KR20070001532A - Display device and driving method thereof - Google Patents

Abstract

A method and a device for driving a display device are provided to obtain uniform brightness on the overall surface of the display device by adjusting brightness of input images on blanking regions. A display device includes plural backlight lamps and at least one blanking lamp. A driving device for the display device includes an image input unit(220), an image analyzer(230), a reference brightness data storage unit(240), and a blanking lamp controller(250). The image input unit receives frame units of input image data, which is displayed on a display panel. The image analyzer analyzes the image data to calculate mean brightness of the frame. The reference brightness data storage unit stores reference brightness data for the display panel. The blanking lamp controller compares the mean brightness from the image analyzer with the reference brightness data and controls the operation of the blanking lamp.

Description

Display device and driving method

1 is a frame-specific operation overview of a display panel for explaining impulsive driving

2 is a diagram illustrating a relationship between a liquid crystal panel and a gate driving signal for implementing a data addressing method in an impulsive driving method;

3 is a flowchart illustrating a driving concept of a display device according to a first exemplary embodiment of the present invention.

4 is a diagram illustrating a configuration of a display device according to a first embodiment of the present invention.

5 is a flowchart illustrating a driving concept of a display device according to a second exemplary embodiment of the present invention.

6 illustrates a configuration of a display device according to a second exemplary embodiment of the present invention.

<Brief description of the main parts of the drawing>

110,210: display panel 120,220: image input unit

130,230: image analysis unit 140,240: reference luminance data storage unit

150: blanking data selection output unit 250: blanking lamp control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device and a method of driving the same, and more particularly, to a display device and a method of driving the same, which improves a luminance reduction phenomenon caused by black data insertion during impulsive driving.

Impulsive driving of the liquid crystal display is a driving method proposed to remove a motion blur of a screen when a moving image is implemented.

Two impulsive driving methods are proposed, a data addressing method for inputting video data in a predetermined region of a frame and black or white data in the remaining portion, and a plurality of backlights. There is a backlight control method for controlling the lighting of the backlight corresponding to a certain region of the frame.

Referring to FIG. 1, the impulsive driving will be described. A frame area (hereinafter, referred to as a "blanking area") or a backlight lighting area to which black or white data is input is implemented by moving its position on a frame-by-frame basis. In the backlight off area, four gate lines are set as blanking areas for every four gate lines.

FIG. 2 is a diagram illustrating a relationship between a liquid crystal panel and a gate driving signal for implementing a data addressing method among impulsive driving methods currently applied.

Sequential driving of a plurality of gate lines G1, G2, ..., G (j + 1), G (j + 2), G (j + 3), G (j + 4), ..., Gn} According to the liquid crystal panel in which video data is input to display one frame, a partial region of the one frame {G (j + 1), G (j + 2), G (j + 3), G (j + 4) The gate driving signal is simultaneously applied to the video data of black or white gray level to simultaneously form a blanking area. Of course, the position of the blanking area is variable for each frame.

However, in the impulsive driving method, the screen drag phenomenon is reduced in the case of both the data addressing method and the backlight control method for inserting black data, but the screen is generally dark.

The present invention has been made to solve the above problems, and an object of the present invention is to improve a phenomenon that a screen is dark in an impulsive driving method, particularly in a black data insertion method and a backlight control method.

In order to solve the above problems, in the first embodiment of the present invention, in the impulsive driving in which the display panel displaying image data in units of frames has a blanking area, the image data input in units of frames is analyzed and According to an analysis result, a method of driving a display device, characterized in that the gray level of black data is adjusted and output to the blanking area.

The driving method is repeated every frame.

The analyzing method for the input image data may be calculated as a gray level average of each of the image data input for each pixel.

The display device driving method includes setting a reference luminance of a display panel and inserting gray level data having a luminance higher than the average luminance into the blanking area when the average luminance of the analyzed image data is lower than the set reference luminance. When the average luminance of the analyzed image data is higher than the set reference luminance, gray level data having a luminance lower than the average luminance is inserted into the blanking area.

The display device driving method may be configured to output black data having a full gray level to the blanking area when the image data input to the one frame is all black data.

According to another aspect of the present invention, there is provided a display apparatus having a blanking area in a display panel displaying image data in units of frames, comprising: an image input unit configured to receive image data to be input to the display panel in units of frames; An image analyzer which analyzes the image data input to the image input unit and calculates an average luminance of the frame; A reference luminance data storage unit for storing reference luminance data of the display panel; A display device further includes a blanking data selection output unit configured to select and output a gray level of black data to be inserted into the blanking area by comparing the average luminance calculated by the image analyzer with the reference luminance data.

In addition, according to a second embodiment of the present invention, a plurality of backlight lamps are provided on a rear surface of a display panel, and a part of the display panel has a blanking area through a blanking lamp in which one or more backlight lamps are turned off every frame. In the impulsive driving, the display device is characterized in that the average brightness for each image data is calculated by analyzing the image data input in units of frames, and the light emission luminance of the blanking lamp is adjusted according to the calculated average brightness. Suggest a method.

