KR100420653B1 - Metod for automatically color adjusting for a monitor - Google Patents

Abstract

The present invention relates to an automatic color adjustment method of a monitor which is executed when a user wants automatic color adjustment. The automatic color adjustment method according to the present invention includes the steps of: (1) reading the minimum value stored in the minimum value register of the scaler as the offset value of the preamplifier is changed, and detecting the offset value of the preamp such that the minimum value is "1". And (2) reading the maximum value stored in the maximum value register of the scaler as the drive value of the preamplifier is changed, and detecting the drive value of the preamplifier whose maximum value is " 254 " Storing the detected offset value and drive value in an EEPROM in the monitor.

According to the present invention, when a user selects automatic color adjustment using a hotkey or an OSD, an optimal monitor color adjustment is possible automatically regardless of the video card.

Description

How to automatically adjust the color of your monitor {METOD FOR AUTOMATICALLY COLOR ADJUSTING FOR A MONITOR}

The present invention relates to an automatic color adjustment method in an LCD monitor, and more particularly, to an automatic color adjustment method for setting an optimal offset value and a drive value using a dichotomy.

In general, the LCD monitor includes a preamplifier, A / D converter, scaler, microcomputer, and LCD panel, and appropriately processes the video signals consisting of red, green, and blue signals input from a video card of a PC. Will print to the panel.

Hereinafter, with reference to the accompanying Figure 1, it will be outlined for each component constituting the above-described LCD monitor. 1 is a block diagram schematically illustrating an internal circuit of a general monitor.

First, a pre-amplifier 112, which is a component of the monitor 110, receives a video signal of red, green, and blue from a video card 100 mounted in a PC, and receives the input video signals. It also adjusts to a level suitable for A / D conversion and adjusts contrast.

Next, the A / D converter 114 converts the image signals adjusted to the appropriate level in the above-described preamp from an analog signal to a digital signal and outputs them. As a result, analog video signals input from the PC are converted into 8-bit digital signals.

On the other hand, the digital video processor, or referred to as a scaler (116), the LCD panel 118 to the 8-bit digital signal of each of the R, G, B output from the A / D converter 114 Convert it to the appropriate format.

In addition, the scaler also serves to change the input image signal of various resolution to the resolution of the LCD panel. That is, when a signal having a resolution of 800 × 600 is input, the input signal is changed to match the resolution of the LCD panel, for example, 1024 × 768.

As described above, a general monitor receives R, G, B video signals from a video card in a PC, and is appropriately processed by a preamplifier, an A / D converter, a scaler, and the like and displayed on an LCD panel.

However, in converting an analog signal input from a PC into a digital signal and providing the same to the LCD panel, the LCD monitor must completely convert the level of the input analog signal into a digital signal without loss. Conventionally, in order to make such a color adjustment, a color presetting is performed to adjust the color in advance at the stage of manufacturing the monitor. In other words, in the production line before the monitor was released, each monitor was color-adjusted based on the data displayed on the particular equipment.

By the way, a variety of video cards are used in monitors today, and these video cards all have different color characteristics. However, in the conventional preset color adjustment, only accurate color adjustment is made for specific equipment, and color adjustment is very difficult for other video cards.

SUMMARY OF THE INVENTION An object of the present invention is to provide an automatic color adjusting device and a method for allowing a user to automatically adjust the color of a monitor by using a specific key or OSD.

It is also another object of the present invention to provide a method for automatically adjusting the color of the monitor, no matter what video card it is connected to.

1 is a block diagram schematically showing the internal circuit of a typical LCD monitor.

2 is a block diagram showing the internal circuit of the LCD monitor according to the present invention;

3 is a flow chart showing an automatic color adjustment method of a monitor according to the present invention.

4 is a flowchart illustrating a method of setting an offset value using a dichotomy in the automatic color adjustment method of a monitor according to the present invention.

A feature of the present invention for achieving the above object is a method for automatic color adjustment of an LCD monitor comprising a preamplifier, an A / D converter, a scaler, a microcomputer, and a memory, which comprises: (a) for each image signal; Detecting an offset value at which the minimum value stored in the built-in minimum value register becomes "1", and (b) for each video signal, a drive value at which the maximum value stored in the maximum value register built in the scaler becomes "254"; Detecting and (c) storing the offset value and the drive value in the memory.

