KR920007922B1 - Automatic color kill method and circuit of tv - Google Patents

Abstract

The circuit decides the range of the top/bottom kill values by using the gain factor to execute the automatic color control and produces only the luminance signal of the original video signal if the gain factor is outside of the range. The circuit comprises an A/D converter (200) for converting the analog video signal to the digital data, a Y/C separator (210) for separating the digital video signal into the Y and C signals, a burst level detecting gain producer (230) for producing the gain factor from the burst level value, a kill producer (280) for producing the kill control signal by comparing the reference signals (KT,KB) with the output of the burst level detecting gain producer, a digital multiplier (220), and a decoder for producing the color output according to the kill control signal.

Description

Automatic Color Kill Method and Circuit in Digital Television Receiver

1 is a conventional analog automatic color and kill control circuit.

2 is a conventional digital automatic color and kill control circuit.

3 is a block diagram according to the present invention.

4 is a detailed circuit diagram of the Y / C separator 210, the demodulator 250 and the kill generator 280 of FIG.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic color kill circuit in a digital television receiver, and in particular, a range of maximum and minimum value kills is determined using a gain factor for executing automatic color control (ACC). In digital television receivers that generate a kill signal for a value other than the set value, and are input to a luminance / color (Y / C) separator and a kill demodulator, so that the video source signal becomes a luminance output when the kill is generated. It relates to a color kill method and circuit.

In general, in color TV, ACC (Auto Color Control) refers to a color signal processing function that automatically compares the burst level of the input video signal with a reference value and automatically makes the size constant according to the comparison result. This is a function to be processed at the receiving end in accordance with the international standard of the original video signal, the conventional analog color television receiver has been performed by the following method.

First, extract only the burst from the video signal, and secondly, calculate the value by integrating the burst value (peak detector + CPF), and third, compare the value with the set value (the value that must be present in the correct reception state). When the value was small, the amplification ratio of the original signal was increased, and in this case, the amplification ratio of the original signal was reduced.

In this way, the screen reproduction status of the white signal such as MBC or KBS was adjusted to suit each channel. The degree of the ACC is different in comparing the burst integral value of the original signal with the set value, so when the reception condition is not very good, the color signal is greatly attenuated in the original video signal, and the noise overlaps for various reasons. Deterioration will occur.

In other words, if only the color signal including burst in the original video signal is attenuated by a certain ratio, it can be amplified through ACC and restored to a good state. It is amplified and it is necessary to output only a luminance signal without a color signal to switch to a black and white screen. Even in the case of a color TV, it is natural that the broadcast station eliminates bursts and transmits only black and white, i.e., brightness, so that the color signal in the original signal should not be amplified during the ACC process.

In addition, there is no video signal when receiving a channel other than MBC or KBS. At this time, it is also strange to amplify the absence of the color signal through the ACC process. Therefore, it can be seen that the color killing process is absolutely necessary in the ACC process for these various reasons.

Looking at the conventional ACC process and kill control process is as follows. As shown in FIG. 1, when the composite analog video signal is input to the Y / C separator 10 through the input terminal 11, the luminance Y and the color signal according to the separation band limit and the control signal inputted to the control terminal CS₁. Remove C). When the color C signal output from the Y / C separator 10 is input to the automatic color controller 40, the magnitude of the burst is extracted. The ACC value is calculated using the extracted signal of the burst, and the amplification factor of the first amplifier 20 is determined by comparing with the lift value input through the control stage (CS₂) and compared with the reference value for kill. After deciding whether or not to generate a kill control signal. The color signal is amplified by the first amplifier 20 by the amplification factor determination signal generated from the automatic color controller 40, and the amplification code of the first amplifier 20 is input to the second amplifier 30. When the amplification is amplified according to the kill control signal generated through the automatic color controller 40, that is, if not the second amplification in the second amplifier 30, the demodulator 50 demodulates the color To print.

However, when there is a kill control signal from the automatic color controller 40, the output of the second amplifier 30 becomes zero (0) so that there is no output of the demodulator 50, and only the luminance signal is output as a video signal to perform monochrome processing. do.

On the other hand, in the case of the digital processing method as shown in FIG. 2, first, an analog composite video signal is input to the input terminal 11 and converted into digital data by the A / D converter 200.

