KR20000003286U - Contrast Compensation Circuit of Multiple Synchronous Monitors - Google Patents

Abstract

The present invention relates to a contrast compensation circuit of a multisync monitor, and more particularly to a contrast compensation circuit for providing a stable image regardless of the frequency change of the multisync monitor.

In the prior art, there is no detection means for detecting the amount of change in contrast according to the frequency change of the multi-synchronous monitor, so that the brightness of the screen changes at the same time as the frequency is changed, thereby providing a stable image to the user.

In order to solve the problems described above, the present invention provides a polarity discrimination circuit which constantly distinguishes and outputs the polarity of the horizontal synchronization signal according to a mode change, and a frequency / voltage for converting the horizontal frequency output from the polarity discrimination circuit into voltage. A converting means and gain control means for adjusting the level of the video signal output from the preamplifier and the grid voltage level according to the magnitude of the voltage output from the frequency / voltage converting means. By setting the level and grid voltage level low and setting the video signal level and grid voltage level high when a low frequency signal is input, it is possible to provide a stable contrast image at all frequencies.

Description

Contrast Compensation Circuit of Multiple Synchronous Monitors

The present invention relates to a contrast compensation circuit of a multisync monitor, and more particularly to a contrast compensation circuit for providing a stable image regardless of the frequency change of the multisync monitor.

As shown in FIG. 1, the contrast control circuit of the conventional multi-synchronous monitor includes a preamplifier 10 for amplifying an input video signal with an amplification set by a variable resistor VR1, and an amplification degree of the preamplifier 10. Contrast variable resistor (VR1) for varying the, the image output unit 20 for amplifying the video signal output from the preamplifier 10 and outputs to the cathode of the CRT (30), and the image output unit 20 And a CRT 30 for displaying a video signal input from the screen.

C1 and C2 are capacitors, D1 is diodes, R1 to R3 are resistors, Q1 is transistors, and OP1 and OP2 are operational amplifiers.

Referring to the operation of the contrast control circuit of the conventional multi-synchronous monitor configured as described above, first, the preamplifier 10 amplifies the input video signal with the amplification set by the variable resistor VR1 and outputs it to the image output unit 20. .

The image output unit 20 amplifies the input video signal and supplies the amplified video signal to the cathode of the CRT 30 so that the image is displayed on the screen of the CRT 30.

At this time, in order to adjust the contrast of the image, the variable resistor VR1 connected to the reference voltage terminal of the preamplifier 10 is varied to change the amplification degree of the preamplifier 10, thereby changing the magnitude of the video signal output. Adjust the contrast.

In the prior art, there is no detection means for detecting the amount of change in contrast according to the frequency change of the multi-synchronous monitor, so that the brightness of the screen changes at the same time as the frequency is changed, thereby providing a stable image to the user.

In order to solve the problems described above, the present invention provides a polarity discrimination circuit which constantly distinguishes and outputs the polarity of the horizontal synchronization signal according to a mode change, and a frequency / voltage for converting the horizontal frequency output from the polarity discrimination circuit into voltage. A converting means and gain control means for adjusting the level of the video signal output from the preamplifier and the grid voltage level according to the magnitude of the voltage output from the frequency / voltage converting means. By setting the level and grid voltage level low and setting the video signal level and grid voltage level high when a low frequency signal is input, it is possible to provide a stable contrast image at all frequencies.

1 is a block diagram of a contrast adjustment circuit of a conventional multi-synchronous monitor

2 is a block diagram of a contrast compensation circuit of the present invention, a multi-synchronous monitor

As shown in FIG. 2, the contrast compensating circuit of the present invention has a preamplifier 10 for amplifying an input video signal under the control of a variable resistor VR1 and a gain control means 60. A contrast variable resistor (VR1) for varying the amplification degree of the preamplifier (10), an image output unit (20) for amplifying the video signal output from the preamplifier (10) and outputting it to the cathode of the CRT (30); In the grid (G1) terminal for adjusting the brightness (brightness) of the image, the polarity discrimination circuit (40) for constantly distinguishing and outputting the polarity of the horizontal synchronization signal according to the mode change, and in the polarity discrimination circuit (40) The frequency and voltage converting means 50 for converting the output horizontal frequency into voltage, and the level and grid of the video signal output from the preamplifier 10 according to the magnitude of the voltage output from the frequency / voltage converting means 50. Adjust the voltage level Consists of gain control means 60,

In this case, the gain control unit 60 inverts and amplifies the voltage input from the frequency / voltage converting unit 50 to invert the amplifier OP3 for controlling the amplification degree of the preamplifier 10 and the inverting amplifier OP3. And a transistor Q2 for controlling the grid G1 voltage of the CRT 30 by switching operation by the output voltage of the CRT.

