KR920007081B1 - Automatic image control circuit in tv - Google Patents

Abstract

A circuit is for producing the excellent image by automatically controlling the distinction and brightness of the television corresponding to the receiving field strength. An output of an AGC voltage amplifier (24) is connected with the tuner (1) and the transistor Q1, Q2 of the gain controller (26). The distinction control signal from a microprocessor (11) is provided to a high pass correcting amplifier (22) and the brightness control signal is provided to a contrast amplifier (23). The microprocessor controls the gain of the high pass correcting amplifier and the contrast amplifier corresponding to the field strength.

Description

TV's automatic image control circuit

1 is a block diagram of an automatic image control TV receiving system according to the present invention.

2 is a configuration diagram of an embodiment of an automatic image control unit according to the present invention.

* Explanation of symbols for main parts of the drawings

20: automatic image control unit 21: luminance signal filter

22: high frequency compensation amplifier 23: contrast amplifier

24: automatic gain control voltage amplifier 25: buffer amplifier

26: gain control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic video control circuit for a television, and more particularly, to an automatic video control circuit for a television that is suitable for reproducing a good video signal at all times corresponding to a received electric field strength of a broadcast signal.

In general, in TV reception, when the received electric field strength is low or the signal-to-noise ratio of the received signal is bad, the image quality is greatly degraded at high sharpness or high contrast, and noise is severe.

However, the conventional TV receiving system adjusts the gain of the tuner as an automatic gain control (AGC) voltage, so that a constant image output is obtained regardless of the signal strength. there was.

In view of the above problems, the present invention uses the automatic gain control (AGC) voltage of the TV to adjust the amount of high-frequency components and contour correction using luminance signal components, and controls the contrast amplification gain of the image to reproduce high quality images. The invention of the TV automatic image control circuit, which will be described in detail with reference to the accompanying drawings as follows.

1 is a block diagram of a TV receiving system having an automatic image control signal according to the present invention. As shown in FIG. 1, a tuner 1 receiving a broadcast signal through an antenna 12 according to a tuning control of a microcomputer 11 is shown. The output is applied to the intermediate frequency filter 3 through the preamplifier 2, and the audio output detected by the intermediate frequency filter 3 is output to the audio processing unit 10, and the image output is the image intermediate frequency amplification and detection. The image signal applied to the unit 4, and the image signal detected by the image intermediate frequency amplification unit 4 is passed through the chroma signal band pass filter 5 and then through the chroma signal amplifying unit 6 to perform the color demodulator 7. And the output of the color demodulator 7 to the color brown tube 9 through the power amplifier 8, and outputs the image signal detected by the image intermediate frequency amplification and detector 14 to the automatic image control unit. After passing through the luminance signal filter 21 of 21, the high-frequency correction amplifier 22 is passed again. The solution is applied to the contrast amplifier 23, the image intermediate frequency amplifier and the image signal output of the detector 14 are applied to an automatic gain control (AGC) amplifier 24, and the output of the automatic gain control amplifier 24. Is output as a tuning gain control signal (G) of the tuner (1) and is applied to the gain control unit (26) through the buffer amplifier (25), and the gain control unit (26) under the control of the microcomputer (11). According to the output of the buffer amplifier 25 is applied to the gain control signal of the chroma signal amplifier 6, the high pass compensation amplifier 22 and the contrast amplifier 23, the contrast of the automatic image controller 20 The output of the amplifier 23 was configured to apply to the color demodulator 7 and the power amplifier 8.

2 is an exemplary configuration diagram of an automatic image controller according to the present invention. As shown in FIG. 2, a luminance signal filter 21 for performing luminance signal filtering on an image intermediate frequency amplifier and an image signal output from the detector 4 is shown. After applying the high frequency correction amplifier 22 for the high frequency correction and contour correction of the luminance signal through the contrast amplifier 23 again, the automatic control of the image signal output of the image intermediate frequency amplification and detector 4 ( AGC) is applied to the voltage amplifier 24, the output of the automatic gain control voltage amplifier 24 is output as the tuning gain control signal of the tuner 1, and input to the buffer amplifier 25, and the buffer amplifier. The output of 25 is applied to the bases of the transistors Q1 and Q2 of the gain control unit 26 through resistors R8 and R10 and R7 and R9, respectively, and the gain control signal of the microcomputer 11 is applied. Through the digital-to-analog converters (D / A1) and (D / A2), then the resistors (R2) and (R1) In addition to the gain control terminal (C1), (C2) of the high frequency compensation amplifier 22 and the contrast amplifier (23) through the resistors (R4, R6, (R3, R5) again through the transistor ( Q1) and (Q2) were applied to the collector.

