KR960006755B1 - Automatic brightness regulation apparatus and method - Google Patents

Abstract

The apparatus comprises a level detecting unit for detecting a maximum value of luminance signal and a minimum value of the inverted luminance signal; a counter for counting the maximum and minimum values of an image signal detected by the level detecting unit; a microcomputer for formulating a look-up table in 3-level function for the contrast of the image signal according to a counting value of the counter, and outputting a contrast switching signal; an analog/digital converting unit for converting an analog luminance signal applied from a buffer into a digital luminance signal; a switching unit for selectively outputting an address signal for the bypass or the access of the look-up table according to the switching signal applied from the microcomputer; an address generating unit for generating an address signal for the access of the look-up table by an output signal from the switching unit; a memory for storing the look-up table and outputting a contrast compensation signal of the look-up table corresponding to the address; and a digital/analog converting unit for converting the image signal and the contrast compensation signal in a digital/analog manner.

Description

Automatic Contrast Control of Television and Its Method

1 is a block diagram of an automatic contrast control apparatus for a television according to the present invention;

2 is a view for explaining the operation of the automatic contrast control device of the television shown in FIG.

3 is a flowchart for explaining the operation of the automatic contrast control device of the television shown in FIG.

* Explanation of symbols for main parts of the drawings

10: buffer 12: level detector

14: counter 16: microcomputer

18: analog-to-digital converter 20: switching unit

22: address generator 24: memory

26: digital-to-analog converter.

The present invention relates to an automatic contrast control apparatus and method of the television, and more particularly, to detect the luminance component distribution of a video signal at three levels and to automatically adjust contrast according to the detection level. It relates to an automatic contrast control device and a method thereof.

In general, in a television that implements a video signal, the image quality is affected based on the light and shade of the image. As a method of adjusting the light and shade of the image, the contrast is considered in consideration of the illuminance and viewing distance of the surrounding environment where the television is located. Although a method of controlling the power consumption has been proposed, if the luminance component of the actual video signal is biased in a specific section of a bright or dark section, the contrast must be adjusted manually by adjusting the contrast control terminal provided on the television. Therefore, in such a passive contrast adjustment method, it is difficult for most viewers to arbitrarily adjust the contrast of the television image based on the illumination of the surrounding environment rather than the contrast state of the image.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described prior art, and detects the distribution of the luminance signal of the video signal at three levels to make a look-up table so that the contrast can be automatically adjusted even if the intensity distribution of the video signal is distributed to either side. It is an object of the present invention to provide an automatic contrast control device and a method of a conventional television.

In order to achieve the above object, in accordance with an aspect of the present invention, a level detector for detecting and shaping a high and low level of a luminance signal applied through a buffer buffering an analog luminance signal separated from a luminance / color signal is provided by the level detector. A counter that counts the maximum and minimum levels of the analog luminance signal of the detected video signal, and a microcomputer that creates a look-up table with a three-level function for the brightness and darkness of the video signal according to the count value of this counter, and outputs the brightness switching signal. An analog-digital converter for digitally converting an analog luminance signal applied through the buffer; an address generation signal for bypassing a lookup table or accessing a lookup table with respect to the digitally converted signal according to a switching signal applied from the microcomputer; A switching unit for selectively outputting as An address generator for generating an address signal for accessing the lookup table based on the output signal, a memory for storing the lookup table and outputting a contrast correction signal from the lookup table corresponding to the address, and bypassing the switching unit. Provided is an automatic contrast control apparatus for a television having a digital-analog converter for converting an output image signal or a contrast correction signal read out from the lookup table.

According to the present invention, the counter comprises a maximum counter that counts the highest value of the luminance signal and a minimum counter that counts the lowest value of the inversion signal of the luminance signal.

In addition, the microcomputer calculates a histogram of the video signal based on the highest and lowest count results from the counter, so that the three-level function, that is, the video signal is biased in the dark part and the video signal is biased in the middle part. In this case, a lookup table including a contrast correction signal is generated as a three-level function in the case where the video signal is biased in the bright part.

According to the present invention, the switching unit has a terminal for controlling the digitally converted video signal to bypass the lookup table under the control of the microcomputer and a plurality of terminals for switching output to an address signal for the lookup table created by the microcomputer. It is composed.

Preferably, the switching unit is provided with a terminal for switching the image data for the multi-screen function under the control of the microcomputer when the present invention is applied to a color television having a multi-screen function.

