KR890004326B1 - Devices for processing colour signals - Google Patents

Abstract

The processor is to simplify the circuit constitution and to stabilize a device against the variances of temperature and element capacity. The chrominance signal input from a terminal (11) is converted to digital signal by an A/D converter (12) and is sent to a digital signal processor (13) and a level comparator (10) consisting of a synchronous detecting circuit (16), a D/A converter (17), an low pass filter (18), and a level comparator (19). The amplitude of a burst signal obtained by detection of the circuit (16) is converted to an analog signal by the converter (17) and passes the filter (18).

Description

Color signal processing device

1 is a block diagram showing an embodiment of a conventional killer circuit.

2 is a block diagram showing the configuration of an embodiment of the present invention.

3 is a block diagram showing the configuration of another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

12: A / D converter 10: Level comparison

16: synchronous detection circuit 17: D / A converter

26: synchronous detection circuit 27: burst gate, switch

30: To level non-church

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a killer circuit for blocking color signals as a color signal processing apparatus used for video tape recorders or television receivers.

Background Art A public video recorder has conventionally used a method of processing recording and reproduction of a video signal by dividing it into a luminance signal and a color signal. In this case, when the video signal is black and white or the SN ratio is bad, a circuit for blocking a color signal called a killer circuit is used to prevent the output of the color signal circuit from disturbing the reproduction screen. A conventional example will be described below with reference to the drawings.

1 is a block diagram showing the configuration of a conventional killer circuit. In the same figure, the carrier color signal input from the input terminal 1 is sent to the switch circuit 2, and also to the synchronous detection circuit 4. As shown in FIG.

The synchronous detection circuit 4 synchronously detects the burst signal of the input carrier color signal and sends it to the low pass filter 5. As a result, a signal indicating the amplitude of the burst signal is obtained at the output of the low pass filter 5, which is compared with the reference level input from the terminal 7 in the level comparator 6. As shown in FIG. The level comparator 6 cuts off the switch circuit 2 when the burst signal level is lower than the reference level so that the input carrier color signal does not appear on the output terminal 3.

However, since the conventional killer circuit is processed as an analog signal, there is a drawback that a digital signal cannot be applied to an apparatus for processing a color signal.

An object of the present invention is to provide a color signal processing apparatus having a killer circuit that can be used when digitally processing color signals.

The present invention also aims to reduce the circuit size by using only the most significant bit of the output of the synchronous detection circuit.

In the color signal processing apparatus of the present invention, the carrier color signal is an analog / digital (A / D) converter with an A / D converter and a level comparison for comparing the amplitude of the burst signal with the reference level among the outputs of the A / D converter. And a switch circuit for opening and closing the color signal at the output to the level comparator, thereby realizing a killer circuit by digital processing.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described, referring drawings. 2 is a block diagram showing the configuration of an embodiment of the present invention. In the same figure, the carrier color signal input from the input terminal 11 is converted into a digital signal by the A / D converter 12, is sent to the digital signal processing unit 13, and at the same time the synchronous detection circuit 16, D / The A converter 17, the low pass filter 18, and the level comparator 19 are sent to the level comparison circuit 10. The amplitude of the burst signal obtained by the detection in the synchronous detection circuit 16 becomes an analog signal in the D / A converter 17 and is input from the terminal 20 in the level comparator 19 through the low pass filter 18. The switch circuit 14 is cut off when the burst signal level is lower than the reference level.

The carrier color signal processed by the digital signal processor 13 is output to the output terminal 15 through the switch circuit 14 and sent to a circuit mixed with the luminance signal. Therefore, the input carrier color signal does not appear on the output terminal 15 when the burst level is low. The digital signal processing unit 13 is a circuit that processes color signals required by a video tape recorder or a television receiver. In the present embodiment, the switch circuit 14 opens and closes the digital signal processed color signal after A / D conversion in the A / D converter 12. However, when the switch circuit 14 is interrupted, the switch circuit 14 mixes the color signal with the luminance signal. As long as it is a position which is not transmitted, you may be anywhere.

Next, another embodiment of the present invention will be described with reference to the drawings. 3 is a block diagram showing the configuration of another embodiment of the present invention. In the same figure, the carrier color signal input from the input terminal 21 is converted into the digital signal by the A / D converter 22, is sent to the digital signal processing part 23, and is sent to the synchronous detection circuit 26 simultaneously.

As for the amplitude of the burst signal obtained by the detection by the synchronous detection circuit 26, only the most significant bit 1 bit is output, and the low pass filter which consists of a resistor R and a capacitor C through the burst gate switch 27 is carried out. It is input to (29). Since only the burst period is closed by the control signal input from the terminal 28, the burst gate switch 27 can obtain the burst signal level at the output of the low pass filter 29.

The output of the low pass filter 29 is then compared with the reference level input from the terminal 31 in the level comparator 30, and the level comparator 30 switches when the input burst signal level is lower than the reference level. The circuit 24 is cut off. The carrier color signal processed by the digital signal processor 23 is output to the output terminal 25 through the switch circuit 24 and sent to a circuit mixed with the luminance signal. Therefore, the input carrier color signal does not appear on the output terminal 25 when the burst level is low. In addition, the signal processing unit 23 is the same as described in the previous embodiment, and the switch circuit 24 may be placed at any position where the color signal at the time of interruption is not transmitted to the circuit mixed with the luminance signal. . In this embodiment, the output of the synchronous detection circuit can be operated with only one bit. Even when one bit contains noise in the output, the most significant bit repeats the high level and the low level due to the noise, and the probability of becoming high level is further output. This is because the intermediate level can be obtained by the output of the low pass filter 29 even if only the most significant bit passes through the low pass filter. In addition, the killer circuit operates when the SN ratio of the signal is bad. In this case, since the noise level is high, the intermediate level can be obtained on the same principle as described above.

As is apparent from the above description, the present invention can combine the A / D conversion of the carrier color signal and the A / D converter for processing the synchronous detection circuit and the main signal by the digital circuit, and the circuit in the case of digital processing the color signal. There is an effect of simplifying the configuration.

In addition, since the synchronous detection circuit is composed of a digital circuit, the synchronous detection circuit is more stable against temperature changes and device characteristic variations than that of the conventional analog circuit. Also, as in the second embodiment, even if the output of the synchronous detection circuit uses only the most significant bit, the killer operation is possible, and there is an excellent effect that the D / A converter is not necessary.

Claims (3)

An A / D converter 12 and 22 for performing an analog / digital conversion of the carrier color signal, and a level comparison path 10 for comparing the amplitude of the burst signal with a reference level among the output signals of the A / D converter; And a switch circuit (14) and (24) for opening and closing a color signal at an output to the level comparison unit. 2. The level comparator 10 according to claim 1, wherein the level comparator 10 includes a synchronous detection circuit 16 for synchronously detecting the output of the A / D converter 12 and a D / D for digitally / analog changing the output of the synchronous detection circuit. A low pass filter 18 through which the A converter 17, an output of the D / A converter, and an analog level comparator for level comparison of the analog signal obtained at the output of the low pass filter with a reference analog signal. 19. A color signal processing apparatus, comprising: 19; 3. The color signal processing apparatus according to claim 2, wherein the synchronous detection circuit (16) uses only the most significant bit of the output.

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