Referring to the operation and effects of the present invention configured as described above are as follows.

First, in accordance with the international language of the microcomputer 11, the broadcast signal received from the antenna 12 is amplified and frequency-converted by the tuner 1, and then input to the intermediate frequency (IF) filter 3 through the preamplifier 2. do. The intermediate frequency filter 3 obtains and outputs the required intermediate frequency band characteristics, and the audio processing unit 10 detects and amplifies the audio intermediate frequency, and the image intermediate frequency amplifier and the detection unit 4 process the intermediate frequency to the required size. After the amplification, the video signal is detected, and the detected video signal is applied to the chroma signal amplification unit 6 through a band pass filter 5 through which only the chroma signal band passes. In addition, the luminance signal filter 21 filters only the luminance signal components. Then, the high frequency correction amplifier 22 is applied, and the detected video signal is output to the automatic gain control (AGC) voltage amplifier 24. The luminance signal applied to the high frequency compensation amplifier 22 includes important information of a video signal, and is usually a 0-4.2 MHz frequency component, and the high frequency correction amplifier 22 greatly influences the high frequency correction of the luminance component and the sharpness of the final image. The output obtained by correcting the contour portion of the boundary portion to be obtained is input to the contrast amplifier 23. This contrast amplifier 23 amplifies to the size necessary to drive the color demodulator 7 and the power amplifier 8. In addition, the color demodulator 7 has a chromaticity signal and a luminance signal which are outputs of the chroma signal amplifier 6 and the contrast amplifier 23 and outputs three color difference signals RY, GY, and BY. Obtained by the demodulation output and supplied to the power amplifier 8, the luminance signal (typically -Y) which is the output of the color difference signals RY, GY, BY and the contrast amplifier 23 in this power amplifier 8; Signals) are added to each other, amplified, and then output to the color-brown tube 9. At this time, the power amplifier 8 supplies the luminance signal (-Y) in common to the different color difference signals (R-Y), (G-Y), and (B-Y).

In addition, the output of the image intermediate frequency amplification and detection unit 4 is supplied to an automatic gain control (AGC) voltage amplifier 24 to produce a DC output voltage inversely proportional to the magnitude of the input image detection signal, so that the buffer amplifier 25 and the It is applied to the high frequency automatic gain control AGC voltage terminal G of the tuner 1. Here, the tuner 1 is an automatic gain control AGC. When the voltage supplied to the gain control terminal G increases, the gain of the internal amplifier of the tuner 1 increases, and is supplied to the gain control terminal G. As the voltage decreases, the internal amplifier gain of the tuner 1 decreases.

Therefore, when the received electric field strength of the tuner 1 becomes weak, the output voltage of the automatic gain control voltage amplifier 24 becomes large. Therefore, the gain of the internal amplifier of the tuner 1 is made larger than before. You get an intermediate frequency output signal. In general, if the automatic gain control voltage is detected in inverse proportion to the reception electric field, and the tuning gain of the tuner 1 is controlled, if the reception electric field is changed with the contrast, sharpness, etc. arbitrarily adjusted, and the tuning gain is changed, the image length becomes large. The problem of deterioration occurs.

Accordingly, in the present invention, the output of the automatic gain control voltage amplifier 24 is buffered and amplified through the buffer amplifier 25 to gain control of the high pass compensation amplifier 22 and the contrast amplifier 23 through the gain control unit 26. Gain control of the color signal amplifier 6 is performed. That is, when the received electric field strength of the tuner 1 is weakened, the automatic gain control voltage amplifier 24 outputs the increased automatic gain control voltage, which is a signal of a DC level inversely proportional to the magnitude of the detected image signal, to the tuner 1. By increasing the tuning gain, the noise component increases in the luminance component of the image detection output. At this time, the buffer amplifier is amplified through the buffer amplifier 24, and after adjusting the DC level, the gain control unit 26 controls the gain control voltage of the high frequency compensation amplifier 22 and the contrast amplifier 23 in the luminance signal system to decrease the weak signal. It is possible to reproduce an image of better quality. In addition, when the received electric field strength of the tuner 1 is a strong signal, the output of the automatic gain control voltage amplifier 24 is lower than that of the weak signal. Accordingly, the gain of the tuner 1 is also lower than that of the weak signal. In addition to obtaining the output, the gain control unit 26 controls the gain control voltage of the high frequency compensation amplifier 22 and the contrast amplifier 23 through the buffer amplifier 25 and increases the gain control voltage. As such, when the weak signal is reduced, the luminance high frequency component of the video signal is slightly attenuated, and the contrast is set a little low to greatly reduce the image annoyance caused by the noise component, and in the case of a strong signal, the image can be reproduced in a predetermined normal state. have.