In addition, when the present invention is applied to a color television having a multi-screen function, the memory means is applied with a memory for storing image data for the multi-screen function, and the memory is different from the look-up table storage area created by the microcomputer. The image data storage area for the screen function is allocated to output the contents of the lookup table corresponding to the address generated by the address generating means or to output the data of the image data storage area in the multi-screen function mode.

According to another aspect of the invention, the step of creating and storing a look-up table including a correction signal for the contrast deviation of the video signal in the automatic contrast control mode of the television reproducing the video signal; analog luminance signal of the video signal; Detecting the highest value of the luminance signal, detecting the minimum value from the inverted signal of the luminance signal, and shaping the highest value and the lowest value by the counter 14; calculating a bias level of the contrast of the image signal based on the result of the counting; Determining whether the correction is required by the lookup table, and performing contrast correction by selecting a bypass of the image signal or selecting a three-level function included in the lookup table; the image signal or the contrast that bypassed the lookup table; The automatic contrast correction method for televisions, which consists of a short-term analog output signal Is provided.

According to the present invention, the look-up table includes a contrast bias correction signal obtained by a three-level function to calculate a histogram of the contrast of the image signal and correct the contrast of the image signal based on the calculated histogram.

The counter 14 that counts the highest and lowest values of the video signal counts with a clock synchronized with the synchronization signal of the standardized video signal, and the counter 14 counts the highest value of the video signal. And a counter and a minimum value counter for counting the minimum value of the video signal.

Preferably, according to the present invention, in the step of performing the contrast bias correction of the video signal, the video signal is used as an address signal for accessing the contrast bias correction signal of the lookup table.

According to the automatic contrast control apparatus and method of the present invention configured as described above, the level detector detects and formulates the maximum value of the luminance signal, detects the minimum value from the inversion signal of the luminance signal, and the microcomputer detects the maximum value and the minimum value. The histogram of the video signal is calculated based on the L1, and the lookup table is a three-level function. When the contrast distribution of the digitally transformed video signal is biased, the contrast of the image is automatically adjusted using the lookup table.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an automatic contrast control apparatus for a television according to the present invention, wherein 10 is a buffer 10 for buffering an analog luminance signal separated from luminance / color signals, and 12 is a luminance signal applied through the buffer 10. A level detector for detecting and shaping the highest and lowest levels of the signal, wherein the level detector 12 detects and shapes the highest value of the luminance signal, inverts the luminance signal, and detects and shapes the lowest value of the inverted signal. do.

14 is a counter for counting the highest level of the analog luminance signal of the video signal detected by the level detector 12 and the lowest level from the inverted signal of the luminance signal. The counter 14 employed in the present invention is a counter of the luminance signal. It consists of a maximum counter that counts the highest value and a minimum counter that counts the lowest value of the video signal.

16 is a three-level function, i.e., when the video signal is biased in the dark part based on the highest and lowest count results provided from the counter 14 having the highest and lowest counters (FIG. )) And the case where the video signal is biased in the middle part (see FIG. 2 (B)) and the case where the video signal is biased in the bright part (see FIG. 2 (C)). (A, b, c), a lookup table including a contrast correction signal is created. In other words, when the present invention is applied to a multi-screen color television, the microcomputer 16 controls the mode of the multi-screen function and the automatic contrast control function, and the histogram of the video signal based on the count result applied from the counter 14. When the image is biased into the dark part as shown in Fig. 2A, the image signal is corrected to correct the contrast biased into the dark part as a function shown in (a) of Fig. 2A. A lookup table is created, for example, when the image has a contrast leveled to an intermediate level as shown in FIG. 2B, the image is biased to the middle part by the function shown in (b) of FIG. When a lookup table for correcting the contrast is created, when the image is biased to the bright part as shown in FIG. 2C, it is biased to the bright part as a function shown in (c) of FIG. Look-up table for correcting the contrast of video signals It is created. In addition, the microcomputer 16 calculates a histogram of the video signal to bypass the lookup table when the brightness distribution of the video signal has a normal contrast distribution such that correction by the lookup table is unnecessary. In the case of any one of the light and dark distributions shown in the figure, a switching signal is outputted to allow correction by the lookup table, and the setting operation of the lookup table in the vertical synchronization section detected from the video signal at the initial input of the video signal. Will be performed.

