KR100222202B1 - Gray level control device for monitor - Google Patents

Abstract

The present invention enables automatic gray level setting for each RGB signal of an input video signal so that a normal level signal is applied to an analog / digital converter so that the gray level of the monitor is improved to have a normal resolution. An apparatus and a method thereof, comprising: a data control unit for reading information on data currently stored in a data storage unit, and controlling the main brightness adjustment unit with reference to the read information of the data control unit to recognize the analog / digital converter; A main brightness control means for adjusting brightness to the lowest level for each of the possible RGB and sub cutoff control means for controlling the color coordinates of each of the RGB in the sub cutoff adjustment unit with reference to the read information of the data controller; With reference to the read out information of the data controller Main contrast adjusting means for controlling the contrast to the lowest level for each of the RGB that can be recognized by the analog-to-digital converter by controlling the contrast adjusting unit and the contrast of each RGB in the sub drive adjusting unit by referring to the read information of the data control unit. By providing the sub-drive control means for controlling the color coordinates with respect to, the loss of data due to the abnormality of the input signal is prevented, and the optimum gray level setting can be performed by having the maximum resolution.

Description

Monitor Gray Level Adjuster

The present invention relates to a gray level adjusting device of a monitor. More specifically, the gray level setting of each video signal (Red, Green, Blue: `` RGB '') of an input video signal can be automated. The present invention relates to a gray level adjusting device for a monitor, in which a signal of a normal level is applied to an analog / digital converter so that the signal has a normal resolution.

In general, as the electronic technology is developed, a liquid crystal display device (hereinafter, referred to as an LCD) has been adopted as a device for displaying predetermined information.

Conventional monitors such as LCDs are widely used in the digital video signal processing system, the general configuration is as shown in FIG.

Referring to FIG. 1, the resolution of an analog-to-digital converter is an important component of the expressive ability of color, for example 2 ⁸ × 2 ⁸ × 2 ⁸ colors when using an 8-bit analog / digital converter. Can be implemented. However, this can be realized only when the RGB signal input to the analog / digital converter matches the level of the input tolerance.

Conventionally, the RGB signals are applied to the corresponding sub cutoff adjusting units 10 to 14, and the brightness is varied by adjusting the respective cutoff characteristics. The RGB signals are applied to the corresponding sub drive adjusting units 16 to 20, so that the RGB signals have respective gain values. Contrast is adjusted by adjusting.

As described above, the RGB signal having the cutoff characteristic and the contrast adjustment for each of them is adjusted through the main brightness adjustment unit 22 and the main contrast adjustment unit 24 to adjust the brightness and contrast of the entire level.

The signal whose brightness and contrast are adjusted through the main brightness adjusting unit 22 and the main contrast adjusting unit 24 is a signal having a normal level as shown in FIG. 2 and is applied to the analog / digital converter 26 and converted into digital signals. It is temporarily stored in the storage unit 28.

The video data stored in the data storage unit 28 is read and applied to the digital processing unit 30, and the digital processing unit 30 outputs and displays the digital signal to the display device 32 according to a predetermined process.

A conventional color coordinate measuring apparatus 34 is used as the above-described monitor gray level adjusting apparatus as shown in FIG. 1, and the color coordinate measuring apparatus 34 measures the color coordinates of the displayed video, and adjusts the color coordinates of the RGB signal according to the result. do.

Therefore, the adjustment of the color coordinates is entirely dependent on the color coordinate measuring device 34. When the level of the signal applied to the analog-to-digital converter 26 is abnormally large as shown in Figs. 3 and 4, the input information is lost and RGB is lost. The color coordinate values for each are set to the same value. In detail, when a signal having an abnormally large level is applied as shown in FIG. 4, in the case of an 8-bit analog / digital converter, all RGBs have the same color coordinate value with a value of (FF) ₁₆ .

And, if the video signal is applied at an excessive level as shown in Figure 3, the analog-to-digital converter does not have a normal resolution.

Therefore, the conventional gray level adjusting device of the monitor has a problem that it is impossible to implement the optimal gray level by performing an abnormal operation when the input level to the analog / digital converter occurs.

The present invention has been made to solve the problems of the prior art as described above, the object of which is to check the data of the output video signal to adjust the color coordinates, brightness and contrast of the RGB signal, the resolution of the analog-to-digital converter The present invention provides an apparatus and a method for adjusting a gray level of a monitor for optimizing the function.

1 is a block diagram showing a gray level adjusting device of a conventional monitor.

FIG. 2 is a waveform diagram illustrating a white level of a video signal applied to an analog / digital converter in a normal case.

3 and 4 are waveform diagrams in which a signal of a high or low level of a video signal is applied to an analog / digital converter in an abnormal case.

5 is a block diagram showing an embodiment of an apparatus for adjusting a gray level of a monitor according to the present invention.

6 is a waveform diagram illustrating an RGB signal initially applied to an embodiment.

FIG. 7 is a waveform diagram illustrating an RGB signal in a state in which brightness and contrast are lowered to a minimum allowed by an analog / digital converter. FIG.