When the digitized composite video signal is input to the Y / C separator 210, the digitized composite video signal is separated into luminance (Y) and color (C) signals by a control value input through the control stage CS \. When the color signal output from the Y / C separator 21 is input to the burst level detection generation circuit 230, the burst period of the color signal is integrated according to the control signal input through the control stage CS5 and averaged. To the multiplier 220 and the kill generator circuit 240. The multiplier 220 multiplies a color (C) signal by a gain-adjusted value by the burst level detection gain generation path 230 and outputs the result. The kill generation circuit 240 outputs the burst level detection gain generation circuit 230. Compare the output of to with the internal kill reference value and place it as a gain factor within the range to kill. As a result, since the output of the demodulator 250 becomes zero (0), only the luminance is output to perform monochrome processing of the video image. As described above, the conventional method according to the first and second degrees has a problem that the resolution is lowered because the band is narrowed because the high range is cut in the luminance.

Therefore, it is an object of the present invention to generate a kill signal when these elements fall outside the range of the maximum and minimum kill values by using these elements of automatic color control, so that the video source signal can be output as the luminance signal only. In providing a way.

Another object of the present invention is to generate a kill signal when the control gain factor value generated in the color automatic color controller in the digital color television receiver is outside the minimum and maximum values of the kill, and control the Y / C separation and the color demodulator to kill. It is to provide a circuit that can handle the.

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

3k is a block diagram according to the present invention, an A / D converter 200 for converting an analog composite video signal input to the input terminal 11 into digital data;

The digitized video signal input to the output terminal 221 of the A / D converter 200 is separated into luminance (Y) and color (C) by a Y / C separation control signal input to a control terminal (CS₄). Y / C separator 210 that outputs only luminance when there is a kill control signal,

A burst level detection gain generation circuit 230 which receives the color C signal of the Y / C separator 210 and generates a burst level value as a gain element by a burst section and a gain control signal input to the control terminal CS5. Wow,

The output of the burst level triangular gain generation circuit 230 is compared with a value input to the maximum and minimum reference stages (KT, KB) of the kill to generate a kill control signal according to the vertical synchronization signal of the vertical synchronization signal stage Vsync. And a kill generator 280 input to the kill selector 281 of the Y / C separator 210;

A digital multiplier 220 multiplying the color C signal output from the Y / C separator 210 according to the gain element output from the burst level detection gain generation circuit 230;

Demodulating the output signal of the digital multiplayer 220 according to the reference data for color demodulation input to the control stage CS6 and controlling the color output according to the kill control signal output from the kill generator 280. Demodulator 250.

4 is a detailed circuit diagram of the Y / C separator 210, the demodulator 250 and the kill generator 280 of FIG. 3 according to the present invention, the Y / C separator 210 of Figure 4 (A) is A The output terminal 221 of the / D converter 200 is connected to the input terminal of the Y / C separation unit 207 and to the input terminal a of the second step unit 208, and the Y / C separation unit 207 The luminance output terminal of is configured to be connected to the other input terminal (b) of the first selector (208).

4B is a detailed circuit diagram of the demodulator 250 of FIG. 3 according to the present invention. The output terminal 289 of the digital multiplier 220 is connected to the input terminal of the color demodulator 291. CS6) is connected to the control terminal of the color demodulator 291, and the output terminal of the color demodulator 291 is connected to the input terminal of the second selector 292, the kill control stage of the kill generator 280 A color signal is selectively outputted according to the kill signal inputted through the 281.

FIG. 4C is a detailed circuit diagram of the kill generator 280 of FIG. 3, and the output terminal 240 of the burst level detection gain generation circuit 230 is used as the input terminal A of the first and second comparators COP1 and COP2. , B), the kill maximum reference value (KT: Kill Top) is input to the input terminal (A) of the first comparator (COP1), and the kill minimum reference value is input to the input terminal (B) of the second comparator (COP2). (KB: Kill Bottom) is input, and the output terminals of the first and second comparators COP1 and COP2 are connected to the input terminals of the OR gate OR1, and the output terminal of the OR gate OR1 is a kill signal controller KSC. It is configured to generate a kill signal (Kill) in accordance with the vertical synchronization signal input to the vertical synchronization terminal (Vsync).

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIGS. 3-4.