At this time, the step (a) of detecting the offset value at which the minimum value is "1",

(a) setting the offset value of the preamplifier to a center value within a range of total offset values, (b) detecting a minimum value stored in the minimum value register of the scaler under the set offset value, and (c) the Determining whether the minimum value is 1; (d) if the minimum value is greater than " 1 ", reset the offset value of the preamplifier to an average value of the offset minimum value and the current offset value, and if the minimum value is " 1 " If less than, resetting the offset value of the preamplifier to the average value of the offset maximum value and the current offset value; (e) the (b), (c), ( The step d) is repeated, and is preferably performed for each of the R, G, and B video signals.

On the other hand, the step (b) of detecting a drive value at which the maximum value is "254",

(a) setting a drive value of the preamplifier to a center value of the entire drive value range, (b) detecting a maximum value stored in the maximum value register of the scaler under the set drive value, and (c) Determining whether the maximum value is "254"; and (d) if the maximum value is greater than "254", reset the drive value of the preamplifier to an average value of a drive minimum value and a current drive value. If the maximum value is less than " 254 ", resetting the drive value of the preamplifier to an average value of the drive maximum value and the current drive value, and (e) until the maximum value becomes " 254 " ), (c), and (d) are repeated, and it is preferable to perform each of the R, G, and B video signals.

In addition, the automatic color adjustment method of the monitor, by setting a hotkey in advance or by separately setting the items in the OSD, if the user wants automatic color adjustment, by entering a hotkey or selecting the corresponding item in the OSD, the automatic color adjustment of the monitor is easy. It is more preferable to make it possible.

According to the present invention, it is possible to automatically adjust the optimal color of the monitor, no matter what video card the monitor is connected to. In addition, by pre-setting hotkeys or OSD items for automatic color adjustment, users can easily adjust the color of the monitor to the color that best suits the video card, even if the video card changes.

Hereinafter, an automatic color adjustment method of a monitor according to the present invention will be described in detail with reference to the accompanying drawings.

2 is an internal block diagram of the monitor according to the present invention, Figure 3 is a flow chart for explaining the automatic color adjustment method of the monitor according to the present invention.

Referring to FIGS. 2 and 3, when the microcomputer of the monitor receives an input of the automatic color adjustment of the monitor from the user, the monitor executes the automatic color adjustment method. It is desirable to provide a separate "color adjustment" item on the monitor's on-screen display (hereinafter referred to as "OSD") or to set a hotkey so that the user can easily automatically adjust the color.

In step 300, when the automatic color adjustment is input from the user, the microcomputer of the monitor uses the dichotomy for the red signal among the input image signals so that the minimum value stored in the MIN register built into the scaler becomes "1". Detect the offset value of the preamp.

Next, in step 310, the microcomputer drives the preamplifier such that the maximum value stored in the MAX register built into the scaler is “254” using a dichotomy for the red signal among the input image signals. Detect the value. The dichotomy is described below in detail with reference to FIGS. 4 and 5.

The monitor's scaler has a minimum value register where the minimum value is stored and a maximum value maximum value register. The minimum and maximum values refer to the smallest and largest values of each pixel of the designated window area of the screen. As described above, the measurement window region for obtaining the minimum and maximum values does not use all of the active regions of one frame, but uses the remaining regions except for 10 pixels in the top, bottom, left, and right sides of the active region. This is to avoid the resonance occurs at the beginning and end of the active region.

In general, the A / D converter used for the monitor converts an analog signal into an 8-bit digital signal. In this case, the output digital signal is 0. - 2⁸It will have any value in the range (255). Therefore, when the output digital signal is "0", it means that the input analog signal is underflowed. Also, when the output digital signal is "255", it means that the input analog signal has overflowed. It means. Therefore, by allowing the minimum value stored in the minimum value register to be "1" and the maximum value stored in the maximum value register to be "254", it is possible to prevent underflow and overflow.

Steps 300 and 310 are executed not only for the red signal but also for the green and blue signals to obtain an offset value and a drive value for each image signal.

In this way, the offset value and the drive value obtained for each video signal of R, G, and B are stored in an electrically rewritable ROM mounted in the monitor, such as an EEPROM.

When the monitor wants to adjust the color automatically, the monitor's micom sets the offset and drive values of the preamplifier to the offset and drive values stored in the EEPROM.

The preamplifier converts the input video signal using the newly set offset value and the drive value as the output reference level, thereby outputting the converted video signal to the A / D converter. As a result, analog video signals input from a video card of a PC can be completely converted into digital signals without any loss.

Hereinafter, referring to FIG. 4, a process of obtaining an offset value having a minimum value of "1" using the dichotomy in the automatic color adjustment method according to the present invention will be described in detail.

