention, there is provided a method of driving a liquid crystal display device, comprising: analyzing a histogram of an image signal input from the outside; Determining whether the current value for driving the backlight unit is changed based on the analyzed histogram; And supplying the driving current value to the backlight unit according to a result of the determination.

The liquid crystal display device and the driving method thereof according to the present invention reduce the time until the image is displayed at the actual desired contrast ratio CR by supplying the current values of the backlight differentially for each DFC mode upon entering the DFC mode, There is an effect that an optimal image quality can be displayed.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It should be understood, however, that there is no intention to limit the scope of the present invention to the embodiment shown, and that other embodiments falling within the scope of the present invention may be easily devised by adding, Can be proposed.

As shown in FIG. 3, the liquid crystal display according to the present invention includes a video signal input unit 10 for receiving and processing a video signal input from the outside, a video signal input unit 10 for performing signal processing through the video signal input unit 10, A display driver 30 for generating a corresponding driving signal in accordance with a video signal input to the video signal processor 20, and a controller 30 for controlling the display driver 30 according to a driving signal of the display driver 30 A backlight unit 50 for supplying light to the front surface of the liquid crystal panel 40 and a backlight unit 50 for driving the front surface of the liquid crystal panel 40. The liquid crystal panel 40 is driven by the liquid crystal panel 40 and displays an image signal processed through the image signal processing unit 20, A histogram analyzer 70 for analyzing a histogram based on a luminance signal Y of a video signal input from the outside, A control signal is output to the backlight controller 60 so that the driving current for driving the backlight unit 50 is differentially supplied according to the histogram of the input image signal analyzed through the analyzing unit 70 And a memory unit 90 for storing driving current values for brightness control of the backlight unit 50 according to a histogram of the input video signal.

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

First, the video signal input unit 10 receives an externally input video signal and processes the signal. That is, an operation of separating a video signal input from the outside into a luminance signal (Y) and a color difference signal (UV) is performed.

Here, each of the luminance signal (Y) and the color difference signals (U, V) is obtained by the above Equations (1) to (3).

Y = 0.229 * R + 0.587 * G + 0.114 * B

U = 0.493 * (B-Y)

V = 0.887 * (R-Y)

The video signal processing unit 20 processes the video signal processed through the video signal input unit 10 so that the video signal can be displayed. That is, a signal processed through the video signal input unit 10 is converted into a displayable signal format.

The video signal processed through the video signal processor 20 is input to the display driver 30 and the display driver 30 drives the video signal processor 20 in response to a signal input through the video signal processor 20, And generates a driving signal for driving the liquid crystal panel 40.

Accordingly, the liquid crystal panel 40 is driven in response to the driving signal generated through the display driving unit 30, so that the liquid crystal panel 40 displays the transmitted video signal.

At this time, if the backlight unit 50 is not driven even when a video signal is being displayed through the liquid crystal panel 40, the user can not view an image displayed through the liquid crystal panel 40.

That is, as the backlight unit 50 receiving the driving current through the backlight control unit 60 emits light, the user can view the image displayed through the liquid crystal panel 40.

The screen brightness of the displayed liquid crystal panel 40 is adjusted by changing a driving current value (for example, PWM) supplied to the backlight unit 50 through the backlight control unit 60. The backlight 26 The brightness of the display screen changes according to the high and low driving current values.

Also, the backlight unit 50 includes a plurality of backlights that are installed to overlap with the liquid crystal panel 40. Accordingly, the light is supplied to the front surface of the liquid crystal panel 40 while being controlled according to the driving current supplied through the backlight control unit 60. Accordingly, the liquid crystal channel 40 has a high luminance and a wide light emitting surface.

The histogram analyzer 70 analyzes the histogram according to the brightness level based on the luminance signal Y of the input image signal processed through the image signal input unit 10. [ That is, the histogram analyzer 70 arranges the luminance components corresponding to the gray levels in frame units to obtain a histogram of the input image signals.

