KR970004197B1 - Chrominance signal control circuit of video signal - Google Patents

Abstract

A circuit for controlling a color signal of an image signal is disclosed. The circuit comprises a color signal processing unit(10) for receiving an image signal, dividing the received image signal to a color signal and a luminance signal, and providing RGB signals through a matrix; a switching block(20) for switching the RGB signals from the color singal processing unit(10) to provide the switched signal to a CRT; and a switching unit connected between the color signal processing unit(10) and the switching block(20), controlling an on/off operation of the RGB signals according to a control signal provided from a microcomputer(30).

Description

Color signal control circuit of video signal

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to circuits for processing R, G, and B signals of television video signals, and more particularly, to a color signal control circuit for video signals capable of removing part of the R, G, and B signals being processed by remote control. .

In general, a broadcast signal transmitted from a broadcasting station is received by a receiving system built into a television in each home through an antenna, and then separated into a video signal and an audio signal through a signal separation process. The signal is sent to the receiver (CRT) and the speaker, respectively, through a predetermined process for display. Practically, the present invention relates to video signal processing of television broadcast signals which are processed separately in this way.

2 is a block diagram of a conventional video signal control circuit in which a broadcast signal received through an antenna (not shown) is converted into an intermediate frequency (IF) signal through a tuner and then amplified by an IF amplifier to control an input video signal. The configuration diagram is shown.

As shown in the drawing, the conventional video signal control circuit inputs an intermediate frequency amplified video signal through an IF amplifier (not shown), separates the chromaticity signal and the luminance signal, and then R, G, and B signals through a matrix. And a microcomputer 2 for generating a control signal to the color signal processor 1 to adjust the color, brightness, and contrast of the video signal based on an input signal from a tuner, not shown. And a switching unit 3 for synthesizing the R, G and B signals from the color signal processing unit 1 and the on-screen R, G and B signals from the microcomputer and outputting them to the aqueous tube CRT.

Therefore, in the conventional video signal control circuit having such a configuration, the video signal input by amplifying the intermediate frequency by the color hint processing unit 1 is converted into a color signal, that is, an R, G, B signal, and this R, G The B signal is input to the switching 3 and then combined with the on-screen R, G and B signals from the microcomputer 1 and finally output to the CRT. Therefore, the user can view the color image processed by this process through the receiving tube.

SUMMARY OF THE INVENTION An object of the present invention is to provide a color signal control circuit of an image signal capable of expressing various colors by selectively removing R, G, and B signals which are finally processed through a color signal processing unit and output to a water pipe.

In order to achieve the above object, the present invention is a color signal processing unit for generating a R, G, B signal through a matrix after separating the video signal into a chroma signal and a luminance signal, R, input from the color signal processing unit, In the color signal control circuit of an image signal having a switching unit for switching the G, B signals and outputting them on the CRT and a microcomputer for generating respective control signals for color signal processing and providing them to the color signal processing unit and the switching unit, respectively, First switching means for selectively bypassing the R signal component provided from the color signal processing section to the switching section in response to a switching control signal from the micom based on an operation signal; Second switching means for selectively bypassing the G signal component provided from the color signal processing unit to the switching unit in response to a switching control signal from the microcomputer based on a user operation signal; And third switching means for selectively bypassing the B signal component provided from the color signal processing unit to the switching unit in response to a switching control signal from the microcomputer based on a user manipulation signal. It provides a color signal control circuit of the signal.

1 is a block diagram of a color signal control circuit of a video signal according to a preferred embodiment of the present invention.

2 is a block diagram of a typical image signal control circuit according to the prior art.

* Description of the symbols for the main parts of the drawings *

1,10: color signal processing unit 2,20: switching unit

3,30: Microcomputer Q1, Q2, Q3: Transistor

Hereinafter, exemplary embodiments of a color signal control circuit of a video signal according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a color signal control circuit of an image signal according to the present invention.

As shown in the figure, the color signal control circuit of the present invention inputs an intermediate frequency amplified video signal through an IF amplifier, not shown, separated from an audio signal, and separates the chroma signal and the luminance signal, and then R through a matrix. And a color signal processing unit 10 for generating G and B signals, a switching unit 20 for switching the R, G and B signals input from the color signal processing unit 10 and outputting them on a CRT (not shown), The color control signal from the microcomputer 30 is connected between the microcomputer 30 to generate a control signal for the color signal output from the color signal processor 10 by a remote control from the microcomputer 30, and between the color signal processor and the switching unit. The switching means 40 for selectively removing the R, G, and B signals outputted from the color signal processor based on the R signal transmission line, the G signal transmission line, and the B signal transmission line on the output side of the color signal processor 10 Each collector is connected, each base is connected to the output side of the microcomputer 30, and each emitter is composed of three transistors Q1, Q2, Q3 connected to ground.

Next, an operation process of the color signal control circuit of the present invention having the configuration as described above will be described with reference to FIG.

First, when a video signal separated from a broadcast signal received through a television reception system is amplified by a medium frequency through an IF amplifier not shown in FIG. 1 and then input to the color signal processor 10, the color signal processor 10 is inputted. The image signal is separated into a chroma signal and a luminance signal and then output to the switching unit 20 as R, G, and B signals through a matrix.

At this time, when the user performs a remote control by using a remote control device to change the color of the screen displayed on the water pipe, the microcomputer 30 corresponds to the output terminal of the starter based on the remote control signal. To generate a control signal. That is, when the user wants to remove the R signal, the R signal output terminal of the microcomputer 30 becomes the high (H) level and the G and B signal output terminals become the low (L) level based on the remote control signal.

Accordingly, the two transistors Q1 and Q2 having their respective bases connected to the G and B signal output terminals of the microcomputer 30 and each collector connected to the G and B signal transmission lines of the color signal processing unit 1D are turned off. The transistor Q1 whose base is connected to the R signal output terminal and whose collector is connected to the R signal transmission line of the color signal processing section 10 is turned on. As a result, although the G and B signals of the R, G, and B signals transmitted from the color signal processing unit 10 to the switching unit 20 are transmitted as they are, the R signal is passed to the ground through the transistor Q1 which is in the turned on state. Therefore, only the G signal and the B signal are transmitted to the switching unit 20.

As described above, when the G and B signals are to be removed, the microcomputer 30 is remotely controlled to turn on the transistors Q2 and Q3 so that the G and B signals are removed as in the method of removing the R signal described above. Each can be removed.

As described above, according to the present invention, by selectively removing the color signals (R, G, B), for example, by selectively removing the G signal during the broadcast of the soccer game on the grass field, various combinations of black and white and color signals This allows you to enjoy a different image from a typical system.

Claims (2)

The video signal is input and separated into a chroma signal and a luminance signal, and then a color signal processor for generating R, G, and B signals through a matrix, and R, G, B signals input from the color signal processor are switched on the CRT. In a color signal control signal of an image signal having a micom which generates a control unit for outputting the switching unit and the color signal processing and provides the color signal processing unit and the switching unit, respectively, from the micom based on a user operation signal. Second switching means for selectively bypassing the G signal component provided from the color signal processing section to the switching section in response to a switching control signal; And third switching means for selectively bypassing the B signal component provided from the color signal processing unit to the switching unit in response to a switching control signal from the microcomputer based on a user manipulation signal. Color signal control circuit. The color signal control circuit according to claim 1, wherein each switching means comprises a transistor.