18 is an analog-to-digital converter for digitally converting an analog luminance signal applied through the buffer 10, and 20 is a bypass of a lookup table for the digitally converted video signal according to a switching signal applied from the microcomputer 16. A switching unit for selectively outputting an image signal requiring contrast correction for correction by a pass or a look-up table as an address generation signal. According to the present invention, the switching unit 20 controls the digital conversion under the control of the microcomputer 16. The histogram calculated by the microcomputer 16 and the terminal (a) as a path for bypassing the lookup table by the video signal corresponding to any one shown in FIG. 2 (A, B, C) (a) For a video signal having a contrast distribution, the corresponding contrast correction function included in the lookup table for correction by the lookup table (refer to (b) of FIG. 2 (A, B, C)) Equipped with a plurality of terminals (b, c, d) which acts as a path to be switched to the output address signal for selecting is configured. In addition, when the present invention is applied to a color television having a multi-screen function, the switching unit 20 provides a terminal (e) as a path for switching the image data for the multi-screen function under the control of the microcomputer 16. You will have more.

22 is an address generator for generating a 16-bit address signal for accessing a lookup table based on an address generation signal output from the switching unit 22 while operating in synchronization with a synchronization signal (life synchronous signal) of a video signal. When the present invention is applied to a color television having a multi-screen function, the address generator 22 sequentially generates 16-bit addresses for the multi-screen function applied through the terminal e of the switching unit 20. It also has a function.

24, the contrast correction signal of the lookup table stored as a three-level function shown in FIG. 2 (b) created by the microcomputer 16 is stored, and when the present invention is applied to a color television with a multi-screen function, The memory is embedded in the color television with the function, and the image data for the multi-screen function is stored. In this case, the memory means 24 is allocated to the lookup table storage area created by the microcomputer 16 and the image data storage area for the multi-screen function, so that the lookup corresponding to the address generated by the address generator 22 is obtained. It is configured to output the contents of the table or the data of the image data storage area in the multi-screen function mode.

Further, reference numeral 26 denotes a digital-analog converter for analog-converting the video signal output from the switching unit 20 or the contrast correction signal from the memory unit 24 or the video data for the multi-screen function in the multi-screen mode. to be.

Next, the operation of the automatic contrast control apparatus and method of the television according to the present invention configured as described above will be described with reference to the flowchart shown in FIG.

First, in step 30 and step 31, under the control of the microcomputer 16, the auto contrast control mode is selected for the television and the multi-screen function is turned off. In order to correct the contrast biased to one side in consideration of the histogram of the video signal shown in (a) of (C), a lookup table for each intensity distribution is created using the three-level function shown in (b) of FIG. The memory means 24 is set.

Subsequently, when the analog luminance signal of the image signal input through the buffer 10 is applied to the level detector 12 in steps 33 and 31, the level detector 12 receives the maximum value of the luminance signal and the inverted signal of the luminance signal. The minimum value of is detected and shaped, and then applied to the counter 14. The counter 14 counts the highest value and the lowest value by the highest value counter and the lowest value counter in steps 35 and 36 with the clock synchronized with the synchronization signal of the video signal. When the horizontal synchronization signal is detected, the counter 14 is counted in the interval of the life synchronization signal. The result value is transmitted to the microcomputer 16. Therefore, when the vertical synchronization signal is detected in steps 37 and 38, the microcomputer 16 calculates a histogram of the video signal and selects a function according to contrast distribution (see FIG. 2 (b)). If the contrast distribution is normal (single 40), the microcomputer 16 converts the image signal digitally converted by the analog-to-digital converter 18 in step 41 through an analog-to-digital converter (terminal a) of the switching unit 20. In 26, an analog conversion is performed to perform subsequent processing.

On the other hand, when the intensity distribution of the image signal has any one of the intensity distributions shown in (a) of (A, B, C) of FIG. 2, switching according to the histogram of the image signal provided from the microcomputer 16 By means of a signal, any one of the terminals (b, c, d) of the switching unit 20 is connected to the output of the analog-to-digital converter 18, and thus the digitally converted video signal is connected to its contrast level. It is applied to the address generator 22 via the terminal of the corresponding switching section 20. Therefore, in step 42, the address generator 22 generates an address signal for accessing the lookup table based on the image signal applied through the switching unit 20 to address the memory means 24 in which the lookup table is stored. The memory means 24 outputs the contrast correction signal by the look-up-tabled three-level function, whereby the contrast of the video signal is shown in (c) of FIG. 2 (A, B, C). It is corrected and converted into an analog signal through a digital-to-analog converter 26 and then output for post processing.

