KR0178183B1 - Operation control method for clamp signal generation - Google Patents

Abstract

The present invention relates to a method for controlling a clamp signal generation operation, and in the related art, a separate circuit for generating a clamp signal had to be configured. The present invention generates and outputs a clamp signal to a video amplifier processing a video signal by a horizontal synchronization signal transmitted from a personal computer, thereby simplifying the overall configuration and supplying a stable clamp signal to the video amplifier. It has an effect.

Description

How to control clamp signal generation

1 is a circuit diagram for realizing the present invention.

2 is a flowchart showing an operating state of a microcontroller unit for controlling the operation of the present invention.

3 is a circuit diagram of a conventional invention.

4 is a time chart according to the operation of the prior art.

* Explanation of symbols for main parts of the drawings

12: Micro Controller Unit

14: Video AMP

16: vertical / horizontal deflection yoke 18: CRT (Cathode Ray Tube)

20: vertical / horizontal synchronization signal generation circuit 22: vertical / horizontal deflection circuit

24: Fly Back Trans

The present invention relates to a method of controlling a clamp signal generation operation of a monitor. Specifically, a clamp signal generation for generating and supplying a clamp signal supplied to a video amplifier by a horizontal synchronizing signal without providing a separate circuit. It relates to an operation control method.

In general, a monitor displaying a video signal transmitted from a personal computer on a CRT is a microcontroller unit that controls the overall operation of the monitor because the personal computer transmits a video signal and a synchronization signal having different frequencies and levels depending on the video card. The video signal is controlled to be displayed on the CRT according to the synchronization signal transmitted from the personal computer.

That is, the personal computer selects a video mode for processing this according to the video card and applies a corresponding vertical / horizontal sync signal to the monitor together with the video signal.

Here, the vertical / horizontal synchronization signal is applied to the microcontroller unit of the monitor, and the video signal (R.G.B signal) is applied to the video amplifier.

The microcontroller unit which receives the synchronization signal transmitted from the personal computer determines the video mode of the personal computer processing the video signal transmitted from the personal computer by the frequency of the vertical / horizontal synchronization signal, and at the synchronization signal output unit Their operation is controlled to generate a synchronization signal.

Therefore, even if the personal computer processes the video signal with the synchronization signal of different frequency according to the characteristics of the video card, the monitor generates the clamp signal based on the corresponding synchronization signal and processes the video signal. It can be displayed.

Here, the clamp signal is a signal for setting a reference level which is a reference when the vertical / horizontal sync signal is converted from the video signal to the video signal while the video signal is being processed. The clamp signal is clamped before the sync signal is output and the video signal is applied to the video amplifier. The clamp signal generated by the signal generating circuit is supplied to the video amplifier.

As described above, the circuit for generating the clamp signal supplied to the video AMP is an exclusive oragate for the horizontal sync signal Hsync supplied from the personal computer as shown in FIG. It is applied to (G ₁ ; Exclusive OR Gate) and the input terminal of the Exclusive OR Gate (G ₂ ), respectively, and the input terminal of the Exclusive OR Gate (G ₂ ) has a predetermined level (has a high level). the application of a voltage and having the extreme Iowa Black sieve gate (G ₂₎ is applied to the output via a resistor (R1) and a capacitor (C ₁₎ to the other input terminal of the Exclusive Iowa Black sieve gate (G ₁₎ of the.

In addition, the output of the exclusive oar gate G ₁ is applied to the video amplifier 14 through a differential circuit and a rectifying circuit composed of a capacitor C ₂ , a resistor R ₂ , and a diode D.

That is, in the related art, when the horizontal synchronization signal Hsync transmitted from the personal computer is applied to the input terminals of the exclusive or gate G ₁ and the exclusive or gate G ₂ , respectively, as _{shown in} FIG. The exclusive oar gate G ₂ outputs the waveform as shown in FIG. 4A by inverting the horizontal synchronization signal Hsync and the reference voltage Vcc inputted with the waveform as shown in FIG. 4A. It is integrated with the resistor R ₁ and the capacitor C ₁ and applied to the other input terminal of the exclusive OR gate G1 ₁ at a low level.

As a result, a waveform such as (c) of FIG. 4 is output from the output terminal of the exclusive oar gate G ₁ , and a differential circuit including the capacitor C ₂ and the resistor R ₂ is output as shown in FIG. Are converted into waveforms.

Subsequently, the waveform converted as shown in (d) of FIG. 4 is rectified by the diode D and finally applied to the video processing amplifier 14 as a clamp waveform of the form as shown in FIG.

Further, conventionally, when the input is a synchronous signal inversion as shown in the fourth degree (b), so applied as one of the input terminals of the Exclusive croissant sheave Iowa gate (G ₁₎ still remains low extreme croissant sheave Iowa gate (G ₁₎ As described above, the output of is outputted in the waveform as shown in FIG.