2 is an embodiment according to the present invention, the output of the automatic gain control voltage amplifier 24 inversely proportional to the receiving electric field is applied to the gain control unit 26 after the buffer amplifier 25, the automatic gain control voltage during the weak electric field Since the output of the buffer amplifier 25 is increased to increase the base bias of the transistors Q1 and Q2, the digital / analog converters D / A1 and D / A2 from the microcomputer 11 are increased. After each through, the magnitude of the sharpness and contrast adjustment gain control signals of the microcomputer 11 applied as the gain control signals of the high pass compensation amplifier 22 and the contrast amplifier 23 are reduced. That is, when the user sets the clarity and contrast to the arbitrary size through the microcomputer 11, the microcomputer 11 through the digital-to-analog converter (D / A1), (D / A2), respectively, the high pass compensation amplifier 22 And the gain control signals C1 and C2 of the contrast amplifier 23 are set to a constant size. At this time, the output of the buffer amplifier 25 is determined according to the received electric field strength. In the weak electric field, since the output of the buffer amplifier 25 is increased, the base bias of the transistors Q1 and Q2 is increased to increase the high frequency compensation amplifier. (22) and the gain control voltage (C1), (C2) of the contrast amplifier 23 is reduced, and the output of the buffer amplifier 25 is reduced during the strong electric field, so the base of the transistors (Q1), (Q2) The bias is also reduced, and accordingly, the gain control voltages C1 and C2 are increased to the limits set by the microcomputer 11.

As described above, the present invention can automatically adjust the clarity and contrast according to the electric field size of the received signal when setting the clarity and contrast to an arbitrary size, and is generated by increasing the tuning gain when the weak field is received. By reducing the high noise component and lowering the relative contrast, a better image can be automatically reproduced.

1. In a TV receiving system, the gain control of the high frequency compensation amplifier 22 and the contrast amplifier 23 is performed according to the received electric field strength by using the output of the automatic gain control voltage amplifier 24 through the automatic image controller 20. An automatic image control circuit of a television, characterized in that it controls the amount of high pass correction and contour correction by luminance signal components and adjusts the contrast of the image.

2. The method of claim 1, wherein the output of the automatic gain control (AGC) voltage amplifier 24 inversely proportional to the received electric field is applied to the gain control (G) voltage of the tuner 1, and also through the buffer amplifier 25. Then, the gain control unit 26 applies the base biases of the transistors Q1 and Q2, and controls the brightness and contrast control signals of the microcomputer 11 through the digital analog converters D / A1 and D / A2, respectively. Is applied to the gain control voltages C1 and C2 of the high pass compensation amplifier 22 and the contrast amplifier 23, and to the collectors of the transistors Q1 and Q2, respectively, in proportion to the received electric field. An automatic image control circuit for a television, characterized in that the automatic image control unit (20) is configured to control the gain of the high pass compensation amplifier (22) and the contrast amplifier (23).

Claims (2)

In the TV receiving system, the luminance signal is controlled by the gain control of the high frequency compensation amplifier 22 and the contrast amplifier 23 according to the received electric field strength using the output of the automatic gain control voltage amplifier 24 through the automatic image control unit 20. The automatic image control circuit of the TV, characterized in that to adjust the amount of high-pass correction and contour correction by the component and to adjust the contrast of the image. The method of claim 1, wherein the output of the automatic gain control (AGC) voltage amplifier 24 inversely proportional to the reception electric field is applied to the gain control (G) voltage of the tuner 1, and the post gain through the buffer amplifier 25 is applied. The control unit 26 applies the base bias of the transistors Q1 and Q2, and controls the sharpness and contrast control signals of the microcomputer 11 through the digital analog converters D / A1 and D / A2, respectively. It is applied to the gain control voltages C1 and C2 of the correction amplifier 22 and the contrast amplifier 23, and to the collectors of the transistors Q1 and Q2, respectively, so as to be proportional to the high frequency compensation. An automatic image control circuit for a television, characterized in that the automatic image control unit (20) is configured to control gains of the amplifier (22) and the contrast amplifier (23).

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