8 is a waveform diagram illustrating an RGB signal in a state in which brightness and contrast are adjusted to the maximum values allowed by the analog / digital converter with reference to the data controller.

* Explanation of symbols on the main parts of the drawings

10 to 14, 40 to 44: Sub cutoff adjustment unit

16 to 20, 46 to 50: Sub drive adjusting unit

22,52: Main brightness adjustment unit 24,54: Main contrast adjustment unit

26,56: Analog-to-digital converter 28,58: Data storage

30,60: digital processing unit 32,62: display device

34,66: color coordinate measuring device 64: data control unit

68: RGB cutoff control unit 70: RGB sub drive control unit

72: main brightness control 74: main contrast control

In the gray level adjusting apparatus of the monitor according to the present invention for achieving the above object, each of the R, G, R (signal, RGB) signal, which is a color signal, corresponds to the sub cutoff adjusting unit and the sub drive adjusting unit. After cut-off and drive adjustment, the brightness is converted by analog / digital converter through brightness and contrast adjustment through main brightness adjustment unit and main contrast adjustment unit, and then stored in data storage unit. A gray level adjustment apparatus for a monitor configured to perform the following steps, comprising: a data control unit for reading information on data currently stored in the data storage unit, and controlling the main brightness adjustment unit with reference to the read information of the data control unit to control the analog; Adjust the brightness to the lowest level for each RGB that can be recognized by the digital / digital converter. The sub-cutoff control unit may include a sub-cutoff control unit for controlling the color coordinates of each of the RGB in the sub-cutoff adjusting unit by referring to the main brightness adjusting unit and the read information of the data control unit.

The gray level adjusting device of the monitor according to the present invention includes a main brightness adjusting unit and a main contrast adjusting unit after each RGB signal, which is a color signal, has been cut-off and drive-adjusted in the sub cutoff adjusting unit and the sub drive adjusting unit. A gray level adjusting device of a monitor configured to perform signal conversion from an analog-to-digital converter via brightness and contrast adjustment, stored in a data storage unit, and thereafter configured to perform a predetermined digital signal processing process. A data control unit for reading information about data, and a main control unit controlling the main contrast adjustment unit with reference to the read information of the data control unit to adjust contrast to the lowest level for each of the RGB that can be recognized by the analog-to-digital converter. Contrast adjustment means and the data The sub-drive control unit may further include sub-drive control means for controlling the color coordinates of each of the RGB in reference to the read information of the control unit.

On the other hand, the gray level adjustment method of the monitor according to the present invention for achieving the above object is a sub-cutoff adjusting unit, sub-drive adjusting unit, main brightness adjustment unit, main contrast adjustment unit, analog / digital converter, data storage unit In the gray level adjusting device of the monitor comprising: a first step of setting the input level of the RGB to be 1/2 of the input range of the analog-to-digital converter, and the data digitized by the analog-to-digital converter A second process of storing the data in the data storage unit, a third process of reading information on the data currently stored in the data storage unit, and the analog / digital converter with reference to the information read in the third process. Refer to a fourth process of adjusting brightness and contrast at the lowest level for each possible RGB, and information read in the third process; In other words, a fifth process of controlling color coordinates of brightness and contrast of each RGB is performed.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the gray level adjusting device of the monitor according to the present invention will be described in detail.

Referring to FIG. 5, according to the embodiment of the present invention, corresponding sub-drive adjusting units 46 to 50 are connected to sub-cutoff adjusting units 40 to 44 to which RGB signals are applied, respectively, and sub-drive adjusting units 46 to 50. ) Is connected to apply the respective RGB signals whose contrast is adjusted to the color coordinate values to the main brightness adjusting unit 52, and the main brightness adjusting unit 52 is connected to the main contrast adjusting unit 54 to adjust the contrast of the brightness adjusted signal. It is configured to be.

An analog / digital converter 56 is connected to the main contrast adjusting unit 54 so as to convert an input video signal into a digital signal and input the data to the data storage unit 58.

The data storage unit 58 is configured to temporarily store the video information and output the data to the digital processing unit 60 so that the video is output from the display device 62. Meanwhile, the video information stored in the data storage unit 58 is stored. Is configured to be read by the data control unit 64. The video output from the display device 62 is configured to be measured by the color coordinate measuring device 66.

In addition, the data control unit 64 controls the information on the video data currently stored in the data storage unit 10 to the RGB sub cutoff control unit 68, the RGB sub drive control unit 70, the main brightness control unit 72, and the main contrast control unit, respectively. And an RGB sub cutoff control unit 68 is connected to apply a control signal for performing brightness control on color coordinates to the sub cutoff adjusting units 40 to 44 for each RGB. The sub drive control unit 70 is connected to the sub drive adjusting units 46 to 50 to apply a control signal for performing contrast control on the color coordinates.

Therefore, each RGB signal is subjected to cutoff characteristics and gain adjustments in the sub cutoff adjusters 40 to 44 and the sub drive adjusters 46 to 50, and then brightness is adjusted in the main brightness adjuster 52 and the main contrast adjuster 54 is used. After the contrast is adjusted, the signal is converted through the analog-to-digital converter 56 and stored in the data storage 58.

