KR0136413B1 - Monitor brightness control system on the multi-synchronous display system - Google Patents

Abstract

The present invention relates to a screen brightness control device of a multi-sync display device, wherein the number of horizontal synchronization signals detected by detecting the number of horizontal synchronization signals during one vertical synchronization period by using horizontal and vertical synchronization signals from a synchronization separator. A line number detector for outputting a direct current value proportional to a; and a gain controller for controlling an output of a preamplifier for amplifying an input video signal according to the output of the line number detector; By driving the CRT with an inverse video output, the brightness of the screen can be kept constant for input signals of different video signals, that is, multi-sync, and the screen brightness is automatically detected by automatically controlling the number of lines. Likewise, you do not need to adjust the white balance for each mode. A gain control automatically in accordance with each mode is one to be amplified stably no deterioration of the frequency characteristic according to each mode such that the video signal by the amplification.

Description

Screen brightness control device of multi-sync display device

1 is a block diagram of a conventional multi-sync display apparatus

2 is a block diagram of a screen brightness control device of a multi-sync display device according to the present invention.

3 is a detailed block diagram of the line number detector of FIG.

4 (a)-(e) is a waveform diagram of each part of FIG. 3

* Explanation of symbols for main parts of the drawings

1: preamplifier 2: video amplifier

3: CRT4: Synchronous Separator

5: Mode discrimination unit 6: Deflection unit

7 line number detection unit 8 gain control unit

9: remote control 10: microcomputer

11: adder

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-sync display apparatus, and more particularly, to a screen brightness control apparatus of a multi-sync display apparatus that maintains a constant screen brightness regardless of the number of lines of an input video signal corresponding to each sync. .

In general, the CRT display device is mainly composed of a multi-sync monitor that can respond to various input sources with one monitor, and the frequency and scan players of the input source input to the multi-sync monitor vary, but The video amplifier to be amplified is designed to correspond to one sink, that is, one mode, and is not adapted to change in response to various input sources. That is, as shown in FIG. 1, in the conventional multi-sync display apparatus, the video signal applied to the preamplifier 1 is amplified to 3-5V, and then the video amplifier 2 passes through the variable volume VR1 for contrast adjustment. After inputted to the amplifier, amplified to 90-150V, it is sent to the CRT (3) and finally displayed.

On the other hand, the input video signal is input to the synchronization separating unit 4 and separated into horizontal and vertical synchronization signals (Hsync), (Vsync), and then to the mode discriminating unit (5) and the deflection unit (6).

The mode discriminating unit 5 generates a voltage or switching signal suitable for the deflection frequency of the input video signal and supplies the same to the deflection unit 6, whereby the deflection synchronized with the input video signal is performed.

That is, in the case of the system as shown in FIG. 1, the video amplifier is adapted to only one input signal, that is, one mode, causing unnecessary oscillation when the signal is input in another mode, resulting in unstable frequency characteristics.

On the other hand, the CRT is displayed by the emission of the phosphor of the portion hit by the electron beam hit the phosphor applied on the tube surface, wherein the amount of light emitted is proportional to the speed and amount of the hit the electron beam. That is, the amount of light emission also increases in proportion to the voltage driving the CRT.

In addition, since the brightness detected by a human being is proportional to the number of phosphors emitting per unit area, the brightness per unit area increases in proportion to the scanning player in a CRT driven with the same voltage.

Therefore, in the multi-sync monitor, the brightness is very different between the two signals when the operator inputs a different signal.

Therefore, in the related art, in order to prevent the brightness difference from occurring, in a signal processing circuit that can change the magnitude of the signal input to the video amplifier for the video signal that is different from the scan player in steps corresponding to the scan player, or change the contrast. The contrast is adjusted to the input signal.

However, since the frequency band of the input video signal handled by the CRT display monitor is considerably high, from tens to hundreds of MHz, the magnitude of the signal inputted to the video amplifier directly in the video signal transmission path is gradually changed in response to the scanning player. Inserting a switching circuit such as a signal processing circuit capable of changing contrast results in a deterioration of the frequency characteristics, making it difficult to stably amplify the video signal by unnecessary oscillation, and thus it is impossible to accurately correct the difference in brightness of the input signal.

In addition, the color CRT display monitor should be performed while maintaining the white balance when correcting the change in brightness that occurs when the scanning players are significantly different, but the conventional technique has to adjust the white balance for the input signal one by one, so that the man-hour of adjusting the white balance increases. There was this.