The driving method is repeated every frame.

The average luminance calculation method for the input image data may be calculated as a gray level average of each of the image data input for each pixel.

The display device driving method may include setting a reference luminance of the display panel and controlling the blanking lamp to have a light emission luminance higher than the average luminance when the average luminance of the analyzed image data is lower than the set reference luminance. When the average luminance of the analyzed image data is higher than the set reference luminance is characterized in that the blanking lamp is controlled to have a lower luminance than the average luminance.

The display device driving method is characterized in that the blanking lamp is turned off when the image data input to the one frame is all black data.

In addition, a display device including a plurality of backlight lamps on a rear surface of a display panel displaying image data on a frame basis and having one or more blanking lamps turned off every frame, wherein the image data to be input to the display panel is framed. An image input unit to receive the input; An image analyzer for analyzing the image data input to the image input unit and calculating an average luminance of the frame; A reference luminance data storage unit for storing reference luminance data of the display panel; A display device further includes a blanking lamp controller configured to control light emission of the blanking lamp by comparing the average brightness calculated by the image analyzer with the reference luminance data.

Hereinafter, a display panel driving method according to the present invention will be described with reference to the accompanying drawings.

First embodiment

3 is a flowchart illustrating a driving concept of the display device according to the first embodiment of the present invention, and FIG. 4 is a view showing the display device 100 according to the first embodiment of the present invention.

The concept of the first embodiment of the present invention is to analyze the received image (S12) in order to improve the dimness of the screen caused by black data insertion by data addressing in the impulsive driving method of the display panel (S12) and the analysis result. By inserting the video data of the appropriate gray level in the blanking area (S13) according to the driving method for compensating for the brightness of the dark screen.

Looking at the configuration and operation for realizing such a method, the display panel 110 is a liquid crystal display panel or an EL display panel in which a plurality of data lines D1 to Dm and a plurality of gate lines G1 to Gn cross each other. Display pixels are formed in the intersecting areas, respectively, and blanking areas G (j + 1), G (j + 2), G (j + 3), and G (j + 4) formed of part of the gate lines for each frame. }, The impulsive driving blanking data by data addressing is input.

The image input unit 120 receives image data to be input to the display panel 110 in frame units, stores the image data, and outputs the image data.

The image analyzer 130 analyzes image data output from the image input unit 130 in units of frames. The image analyzer 130 analyzes brightness of the frame image data, that is, luminance. The luminance analysis method for the frame image data can be variously applied. For example, an average of gray levels for all image data forming a frame unit is obtained and applied to the analysis result.

The reference luminance data storage 140 provides a reference of luminance to be expressed through the display panel 110, and the reference luminance is preset by the designer.

The blanking data selection output unit 150 compares the reference luminance stored in the reference luminance data storage 140 with the average luminance of the frame image data analyzed by the image analyzer 130 to determine the display panel 110. The gray level of the blanking data to be inserted into the blanking area is selected and output. That is, the blanking data selection output unit 140 displays the blanking data having a gray level higher than the average brightness of the analyzed image data when the average brightness of the analyzed image data is lower than the set reference brightness. When the average luminance of the analyzed image data is higher than the set reference luminance, the blanking data of gray level having a luminance lower than the average luminance of the analyzed image data is inserted into the blanking area.

However, when the display panel 110 is driven while the display panel 110 is being driven, the entire display panel 110 needs to be displayed in black. In this case, since the entire frame unit data is black data, the image analysis unit 130 outputs a separate signal when the entire frame unit data is black data through analysis of the input image data, and thus the blanking data selection output. When receiving a separate signal indicating that the entire frame unit data is black data, the unit 150 does not compare the reference luminance stored in the reference luminance data storage unit 140 without performing comparison with the reference luminance on the display panel 110. Outputs full gray black data indicating complete black in the blanking area.

When the selected blanking data is inserted through the luminance analysis of the image input to the display panel as described above, the screen drag phenomenon is improved and the entire screen is darkened. It is effective.

Second embodiment

FIG. 5 is a flowchart illustrating a driving concept of the display device according to the second embodiment of the present invention, and FIG. 6 is a view illustrating the display device 200 according to the second embodiment of the present invention.

The concept of the second embodiment of the present invention is to analyze the received image (S22) in order to improve the dimness of the screen during the impulsive driving by the backlight control in the impulsive driving method of the display panel (S22) and to the analysis result. Accordingly, the driving method of controlling the blanking lamp to have an appropriate light emission luminance (S23).

Looking at the configuration and operation for realizing such a method, the display panel 210 is a liquid crystal display panel in which a plurality of data lines D1 to Dm and a plurality of gate lines G1 to Gn intersect and cross each other. Display pixels are formed at each of the plurality of gate lines, and some of the gate lines {G (j + 1), G (j + 2), G (j + 3), and G (j + 4)} are blanked by backlight control. It is displayed as an area.

