KR950010132Y1 - Anti color spread apparatus in image appliance - Google Patents

Abstract

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Description

Color spread prevention device in video equipment

1 is a block diagram showing a color spreading device of the present invention.

Figure 2a-d is an output waveform diagram of each part of the present invention.

* Explanation of symbols for main parts of the drawings

1: Video signal input terminal 2: Composite synchronous separator

3: vertical synchronous separator 4: bandpass filter

5: Differentiator 7: Monostable Multivibrator

8: delay 9: switch

10: decoder 11,12: hold part

13,14 amplifier 15 encoder

16: adder 17: key input unit

18: Micom 19: Horizontal, vertical position register

20: position controller 21: character data memory

22: D / A converter 100: color signal extraction means

200: white signal generating means 300: OSD signal processing means

400: switching means

The present invention relates to a color spreading prevention device in an image device, and more particularly, to a color spreading prevention device that prevents color spreading around text generated during an on-screen display (OSD) of an image signal, so that a more beautiful screen can be viewed. will be.

Conventional video equipment is not equipped with a color spreading prevention device, such as the present invention, when the on-screen display text on the video signal is displayed around the color of the text spreads due to this very deteriorated image quality, and also to prevent this In this case, but in this case, since the font level is very low, the color appears in the font and the sharpness thereof is lowered.

The present invention is to solve the conventional problems such as color signal extraction means 100, white signal generating means 200, OSD signal processing means 300 and switching between the image signal input terminal and the on-screen display signal output terminal It is an object of the present invention to provide a color spread prevention that can provide a user with a beautiful on-screen display character by preventing the color spread of the OSD character portion by configuring the means 400, the present invention in detail with reference to the accompanying drawings The explanation is as follows.

As shown in FIG. 1, the apparatus for preventing color spreading of the present invention includes color signal extracting means 100 for extracting a color signal from an image signal input to the video signal input terminal 1, and the color signal extracting means 100. Set the white signal generating means 200 for receiving the color signal extracted by the color signal and generating and outputting a color sine wave corresponding to the white signal level of the video signal, and OSD character data to be displayed on the screen according to the OSD key input. OSD signal processing means 300 for converting the OSD text data into an analog signal and outputting it as a control signal for controlling the switching operation of the switching means 400 and the switching operation according to the control signal of the OSD signal processing means 300. And switching means 400 for selectively outputting one of a color sine wave corresponding to a video signal or a white signal level respectively input to the input terminals A and B.

In addition, the color signal extracting means 100 is a composite synchronous separator (2) for separating the synchronous signal in the composite video signal input through the video signal input terminal (1), and the synchronous output from the composite synchronous separator (2) A vertical synchronous separator (3) for separating only the vertical synchronous signal among the signals, a band pass filter (4) for extracting only color components of the composite video signal based on the separated vertical synchronous signal, and the composite synchronous separator (2) A differentiator 5 for differentiating the output image signal, a diode 6 for passing only the positive (+) component of the differential signal output from the differentiator, and a positive pulse output through the diode 6 A monostable multivibrator 7 for outputting a gate pulse having a width suitable for extracting a color reference signal, and a delayer 8 for delaying the output signal of the monostable multivibrator 7 for a predetermined time. The switch 9 determines whether to output the color signal extracted from the bandpass filter 4 according to the delay signal output from the delayer 8, and the color signal output from the bandpass filter 4. And a decoder 10 for separating the color difference signal RY and BY, and the white signal generating means 200 is a color difference signal RY and BY outputted from the decoder 10 of the color signal extracting means 100. ) Hold portions 11 and 12 each holding a predetermined time, amplifiers 13 and 14 amplifying the outputs of the hold portions 11 and 12, and amplifiers 13 and 14, respectively. An encoder 15 for outputting a color sine wave corresponding to the color difference signals RY and BY amplified by the color difference signal, and a predetermined DC power supply V1 and a color in order to increase a predetermined amount of the color sine wave output from the encoder 15. And an adder 16 that sums the sine waves and outputs them to one input terminal B of the switching means 400. The OSD signal The processing means 300 includes a microcomputer 18 for generating text data and horizontal and vertical position data in response to a signal input according to the operation of the key input unit 17, and horizontal and vertical positions output from the microcomputer 18. Horizontal and vertical position registers 19 for storing data, position controllers 20 for generating pulses for controlling display positions of OSD characters in accordance with the horizontal and vertical position data, and output from the microcomputer 18; Character data memory 21 for outputting the character data at an appropriate timing according to the control pulse output from the position controller 20, and digital data output from the character data memory 21 is converted into an analog signal to switch means ( And a D / A converter 22 for outputting the control signal of 400. The above-described reference numeral 23 is an on-screen display signal output terminal.

Referring to the operation effect of the present invention color spread prevention device configured as described above with reference to Figure 2a-d as follows.

First, the composite video signal input through the video signal input terminal 1 is input to one side input terminal A of the switching means 400, the composite synchronous separator 2, and the band pass filter 4. .

Therefore, the composite synchronous separator 2 outputs a synchronous separation signal as shown in FIG. 2B, which is again input to the differentiator 5, the vertical synchronous separator 3, and the position controller 20, respectively.

Accordingly, the differentiator 5 separates the synchronous signal and applies only the positive electrode (+) pulse to the reset terminal RESET of the monostable multivibrator 7 and the hold parts 11 and 12 through the diode 6. Since the hold parts 11 and 12 are reset, the differential synchronization signal input to the monostable multivibrator 7 has a predetermined width while passing through the monostable multivibrator 7, and then the delay unit. Delay for a certain time through (8).