SUMMARY OF THE INVENTION The present invention has been made to solve this problem, and an object of the present invention is to detect the number of lines of an input signal and drive the CRT with a video output inversely proportional to the number of lines detected so that the brightness of the screen is constant for the input signal of the multi-sync. The present invention provides a screen brightness control device for a multi-sync display device.

A feature of the present invention for achieving this object is a preamplifier for amplifying an input video signal to a predetermined level, a synchronous separation unit for displacing horizontal and vertical synchronous signals from the input video signal, and from the synchronous separation unit. A line number detector which detects the number of horizontal synchronization signals during one vertical synchronization period using horizontal and vertical synchronization signals and outputs a DC value proportional to the number of horizontal synchronization signals detected; A gain control for controlling the output of the preamplifier, a video amplifier for driving a CRT in accordance with the output of the gain control, and a deflection for controlling the deflection of the input video signal in accordance with the input of the horizontal and vertical synchronization signals from the synchronous separation section. The screen brightness control device of a multi-sync display device having a portion.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram of a screen brightness control device of a multi-sync display device according to the present invention. In the conventional configuration of FIG. 1, the horizontal and vertical synchronization signals Hsync from the synchronization separator 4, A line number detection unit 7 which detects the number of horizontal synchronization signals during one vertical synchronization period and outputs a DC value proportional to the number of horizontal synchronization signals detected, A gain control unit 8 for controlling the output of the preamplifier 1 according to the output, a user control remote control 9, a microcomputer 10 for detecting an input of the remote control 9 and outputting a user adjustment data value; An adder 11 which adds the user adjustment data value of the microcomputer 10 and the output of the line number detector 7 and outputs it to the gain controller 8 is further provided. Use

As shown in FIG. 3, the line number detecting unit 7 matches the period of the horizontal synchronizing signal Hsync input from the synchronizing separator 4 and is equal to the width of the horizontal synchronizing signal Hsync. From the pulse generator 7a for generating a pulse train having a different series of pulse widths, the sample and hold unit 7b for sample and hold the output of the pulse generator 7a, and the synchronization separator 4 The buffer 7c buffering the input vertical synchronization signal Vsync and the output of the sample and hold unit 7b to maintain the output of the vertical synchronization signal Vsync through the buffer 7c. The peak value of the output of the sample-and-hold unit 7b outputting the value of the unit 7b and the output of the sample-and-hold unit 7b according to the output of the output-control unit 7d of the sample-and-hold unit is detected and corresponding thereto. Peak hold portion 7e for outputting a DC value, and sample and hold portion 7b And an output control section 7f of the peak hold section for maintaining an output for one vertical synchronous period and outputting a value to be output by the peak hold section 7e upon completion of the one vertical synchronous period. The output control part 7f of 7d) and the peak hold part are comprised by the capacitor | condenser C1 and C2, respectively.

In the present invention configured as described above, the input video signal is amplified to a predetermined level through the preamplifier 1, and the horizontal and vertical synchronization signals (Hsync), (Vsync) are separated by the synchronization separator (4).

The horizontal and vertical synchronization signals Hsync and Vsync are input to the line number detection unit 7 to detect the number of horizontal synchronization signals Hsync during one vertical synchronization period, that is, the scan player during one vertical synchronization period. As a result, the DC value is output.

That is, the line number detection unit 7 is a series of lines coinciding with the period of the horizontal synchronization signal Hsync input from the pulse generator 7a as shown in FIG. 4A, and different from the pulse width of the horizontal synchronization signal Hsync. Generates a pulse train having a pulse width of (Fig. 4 (b), which is input to the sample and hold portion 7b to sample and hold, and the output of the sample and hold portion 7b continues to the capacitor C1. Is charged.

On the other hand, when the vertical synchronization signal Vsync as shown in FIG. 4 (C) from the synchronization separator 4 is output through the buffer 7c of the line number detection unit 7, the capacitor C1 discharges. As a result, the number of lines of the horizontal synchronization signal during one vertical synchronization period is output as shown in FIG.

The output of the sample and hold portion 7b according to the discharge of the capacitor C1 is input to the peak hold portion 7e so that a peak value of the output of the sample and hold portion 7b is detected to correspond to the detected value. The value P1 is to be outputted (Fig. 4 (E), where the output of the sample and hold section 7b will be the number of horizontal synchronization signals during one vertical synchronization period, so that the horizontal synchronization signal during one vertical synchronization period). If the number of times is large, the output value of the peak hold part 7e will be large, for example, if there is a mode in which one screen consists of 256 lines and a screen in which one screen consists of 512 lines, one vertical of the mode consisting of 512 lines Since the number of horizontal synchronization signals during the synchronous period is larger than the mode consisting of 256 lines, the output value of the peak hold section 7e will be larger than that of the mode consisting of 512 lines.