The control unit 80 determines whether the brightness of the currently displayed image is required to be adjusted based on the histogram of the input image signal obtained through the histogram analyzer 70.

That is, generally, when the brightness level according to the histogram of the currently input video signal is low, the brightness of the output image is further darkened to increase the contrast ratio (CR, contrast ratio) ) Function.

Therefore, the brightness level of the input video signal according to the analyzed histogram is compared with a predetermined reference threshold level, and it is determined whether or not the brightness adjustment of the video signal currently displayed on the liquid crystal panel is necessary according to the comparison result of the level .

Although the reference threshold value is generally set to 20 levels, the present invention is not limited thereto. It is preferable that the user can arbitrarily set or change the reference threshold level. However, in order to facilitate understanding of the present invention, Is set to " 20 ".

The control unit 80 determines whether the level of the input video signal analyzed by the histogram analyzer 70 is higher than the preset 20 level and changes the driving current supplied to the backlight unit 50 And selectively controls the maintenance.

That is, when the level of the input video signal is higher than the reference threshold value, the driving current supplied to the backlight unit 50, that is, the driving current value arbitrarily set by the user is maintained as it is. The controller 90 outputs a control signal to vary the brightness of the backlight unit 50 based on the driving current value according to the histogram stored in the memory unit 90. [

At this time, transition periods (first section) and stabilization section (second section) exist as the driving current value input to the backlight section 50 varies.

For example, if the brightness level is 100 when the driving current value is 40 and the brightness level is 50 when the driving current value is 20, even if the driving current value is lowered from 40 to 20, It takes a certain time for the brightness level to actually decrease to 50 due to the discharge time of the discharge lamp 50.

Here, a period from the discharge time of the backlight unit 50 until the brightness level displayed on the screen becomes the level corresponding to the actual driving current value is referred to as a first interval (transient interval) The interval other than the first interval is called the second interval (stabilization interval).

Therefore, the control unit 80 outputs a control signal such that the drive current value of the backlight unit 50 is differentially supplied for each of the respective sections.

In other words, the control signal is outputted so that the driving current values supplied to the backlight unit 50 are different according to the first and second sections.

Here, in the second period (stabilization period), a driving current value to be supplied to the backlight unit 50, that is, a driving current value (second driving current value) previously stored in the memory unit 90 is supplied, A driving current value (first driving current value) lower than the second driving current value is supplied to the backlight unit 50 in the first period (transient period).

That is, the first driving current value is supplied to the backlight unit 50 during the first interval (transient interval), and the second driving current value (the driving current value previously stored in the memory unit) is supplied during the second interval (stabilization interval) .

The first driving current value may be stored in the memory unit 90 in correspondence with the second driving current value or may be calculated by subtracting a certain level from the second driving current value through the control unit 80 have.

In addition, since the distinction between the first section and the second section is not actually revealed, when the driving current value needs to be changed, the first current value is supplied to the backlight unit 50 for a predetermined period of time (i.e., And a driving current value (a second driving current value) to be actually supplied after the predetermined period of time is supplied to the backlight unit 50.

The backlight control unit 60 is controlled by the control unit 80 such that the backlight control unit 60 generates a constant current which is more constant than the driving current value to be actually supplied to the backlight unit 50 during the first period (The first driving current value) and supplies the actual driving current value previously stored in the memory unit 90 during the second period (after the predetermined period of time).

That is, if it is necessary to change the drive current value during driving of the backlight unit 50 based on the backlight drive current value set by the user as shown in FIG. 4, (Temporary drive current value) that is lower than the drive current value (second drive current value) by a predetermined level and supplies a drive current value to be actually input to the second section (stabilization section) other than the first section Supply.

Accordingly, as shown in FIG. 5, in the conventional DFC mode, it takes time B 'until the screen is displayed at the brightness level corresponding to the actual backlight driving current value. However, in the present invention, (A < B ') until the screen is displayed at the actual luminance level according to the luminance level.

As described above, the liquid crystal display according to the present invention supplies the current values of the backlight differentially for each DFC mode in the DFC mode, thereby reducing the time required for displaying an image at a desired desired contrast ratio CR, The image quality can be displayed.