At this time, the delay amount is set to match the position of the color reference signal of the video signal, so that the output pulse of the delay unit 8 as shown in FIG. It operates as a color reference signal gate pulse.

In addition, since the color signal extracted through the band pass filter 4 is outputted to the decoder 10 only by outputting the color reference signal by the role of the gate pulse of the switch 9, the decoder 10 receives the color difference signal from the input color signal. (RY, BY) are separately detected and the angles are inputted to the holding portions 11 and 12 of the white signal generating means 200, so that they are at the same level for a predetermined period of time.

Then, the color difference signal (RY, BY) levels output from the hold sections 11 and 12 are amplified by a certain amount as the ratio of the output level corresponds to the white signal through the respective amplifiers 13 and 14, and the encoder 15 Is applied.

Therefore, since the encoder 15 receives the color difference signals RY and BY, and outputs the corresponding color sine wave to the adder 16, the adder 16 adds the signal with a predetermined DC voltage V1. It is applied to one input terminal (B) of the switching means (400).

Meanwhile, at this time, the predetermined signal input from the key input unit 17 is converted into character data through the microcomputer 18 of the OSD signal processing unit 300 and output together with the position data. In this case, the character data is the character data memory 21. The position data is stored in the horizontal and vertical position registers 19.

In addition, the horizontal and vertical position register 19 inputs the input position data to the position controller 20, so the position controller 20 receives the horizontal and vertical position data and the synchronization signal to determine the character data output timing. A predetermined pulse is output to the character data memory 21.

Therefore, in the character data memory 21, the character data stored therein is input to the D / A converter 22 in accordance with the timing of the character data control signal output from the position controller 20, so that the D / A converter 22 The text data is converted into an analog signal and output as a control signal for controlling the switching operation of the switching means 400.

When the switching control signal is output from the D / A converter 22 of the OSD signal processing means 300 as described above, the switching means 400 is switched according to the switching control signal to be input to one input terminal A. By selectively outputting the color sine wave of the white signal level inputted to the video signal or the other input terminal B, the OSD character data is output in the state in which the OSD text data is superimposed in the video signal as shown in FIG.

That is, in the general video signal section, the switching means 400 switches to terminal A, selects the video signal input from the video signal input terminal 1, outputs it to the on-screen display output terminal 23, and outputs an OSD character. In the section, the switching means 400 is switched to the B terminal to select the color sine wave of the white signal level finally output from the adder 16 of the white signal generating means 200 and output to the on-screen display output terminal 23. will be.

As described above, the switching means 400 outputs a color sine wave of the white signal level in the OSD character portion as superimposed on the video signal and outputs the normal image and the white signal level during the video demodulation operation of the color FM demodulator. The OSD characters indicated by the color sine wave of the can be clearly distinguished and demodulated, thereby preventing the color spread of the OSD characters finally outputted.

As described above, according to the apparatus for preventing color spreading of the present invention, it is possible to prevent the surrounding color of the text from spreading on the on-screen display of an image signal, so that a beautiful on-screen display screen can be viewed.

Claims (3)

(Correction) A video device which superimposes and outputs OSD text data on an input video signal, comprising: color signal extraction means (100) for extracting a color signal from a video signal input to the video signal input terminal (1), and the color signal; Set the white signal generating means 200 for receiving the color signal extracted by the extracting means 100 to generate a color sine wave of the white signal level, and outputting OSD text data to be displayed on the screen according to the input of the OSD key. OSD signal processing means (300) for converting the OSD text data into an analog signal and outputting it as a control signal for controlling the switching operation of the switching means (400), and an image signal input to the video signal input terminal (1). (A), the video signal input to the input terminal (A) or the white signal input to the input terminal (A) by switching according to the control signal of the OSD signal processing means 300 Color spread preventing device according to the imaging device, characterized in that one of the collar is configured as a sine wave of the bell selective switching means 400 for output. (New) The color synchronizing separator (2) according to claim 1, characterized in that the color signal extracting means (100) comprises a compound synchronizing separator (2) for separating a synchronizing signal in a composite video signal input through the image signal input terminal (1); A vertical synchronous separator (3) for separating only the vertical synchronous signal among the synchronous signals output from (2), a band pass filter (4) for extracting only color components of the composite video signal based on the separated vertical synchronous signal, and A differentiator 5 for differentiating the image signal output from the composite synchronous separator 2, a diode 6 for passing only the positive (+) component of the differential signal outputted from the differentiator, and the diode 6 When the output signal of the monostable multivibrator 7 and the monostable multivibrator 7 output a gate pulse having a width suitable for extracting a color reference signal by the positive polarity pulse output through The key is a delay (8), a switch 9 for determining whether to output the color signal extracted from the bandpass filter (4) according to the delay signal output from the delayer (8) and the bandpass filter (4) And a decoder (10) for separating the chrominance signal (RY, BY) components from the color signal output from the < RTI ID = 0.0 >). ≪ / RTI > (New) The method of claim 1, wherein the white signal generating means 200 is a holding unit for holding a color difference signal (RY, BY) output from the decoder 10 of the color signal extraction means 100 for a predetermined time ( 11) 12, amplifiers 13 and 14 for amplifying the outputs of the holding units 11 and 12, and color difference signals RY and BY amplified by the amplifiers 13 and 14, respectively. One side of the switching means 400 by adding the encoder 15 for outputting a color sine wave corresponding to the sum, and a predetermined DC power supply V1 and the color sine wave in order to increase the level of the color sine wave output from the encoder 15 by a predetermined amount. An apparatus for preventing color spreading in an imaging apparatus, characterized by comprising an adder (16) output to an input terminal (B).