The peak hold section 7e is controlled by the condenser C2, and the condenser C2 holds the output of the sample and hold section 7b, i.e., the horizontal synchronization signal, one by one. When all of the horizontal synchronization signals during the period are inputted to the peak hold section 7e, the output of the peak hold section 7e is controlled so that the peak hold section 7e outputs the peak value among them.

On the other hand, the output of the peak hold portion 7e, that is, the output of the line number detector 7 is input to the gain controller 8, and the gain controller 8 is a preamplifier in accordance with the output of the line number detector 7. The output of (1) is controlled so that the CRT 3 is driven at the level of the video signal corresponding to the number of input video lines.

In this case, in the case of a video signal having a small number of lines, the brightness per unit area of the screen will decrease, so that the gain control unit 8 controls the brightness by changing the amplification degree of the video amplifier 2 in inverse proportion to the number of lines.

That is, in the present invention, since the number of horizontal synchronous signals during one vertical synchronous period is the same as the number of lines of video signals, the line number detector 7 outputs a DC value corresponding to the number of horizontal synchronous signals during one vertical synchronous period. By adjusting the output of the preamplifier 1 in the gain control section 8 according to the value, screen brightness control according to each mode is achieved.

On the other hand, when the user wants to adjust the brightness according to the input video signal from the outside, the microcomputer 10 recognizes this by inputting the screen brightness adjusting key using the remote controller 9 or the key input unit of the set, and the user inputs the user adjustment data value. Output to the adder 11.

Therefore, the adder 11 adds the output of the line number detection unit 7 and the user adjustment data value from the microcomputer 10 and outputs it to the gain control unit 8, whereby the gain control unit 8 is applied to the input signal. Accordingly, the brightness of the screen is controlled by controlling the output of the preamplifier 1.

On the other hand, the operation of the mode discriminating section 5 and the deflecting section 6 is the same as in the prior art, and thus the description thereof is omitted.

As described above, the present invention detects the number of lines of the input video signal and drives the CRT with a video output inversely proportional to the number of lines. Therefore, the brightness of the screen is kept constant with respect to an input signal having a different number of video signals. It becomes possible.

In addition, it automatically detects the number of lines and automatically controls the screen brightness.Therefore, there is no need to adjust the white balance according to each mode as in the prior art, and the gain control according to the number of lines detects the video signal automatically according to each mode. As a result, it is possible to stably amplify without deterioration of the frequency characteristics of each mode.

Claims (5)

A preamplifier for amplifying the input video signal to a predetermined level; A synchronization separator for separating horizontal and vertical synchronization signals from an input video signal; A line number detector for detecting the number of horizontal synchronizing signals during one vertical synchronizing period using the horizontal and vertical synchronizing signals from the synchronizing separator and outputting a DC value proportional to the number of detected horizontal synchronizing signals; A gain controller which controls the output of the preamplifier according to the output of the line number detector; A video amplifier for driving a CRT according to the output of the gain control unit; And a deflection unit for controlling deflection of an input video signal according to the input of the horizontal and vertical synchronization signals from the synchronization separation unit. The method of claim 1, The line number detector comprises a pulse generator for generating a pulse train having a pulse width coinciding with a period of the horizontal synchronization signal input from the synchronization separator and having a width different from that of the horizontal synchronization signal; A sample and hold unit which samples and holds the output of the pulse generator; A buffer for buffering the vertical synchronization signal input from the synchronization separator; An output control unit for controlling the output of the sample and hold unit; A peak hold part which detects a peak value in the output of the sample and hold part according to the output control of the output control part of the sample and hold part and outputs a DC value corresponding thereto; And an output control part of the peak hold part which controls the output of the peak hold part. The method of claim 2, And an output control unit of the sample and hold unit comprises a condenser configured to output a value of the sample and hold unit by the output of the buffer. The method of claim 2, The output control unit of the peak hold unit is configured to maintain the output of the sample and hold unit for one vertical synchronous period, the capacitor is configured to output the value of the peak hold unit when one vertical synchronous period is completed, the screen brightness of the multi-sync display device Control unit. The method of claim 1, When the user wants to adjust the screen brightness from the outside, an adder for adding the user adjustment data according to the user's screen brightness adjustment key input and the output of the line number detector is further configured between the line number detector and the gain controller. Screen brightness control device of multi-sync display device.