When receiving the CTV screen normally, no key signal is generated. Therefore, during demodulation or Y / C separation, signal processing is performed according to the normal path. Kills can be divided into three types: when the broadcast is received (TV), when a blind spot (Noise) or when there is no screen (no receiving channel).

In the above three cases, an example will be described in detail. In the case of black and white broadcasting reception, when an analog composite video signal is received at the input terminal 11, the A / D converter 200 converts the digital data into digital data. The digital data of the output terminal 221 of the A / D converter 200 is input to the Y / C separator 210.

The output of the output terminal 221 of the A / D converter 200 was input to the Y / C separation unit 207 and separated into luminance and color according to control data according to separation of the control stage CS '.

The luminance Y signal is input to the first selector 208, and the luminance signal is selectively output according to the state of the kill control stage 281.

The separated color C signal of the Y / C separator 207 is input to the burst level detection gain generation circuit 230.

The burst level detection gain generation circuit 230 generates a gain value by the burst section and the gain control signal input to the control stage CS5 and is input to the digital multiplier 220 and the kill generator 280. However, since black and white broadcasting does not send a burst in order to properly reproduce black and white, the gain factor generated in the burst level detection gain and loss circuit 230 is theoretically large. This is because if there is no burst of video when detecting the burst and comparing it with the ACC weight value of the control stage CS5, it must be infinitely amplified. Therefore, if the gain factor of the ACC is more than a certain level (for example, about 16 times), it may be considered as a black and white broadcast without a burst. Since there is no color during the black and white broadcasting, the input of the digital multiplier 220 becomes 0 (zero), so that the output of the digital multiplier 220 is zero when multiplied no matter how large the output of the burst level detection gain generation circuit 230 is. Is input to the demodulator 250.

When the output gain element of the output terminal 240 is input to the knife generator 280 to the burst level detection gain generation circuit 230, that is, it is input to the first and second comparators COP1 and COP2 of 4C of FIG. Lose. In this case, the first and second comparators COP1 and COP2 are compared with the maximum and minimum kill values KT and KB. When the value of the output terminal 240 of the burst level detection gain generation circuit 230 becomes larger than the kill maximum value KT, the output of the first comparator COP1 becomes high. At this time, a kill control signal is generated to the output terminal according to the synchronization signal of the vertical synchronization terminal Vsync input to the OR gate OR1 to the kill signal control unit KSC. The kill control unit KSC is sufficiently capable of having a flip-flop, for example, receiving the output of the oragate OR1 at the detater stage D of the diffuser flip-flop, and the vertical synchronizing stage at the clock stage CK. You can receive the vertical sync signal of (Vsync).

Accordingly, when a kill signal is generated in the kill control unit KSC, the kill control unit 281 of the Y / C separator 210 and the kill control unit 281 of the demodulator 250 are input, and the Y / C separator 210 is performed. The first selector 208 is controlled by the kill control stage 281 of the control unit 281 so that the Y / C separation unit 207 receives the digital composite video signal through the output terminal 221 of the A / D converter 200. The signal is directly selected without being separated and the luminance signal is output to receive the black and white broadcast.

The kill control signal input to the demodulator 250 is input to the second selector 292 to clear the demodulation output of the color demodulator 291 so that there is no output of the color difference signals R-Y and B-Y. The frequency characteristics of the video signal received from the astigmatism vary depending on the direction angle of the receiving antenna. Therefore, in the astigmatism zone, this phenomenon is severe, for example, the local component of the received video signal is attenuated, and a high frequency component, i.e., a color signal component of 3.58 MHz appears strongly, and vice versa. I may throw it away.

Although not uniformly important, the distortion of the original signal is severely generated by noise or the like. In this manner, the luminance Y and the color C are separated through the A / D converter 200 and the Y / C separator 210 by the method described above, and the color is burst level detection gain generation circuit 230. Is entered. At this time, if the ACC gain element is obtained according to the value of the control stage CS5, it becomes extremely large or extremely small. In the digital multiplier 280, the generated gain element is compared with a kill maximum KT and a minimum value KB in the first and second comparators COP1 and COP2 to generate a kill signal. When the signal is input to the kill signal control unit KSC through the OR gate OR1, a kill control signal is generated according to the synchronization signal of the vertical synchronization terminal Vsync.