First, in step 400, the offset value of the preamplifier is set to the middle value of the entire offset range with respect to the red video signal. Next, under the offset value set in step 410, the video signal input from the video card of the PC is converted into a digital signal in the A / D converter and then input to the scaler. At this time, the minimum value stored in the minimum value register of the scaler is detected.

If the detected minimum value is smaller than "1", the offset value of the preamplifier is reset to the average value of the offset maximum value and the current offset value (step 430). In addition, if the detected minimum value is larger than "1", the offset value of the preamplifier is reset to the average value of the offset minimum value and the current offset (step 440).

On the other hand, in step 450, if the detected minimum value is " 1 ", the offset value is stored in the EEPROM in the monitor; otherwise, the offset value is reset and the process returns to step 410.

This process is performed not only on the video signals of Red but also on the green and blue video signals, and sets an offset value at which the minimum value of the minimum value register of the scaler becomes "1" for each video signal.

Next, referring to FIG. 5, a process of obtaining a drive value of a preamplifier in which the maximum value stored in the maximum value register of the scaler becomes “254” in the automatic color adjustment method according to the present invention is specifically described. Explain.

First, in step 500, the drive value of the preamplifier is set to the middle value of the entire drive value range for the red video signal. Next, under the drive value set in step 510, the image signal input from the video card of the PC is converted into a digital signal in the A / D converter and then input to the scaler. At this time, the maximum value stored in the maximum value register of the scaler is detected.

If the detected maximum value is less than " 254 ", the drive value of the preamplifier is reset to the average value of the drive maximum value and the current drive value (step 530). If the detected maximum value is greater than " 254 ", the drive value of the preamplifier is reset to the average value of the drive minimum value and the current drive value (step 540).

On the other hand, in step 550, if the detected maximum value is " 254 ", the drive value is stored in the EEPROM in the monitor, otherwise the drive value is reset and the process returns to step 510.

This process is performed not only for the red video signal but also for the green and blue video signals, and sets a drive value for each video signal whose maximum value stored in the maximum value register of the scaler is " 254 ".

According to the present invention, the user can easily adjust the color of the monitor to the color most suitable for the video card by selecting a preset hotkey or OSD item.

Claims (6)

In the automatic color adjustment method of the LCD monitor having a preamplifier, A / D converter, scaler, micom and memory, (a) detecting an offset value at which the minimum value stored in the minimum value register built into the scaler is "1" for each video signal; (b) detecting a drive value for each video signal whose maximum value stored in the maximum value register built in the scaler is " 254 " (c) storing the offset value and the drive value in the memory Automatic color adjustment method of the monitor comprising a. The method of claim 1, wherein the step (a) of detecting the offset value at which the minimum value is "1" comprises: (a) setting an offset value of the preamplifier as a center value within a range of total offset values; (b) detecting a minimum value stored in the minimum value register of the scaler under the set offset value; (c) determining whether the minimum value is 1; (d) if the minimum value is greater than "1", reset the offset value of the preamplifier to an average value of the offset minimum value and the current offset value, and if the minimum value is less than "1", the offset value of the preamp Resetting to the average of the offset maximum value and the current offset value; (e) repeating steps (b), (c) and (d) until the minimum value is " 1 " The automatic color adjustment method of the monitor, characterized in that is performed for each of the R, G, B image signals. The method of claim 1, wherein the memory is an EEPROM embedded in a monitor. The automatic color adjustment method of claim 1, wherein the area for measuring the minimum value and the maximum value is a remaining area obtained by removing 10 pixels of top, bottom, left, and right of the active area of one frame. The method of claim 1, wherein (b) detecting the drive value at which the maximum value is "254" includes: (a) setting the drive value of the preamplifier to the center value of the entire drive value range; (b) detecting a maximum value stored in the maximum value register of the scaler under the set drive value; (c) determining whether the maximum value is "254"; (d) If the maximum value is greater than " 254 ", reset the drive value of the preamplifier to an average value of the drive minimum value and the current drive value, and if the maximum value is less than " 254 " Resetting the drive value to the average of the maximum drive value and the current drive value; (e) repeating steps (b), (c) and (d) until the maximum value is "254" The automatic color adjustment method of the monitor, characterized in that is performed for each of the R, G, B image signals. The method of claim 1, wherein the automatic color adjustment method of the monitor sets a predetermined hotkey corresponding to the automatic color adjustment in advance or prepares a corresponding item in the OSD separately, so that a hotkey for automatic color adjustment is input from the user. When the corresponding item of the OSD is selected, the automatic color adjustment method is executed by the microcomputer.