In the driving method of the liquid crystal display according to the present invention, as shown in FIG. 6, a video signal input from the outside is first received and signal processing is performed (S10).

Next, the histogram of the input image signal is analyzed based on the luminance signal of the signal-processed image signal (S20).

Then, it is determined whether the image signal level according to the analyzed histogram exceeds a reference threshold (S30). That is, it is determined whether or not to enter the DFC mode.

If the video signal level exceeds the reference threshold value, the driving current value supplied to the backlight unit 50 is maintained as it is (S40).

If the video signal level is lower than the reference threshold value, the first driving current value (temporary driving current value) is supplied to the backlight unit 50 during the first period (predetermined time) (S50 ).

In step 60, the drive current value (second drive current value) stored in the memory unit 90 is supplied to the backlight unit 60 in the second period (after a predetermined time).

That is, if it is necessary to change the driving current value during the driving of the backlight unit 50 based on the backlight driving current value set by the user (in the DFC mode), the first driving current value (Temporary drive current value) lower than the first period and supplies a drive current value to be actually input in the second period (stabilization period) other than the first period (S50 to S60) .

As described above, according to the liquid crystal display device and the driving method thereof according to the present invention, the current value of the backlight is differently provided for each section when the DFC mode is entered, thereby reducing the time required for displaying an image at a desired desired contrast ratio CR, It improves user satisfaction because it can display optimal image quality with contrast ratio.

1 is a view for explaining a contrast ratio (CR) in a general DFC mode;

2 is a view for explaining a backlight driving current value and a luminance level in a DFC mode according to the related art;

3 is a view showing a configuration of a liquid crystal display device according to the present invention.

4 is a view for explaining a driving current value supplied to a backlight unit according to an interval in the DFC mode according to the present invention;

5 is a view for explaining a luminance level which is varied in the DFC mode according to the present invention;

6 is a flowchart for explaining a method of driving a liquid crystal display device according to the present invention step by step.

Claims (12)

A liquid crystal panel for displaying a video signal; A backlight unit for supplying light to the liquid crystal panel; A backlight control unit for supplying a driving current for causing the backlight unit to emit light; A histogram analyzer for analyzing a histogram of a video signal input from the outside; And Comparing the brightness level of the video signal according to the histogram of the analyzed video signal with a preset threshold level to determine whether to change the current value of the driving current, and when changing the current value of the driving current according to the determination result, And a controller for supplying a first driving current having a level lower than a driving current corresponding to a brightness level for a predetermined time and then supplying a second driving current corresponding to the brightness level. The method according to claim 1, And a memory unit for storing a current value of a driving current corresponding to a brightness level of the video signal according to a histogram of the analyzed video signal. delete The method according to claim 1, The control unit And maintains the current value of the driving current when the brightness level of the video signal according to the histogram of the analyzed video signal is equal to or greater than a preset reference threshold value. The method according to claim 1, The control unit And changes the current value of the driving current when the brightness level of the video signal according to the histogram of the analyzed video signal is less than the predetermined reference threshold value. A method of driving a liquid crystal display device having a backlight unit, Analyzing a histogram of a video signal input from the outside; Comparing a brightness level of the video signal according to the analyzed histogram with a predetermined threshold level to determine whether to change a current value of a driving current for driving the backlight unit; Supplying a first driving current, which is lower than a driving current corresponding to the brightness level, to the backlight unit for a predetermined time, when the current value of the driving current is changed; And And supplying a second driving current, which is a driving current corresponding to the brightness level, to the backlight unit when the predetermined time elapses. The method according to claim 6, The step of determining whether to change the current value of the driving current for driving the backlight unit Changing a current value of the driving current when the brightness level of the video signal according to the analyzed histogram is less than the preset reference threshold level; And maintaining the current value of the driving current when the brightness level of the video signal according to the analyzed histogram is equal to or greater than the preset reference threshold level. delete delete delete delete delete

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