Unexplained symbols, R1 to R10 are resistors, Q1 is a transistor, OP1 to OP3 are operational amplifiers, C1 to C3 are capacitors, and D1 is a diode.

Referring to the accompanying drawings, the operation of the contrast compensation circuit of the inventive multi-synchronous monitor constructed as described above is as follows.

First, the preamplifier 10 amplifies the input video signal by the amplification set by the variable resistor VR1 and outputs the image signal to the image output unit 20. The image output unit 20 receives the input signal from the preamplifier 10. The video signal is amplified and supplied to the cathode of the CRT 30.

At this time, the polarity discrimination circuit 40 receives the horizontal synchronous signal (H-sync) and outputs it to the frequency / voltage converting means 50. The polarity discrimination circuit 40 polarizes the horizontal synchronous signal due to a mode change. This change always outputs a horizontal synchronization signal with a constant polarity.

The horizontal frequency output from the polarity determining circuit 40 is converted into a voltage in the monostable multivibrator 50, which is a frequency / voltage converting means. At this time, when a high horizontal frequency is input, the output voltage is increased and a low horizontal frequency is input. Output voltage is lowered.

The output voltage is input to the inverting amplifier OP3 through the resistors R5 and R6 and the capacitor C3. The inverting amplifier OP3 outputs a low voltage when a high horizontal frequency is applied and a low horizontal frequency is applied. It is set to output high voltage.

On the other hand, the output terminal of the inverting amplifier OP3 is connected to the reference voltage terminal of the preamplifier 10. When a low voltage is output from the output terminal of the inverting amplifier OP3, the amplification degree of the preamplifier 10 is lowered. The level is also lowered, resulting in a lower contrast of the image.

On the other hand, when a high voltage is output from the output terminal of the inverting amplifier OP3, the amplification degree of the preamplifier 10 is increased, and accordingly, the output level of the video signal is increased, thereby increasing the contrast of the image.

In addition, the voltage output from the inverting amplifier OP3 is input to the base of the transistor Q2. When the low voltage is input to the base, the transistor Q2 is turned on and the voltage of the grid G1 of the CRT 30 is low. When the high voltage is input to the base, the voltage is turned off and the grid G1 voltage of the CRT 30 is increased.

That is, when a high frequency signal is applied, the video gain and grid voltage are set low, and the screen brightness is dark. When a low frequency signal is applied, the video gain and grid voltage is set high, and the screen brightness becomes bright.

Therefore, when a signal having a lower frequency than that of a signal having a high frequency is input, contrast and brightness of an image may be compensated for.

As a result, it is possible to always provide a stable contrast image for all frequencies.

As described above, in the present invention, the gain control means detects the frequency change and adjusts the video signal level and the grid voltage level to the frequency change, so that stable contrast can be maintained at all times. There is an effect that can be improved.

Claims (2)

In the contrast control circuit of a multi-synchronous monitor in which the variable resistor is adjusted to adjust the contrast, A polarity judging circuit which constantly discriminates and outputs the polarity of the horizontal synchronization signal according to a mode change, a frequency / voltage converting means for converting the horizontal frequency output from the polarity judging circuit into a voltage, and the frequency / voltage converting means And a gain control means for adjusting the level of the video signal output from the preamplifier and the grid voltage level in accordance with the magnitude of the output voltage. The CRT of claim 1, wherein the gain control unit comprises an inverting amplifier for variably controlling the amplification degree of the preamplifier by inverting and amplifying the voltage inputted from the frequency / voltage converting unit, and switching by the output voltage of the inverting amplifier. (G1) Contrast compensation circuit of a multi-synchronous monitor characterized in that it comprises a grid voltage control means for controlling the voltage.