As a result, it is input to the kill control stage 281 of the first and second selectors 208 and 292 of the Y / C separator 210 and the demodulator 250 to clear the luminance output and the output of the color demodulation signal. Therefore, when you see such a screen, the color density changes from time to time and becomes unstable. For this reason, the kill operation generates a kill signal if the ACC gain factor is greater than the maximum reference value of the kill or less than the minimum reference value of the kill. In addition, it is necessary to control the kill signal for each frame or field so that the kill does not occur or disappear. If the video is not received (no reception channel), the video when no video is received, the noise appears, the brightness (Y) through the A / D converter 200 and the Y / C separator 210 as described above ) And the collar C are separated.

When the ACC screen gain element becomes unstable in the burst level detection gain generation circuit 230, the color signal is generated.

When the gain element is input to the kill generator 280 and compared to the first and second comparators COP1 and COP2, the kill signal is generated by the kill signal controller KSC through the ora gate OR1 when the gain factor is out of the determination range. . The kill signal clears the color under the control of the first and second selectors 208 and 209 of the Y / C separator 210 and the demodulator 250.

As described above, if the ACC gain factor is extremely large or extremely small, color kill is required and the color demodulation output is received. In the case of black and white broadcasting, the original signal is luminance, so the Y / C separation is not prevented, and the input video signal is directly There is an advantage to increase the degree of output.

Claims (5)

In the automatic color kill circuit of a digital color television receiver, an A / D converter 200 for converting an analog composite video signal input to the input terminal 11 into digital data, and an output terminal 221 of the A / D converter 200. Y / C which separates the digitized video signal into luminance (Y) and color (C) by Y / C separation control signal of control stage CS4 and outputs only luminance when there is a kill control. A burst level which generates a burst level value as a gain element by a burst section and a gain control signal input to the control unit CS5 by receiving the color (C) output signal of the separator 210 and the Y / C separator 210. By comparing the output of the sensing gain generating circuit 230 and the burst output sensing gain generating circuit 230 with the values input to the maximum and minimum kill reference stages (KT, KB), the vertical synchronizing signal stage (Vsync0 is vertically synchronized). Generate a kill control signal according to the signal to kill the Y / C separator 210 A digital multiplier that multiplies the color (C) signal of the Y / C separator 210 according to the kill element 280 input to the tag end 281 and the gain element of the burst level detection gain generation circuit 230. And a color output according to the kill control signal output from the kill generator 280 after demodulating the output signal of the digital multiplayer 220 according to the demodulation reference data input to the control stage CS6. An automatic color kill circuit in a digital television receiver characterized by comprising a demodulator (250) for controlling. The Y / C separator 210 of claim 1, wherein the output terminal 221 of the A / D converter 220 is connected to the input terminal of the Y / C separator 207, and at the same time Connected to an input terminal (a), and the luminance output terminal of the Y / C separation unit 207 is configured to be connected to the other input terminal (b) of the first selection unit (208). Kill circuit. The apparatus of claim 1, wherein the demodulator 250 connects the output terminal 289 of the digital multiplier 220 to the input terminal of the color demodulator 291, and the control stage CS6 of the color demodulator 291. And a color signal selected and outputted according to a kill control signal input of the output terminal 281 of the color demodulator 291. The method of claim 1, wherein the kill generator 80 connects the output terminal 240 of the burst level detection gain generation circuit 230 to the input terminals (A, B) of the first and second comparators (COP1, COP2) and Input the kill maximum reference value (KT) to the input terminal (A) of the first comparator (COP1), input the kill minimum reference value (KB) to the input terminal (B) of the second comparator (COP2), the first and second comparators The vertical synchronization signal inputted to the vertical synchronization terminal Vsync by connecting the output terminal of COP1 and COP2 to the input terminal of the ORA gate OR! And connecting the kill signal control unit KSC to the output terminal of the OR gate OR1. And an automatic color kill circuit in a digital television receiver. In the automatic color kill method of a digital color television receiver, a first process of digitizing an image signal input to the color television receiver and separating color and luminance, and automatic color control from the separated color signal of the first process A second process of generating a gain element; a third process of generating a kill signal by a synchronization signal by comparing the gain element of the second process with a maximum and minimum kill reference value; and by the kill signal of the third process; And a fourth process of selecting the luminance signal of the second process and controlling color demodulation.

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