At this time, in the embodiment of the present invention, the initial RGB signal has a level corresponding to 1/2 of the allowable range of the analog-to-digital converter 56 as shown in FIG. 6, and is input with a predetermined level clamped by a cutoff width. In this state, the data is stored in the data storage 58 through the above-described process, processed by the digital processor 60 by a predetermined process, and then output to the display device 62.

Of course, in this state, the display device 62 displays abnormal video signals in which color coordinate adjustment is not performed.

On the other hand, the data control unit 64 reads the data of the data storage unit 58 and reads information on the currently stored video data, so that the RGB cutoff control unit 68, the RGB drive control unit 70, the main brightness control unit 72 and It applies to the main contrast control part 74.

Then, the main brightness control unit 72 and the main contrast control unit 74 adjust the RGB signal to the lowest level allowed by the analog-to-digital converter 56 as shown in FIG. 7 with reference to the information applied from the data control unit 64. .

Thereafter, the main contrast control unit 74 adjusts the contrast of the RGB signal so as to have the same level as that of FIG. 8 while referring to the information applied from the data control unit 64.

In this case, when the analog-to-digital converter 56 is 8-bit, each data value of RGB becomes R = (FF) ₁₆ , G = (FF) ₁₆ , and B = (FF) ₁₆ .

However, the data for the current RGB values are all equal to (FF) ₁₆ , but the color coordinates do not match due to the characteristics of each cell of the LCD module. Therefore, the sub cutoff and drive values of each RGB should be adjusted again.

This is performed by the RGB cutoff control unit 68 and the RGB drive control unit 70, and according to the control thereof, each sub cutoff adjustment unit 40 to 44 and each sub drive adjustment unit 46 to 50 perform a correction operation according to the color coordinates. do.

Specifically, when the R sub-drive value is adjusted by (0F) ₁₆ as high, since each RGB value is (FF) ₁₆ , it is impossible to adjust the R value by (0F) ₁₆ as high. Therefore, relatively decreasing the values of G and B by (0F) ₁₆ achieves the same effect. Then, each RGB data has values of R = (FF) ₁₆ , G = (F0) _{16, and} B = (F0) ₁₆ .

Here again, if nopindago the G value (02) by ₁₆ in, since the value of R (FF) ₁₆ is only increasing further as G value (02) _16. Each RGB data then has values of R = (FF) ₁₆ , G = (F2) _{16, and} B = (F0) ₁₆ .

Therefore, when the gray level is adjusted by the above-described process, any one of the RGB signals will always have the state as shown in FIG. do. In addition, since the color coordinates are automatically adjusted, the optimum gray level can be set by making the best use of the analog / digital resolution.

According to the present invention as described above, the loss of data due to the abnormality of the input signal is prevented, and having the maximum resolution has the effect that the optimal gray level setting can be performed.

Claims (3)

The main brightness control unit and the main contrast control unit after the respective cutoff and drive adjustments are performed on the sub-cutoff control unit and the sub-drive control unit. In the gray level adjustment apparatus of the monitor configured to perform signal conversion in the analog-to-digital converter via brightness and contrast adjustment via the data storage unit, and then perform a predetermined digital signal processing process. A data control unit for reading information on data currently stored in the data storage unit; Main brightness control means for controlling the brightness of the main brightness controller by referring to the read information of the data controller to adjust brightness to the lowest level for each of the RGB signals recognized by the analog / digital converter; And sub-cutoff control means for controlling the color coordinates of the respective brightnesses of the RGB in the sub-cutoff adjusting unit by referring to the read information of the data control unit. Each RGB signal, which is a color signal, is cut-off and drive-adjusted by the sub-cutoff control unit and sub-drive control unit, and then converted into a signal in the analog / digital converter through brightness and contrast adjustment via the main brightness control unit and the main contrast control unit. In the gray level adjustment apparatus of the monitor which is configured to be stored in the data storage, and then to perform a predetermined digital signal processing process, A data control unit for reading information on data currently stored in the data storage unit; Main contrast adjusting means for controlling the main contrast adjusting unit with reference to the read information of the data control unit to adjust the contrast to the lowest level for each of the RGB that can be recognized by the analog / digital converter; And sub-drive control means for controlling the color coordinates of each of the RGB in the sub-drive adjusting unit by referring to the read information of the data control unit. In the gray level adjustment method of the gray level adjustment apparatus of the monitor which includes a sub cutoff adjustment part, a sub drive adjustment part, a main brightness adjustment part, a main contrast adjustment part, an analog / digital converter, and a data storage part, A first process of setting an input level of an RGB to be 1/2 of an inputable range of the analog-to-digital converter, and a second process of storing data digitized by the analog-to-digital converter in a data storage unit; And a third process of reading information on data currently stored in the data storage unit, and the lowest level of each of the RGBs that can be recognized by the analog / digital converter with reference to the information read in the third process. And a fifth step of controlling brightness and contrast, and a fifth step of controlling color coordinates of brightness and contrast of each RGB by referring to the information read in the third step.

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