The image input unit 220 receives image data to be input to the display panel 210 in units of frames, stores the image data, and outputs the image data.

The image analyzer 230 analyzes image data output from the image input unit 230 in units of frames. The image analyzer 230 analyzes brightness of the frame image data, that is, luminance. The luminance analysis method for the frame image data can be variously applied. For example, an average of gray levels for all image data forming a frame unit is obtained and applied to the analysis result.

The reference luminance data storage unit 240 provides a reference of luminance to be expressed through the display panel 210, and the reference luminance is preset by the designer.

The blanking lamp controller 250 adjusts the brightness of the blanking area by controlling light emission of the blanking lamp by comparing the average brightness calculated by the image analyzer 320 with the reference brightness. That is, when the average luminance of the analyzed image data is lower than the set reference luminance, the blanking lamp is controlled to have a light emission luminance higher than the average luminance, and the average luminance of the analyzed image data is higher than the set reference luminance. In this case, the blanking lamp is controlled to have a light emission brightness lower than the average brightness.

However, when the display panel 210 is driven, the entire display panel 210 needs to be displayed in black during the inspection of the panel or other screens. In this case, since the entire frame unit data is black data, the image analyzer 230 outputs a separate signal when the entire frame unit data is black data through analysis of the input image data, and thus the blanking lamp control unit ( 250 receives a separate signal indicating that the entire frame unit data is black data, and turns off a blanking lamp without performing comparison with the reference luminance stored in the reference luminance data storage unit 240. .

As described above, when the luminance of the blanking lamp is adjusted through the luminance analysis of the image input to the display panel, the screen drag phenomenon is improved and the entire screen is darkened, and at the same time, the luminance is visualized through the entire luminance. This has the effect of being improved.

As described above, the display device and the driving method thereof according to the present invention adjust the luminance for each input image for the blanking area in the impulsive driving, thereby improving the screen drag phenomenon and the overall screen darkening, and the entire frame. There is an effect of improving the luminous sense through the uniform brightness.

Claims (12)

In the impulsive driving in which the display panel displaying image data on a frame basis has a blanking area, And analyzing the image data input in the frame unit and adjusting the gray level of the black data according to the analysis result and outputting the gray level of the black data to the blanking area. The method according to claim 1, The driving method is repeated for every frame. The method according to claim 1, The method of analyzing the input image data may include calculating a gray level average of each image data input for each pixel. The method according to claim 1, The driving method, The reference luminance of the display panel is set, and when the average luminance of the analyzed image data is lower than the set reference luminance, gray level data having a luminance higher than the average luminance is inserted into the blanking area, and the analyzed image data. And a gray level data having a luminance lower than the average luminance is inserted into the blanking area when the average luminance is higher than the set reference luminance. The method according to claim 1, If the image data input to the one frame is all black data, the display panel driving method characterized in that for outputting the black data of the full gray level to the blanking area In a display device in which a display panel displaying image data on a frame basis has a blanking area, An image input unit receiving image data to be input to the display panel in a frame unit; An image analyzer which analyzes the image data inputted to the image input unit and calculates an average luminance of the frame; A reference luminance data storage unit for storing reference luminance data of the display panel; A blanking data selection output unit for selecting and outputting a gray level of black data to be inserted into the blanking area by comparing the average luminance calculated by the image analyzer with the reference luminance data Display device further comprising In the impulsive driving provided with a plurality of backlight lamps on the back of the display panel, a blanking area that is turned off at least one of the backlight lamps every frame to have a blanking area, Analyzing image data input in units of frames to calculate an average luminance of each image data, and adjusting the light emission luminance of the blanking lamp according to the calculated average luminance. The method of claim 7, wherein The driving method is repeated for every frame. The method of claim 7, wherein The method of calculating an average luminance of the input image data is calculated as a gray level average of each of the image data input for each pixel. The method of claim 7, wherein The driving method, Set a reference luminance of the display panel, control the blanking lamp to have a light emission luminance higher than the average luminance when the average luminance of the analyzed image data is lower than the set reference luminance, and average luminance of the analyzed image data. The blanking lamp is controlled to have a light emission luminance lower than the average luminance when the reference luminance is higher than the set reference luminance. The method of claim 7, wherein The blanking lamp is turned off when the image data input to the one frame is all black data. In the display device having a plurality of backlight lamps on the back of the display panel for displaying the image data on a frame-by-frame basis, and having at least one blanking lamp that is turned off every frame, An image input unit receiving image data to be input to the display panel in a frame unit; An image analyzer which analyzes the image data input to the image input unit and calculates an average luminance of the frame; A reference luminance data storage unit for storing reference luminance data of the display panel; Blanking lamp control unit for controlling the light emission of the blanking lamp by comparing the average luminance calculated by the image analysis unit and the reference luminance data Display device including

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