On the other hand, when the multi-screen mode is set under the control of the microcomputer 16, the terminal e of the switching unit 20 is connected in accordance with the switching signal applied from the microcomputer 16, so that the address generator 22 16-bit addresses are sequentially generated based on the video signal for multi-screen display applied through the switching unit 20. By this address, image data for one screen for multi-screen display stored in the memory means 24 is read out, analog-converted through the digital-analog converter 26, and then output for post processing.

As described above, according to the automatic contrast control apparatus and method of the television according to the present invention, a contrast signal of a video signal is assumed and a correction signal is preliminarily looked up in a memory means to automatically correct the contrast of the video. Therefore, it is possible to effectively cope with the deterioration of the brightness of the image itself, not the influence of the surrounding environment in which the television is installed. In addition to being used as a memory means for storing a lookup table, it is also possible to use components such as an analog-to-digital converter or a digital-to-analog converter, thereby reducing costs.

Claims (10)

A level detector 12 for detecting and shaping the highest level of the luminance signal applied through the buffer 10 buffering the analog luminance signal separated from the luminance / color signal of the video signal and the minimum value of the inverted signal of the luminance signal; A counter 14 for counting the levels of the highest and lowest values of the video signal detected by the detector 12, and creating a lookup table with a three-level function for the intensity of the video signal according to the count value of the counter 14; In addition, the microcomputer 16 outputs a contrast switching signal, an analog-digital converter 18 for digitally converting an analog luminance signal applied through the buffer 10, and the digital signal according to a switching signal applied from the microcomputer 16. Switching unit 20 for selectively outputting the converted signal as an address generation signal for bypassing the lookup table or accessing the lookup table, to the switching unit 20 An address generator 22 for generating an address signal for access to the lookup table based on the output signal, and a memory means 24 for storing the lookup table and outputting a contrast correction signal in the lookup table corresponding to the address And a digital-to-analog converter (26) for converting the video signal bypassed by the switching unit or the contrast correction signal read out from the lookup table. The apparatus of claim 1, wherein the counter (14) comprises a maximum counter for counting the maximum value of the analog luminance signal and a minimum counter for counting the minimum value of the inverted signal of the luminance signal. The lookup table generated by the microcomputer 16 calculates a histogram of the contrast of the video signal based on the highest and lowest count results from the counter, and the contrast of the dark and dark areas of the video signal. And a correction signal for correcting the contrast as a three-level function of the contrast biased in the middle portion and the contrast biased in the bright portion. The display device of claim 1, wherein the switching unit 20 is configured to switch and output a path a bypassing the lookup table according to the light and dark deviation of the digitally converted video signal and an address signal for the lookup table of the video signal. An automatic contrast control device for a television, comprising a plurality of paths (b, c, d). The apparatus of claim 4, wherein the switching unit further comprises a path (e) for switching and outputting image data for a multi-screen function. The apparatus of claim 1, wherein the memory means (24) comprises a lookup table storage area and an image data storage area for a multi-screen function. Creating and storing a lookup table including a correction signal for contrast deviation of a video signal in an automatic contrast control mode of a television for reproducing a video signal; detecting a maximum value of an analog luminance signal of the video signal and luminance signal thereof; Detecting and shaping the minimum value from the inverted signal, and counting the highest value and the lowest value by the counter 14, calculating the bias level of the intensity of the video signal based on the result of the count, and correcting by the lookup table. Performing contrast correction by selecting a bypass signal of the image signal or selecting a three-level function provided in the lookup table; analog conversion of the image signal bypassing the lookup table or the contrast corrected image signal Automatic contrast control method for a television, characterized in that consisting of a step of outputting. 10. The method of claim 7, wherein the lookup table comprises a brightness bias correction signal obtained by using a three-level function to calculate a histogram of the contrast of the image signal and to correct the contrast of the image signal based on the calculated histogram. Automatic contrast adjustment method of TV to say. 8. A counter according to claim 7, wherein a counter (14) for counting the highest and lowest values of the luminance signal of the video signal performs a count with a clock synchronized with the synchronization signal of a standardized video signal, and the counter (14) And a maximum counter for counting the highest value and a minimum counter for counting the lowest value of the video signal. 8. The method according to claim 7, wherein the contrast-compensation correction of the video signal is used as an address signal for accessing the contrast-compensation correction signal of the lookup table.