The following process is the same as described above, and thus will be omitted.

Therefore, the video amplifier 14 processes the video signal transmitted from the personal computer based on the clamp signal generated as described above and sets it as the reference level when displaying on the CRT.

However, as described above, in order to supply a clamp signal to the video amplifier, there is a drawback that a separate circuit must be configured.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned drawbacks, and is a microcontroller unit that controls the overall operation of the monitor to display a video signal on a CRT by a vertical / horizontal sync signal applied from a personal computer. It is an object of the present invention to provide a clamp signal generation operation control method in which (Micro Controller Uint) generates a glamp signal by a horizontal sync signal (Hsync) and supplies it to a video amplifier (Nideo AMP).

The present invention for achieving the above object is a clamp signal generation operation control method for generating a clamp signal to the horizontal synchronizing signal, the polarity of the horizontal synchronizing signal is determined, and as a result, if the polarity is changed from high level to low level After the clamp signal is output for a predetermined time, and if the negative polarity is configured to output the clamp signal for a predetermined time after switching from the low level to the high level.

That is, the present invention allows the microcontroller unit that controls the operation of the monitor to generate the clamp signal by supplying the clamp signal to the video amplifier by detecting the polarity and rising or falling edge of the horizontal synchronization signal without a separate circuit configuration for generating the clamp signal. It is characterized by.

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

According to the present invention, as shown in FIG. 1, the microcontroller unit 12 controls the overall operation of the monitor and generates a clamp signal by the horizontal synchronizing signal, and the video signal is controlled by the microcontroller unit 12. A video amplifier 14 that processes and outputs an RGB signal to the CRT 18, a CRT 18 that displays a video signal applied from the video amplifier 14, and the microcontroller unit 1 unit. Vertical / horizontal synchronization signal generation circuit 20 for oscillating the vertical / horizontal synchronization signal Hsync (Vsync) by the horizontal synchronization signal Hsync through the vertical / horizontal synchronization signal generation circuit 20. A high voltage is generated by the vertical / horizontal deflection circuit 22 which controls the vertical / horizontal deflection current flowing through the vertical / horizontal deflection yoke 16 by the synchronization signal and the horizontal synchronization signal of the vertical / horizontal deflection signal generating circuit 20. Is generated and output to CRT (18) It is composed of a flyback transformer (24).

2 is a flowchart according to the present invention, which shows the operation state of the microcontroller unit 12 which outputs the clamp signal by the horizontal synchronizing signal transmitted from the personal computer.

The effect of this invention comprised in this way is demonstrated.

In the present invention, when the vertical synchronizing signal and the horizontal synchronizing signal transmitted from the personal computer are transmitted to the microcontroller unit 12, the video amplifier 14 processes the video signal (RGB signal) and displays it on the CRT 18, The vertical / horizontal synchronization signal generation circuit 20 outputs the vertical / horizontal synchronization signal by the vertical / horizontal synchronization signal of the microcontroller unit 12.

Accordingly, since the vertical / horizontal deflection circuit 22 adjusts the current flowing through the vertical / horizontal deflection yoke 16, the video signal processed by the video amplifier 14 and displayed on the CRT 18 moves up, down, left, and right. It is to form a screen.

At this time, the microcontroller unit 12 generates a clamp signal which becomes a reference level when processing the video signal, and supplies the clamp signal to the video amplifier 14.

First, the microcontroller unit 12 determines whether the polarity of the horizontal synchronization signal transmitted from the personal computer is positive polarity or reverse polarity.

As a result of the determination, in the case of the positive polarity, it is determined whether a rising edge portion of the transmitted horizontal synchronization signal is input. Subsequently, when the rising edge portion of the horizontal synchronizing signal is input, it is again determined whether the level of the horizontal synchronizing signal is switched from the high level to the low level, and the level is switched. Output After a predetermined time (where a predetermined time is a time for maintaining the duty of the clamp signal in the video amplifier), the output of the clamp output terminal of the microcontroller unit 12 is switched to a low level, and the horizontal synchronization signal The clamp signal is generated and supplied to the video amplifier 14 while repeatedly detecting whether the rising edge is input.

On the other hand, when the polarity of the horizontal synchronization signal is reverse polarity, it is determined whether the falling edge portion of the transmitted horizontal synchronization signal is input. When the falling edge portion of the horizontal synchronizing signal is input, it is again determined whether the level of the horizontal synchronizing signal is switched from the low level to the high level, and the level is switched and at the same time, the high level is output to the clamp output terminal of the microcontroller unit 12. . After a predetermined time, the output of the clamp output terminal of the microcontroller unit 12 is switched to the low level, and the clamp signal is generated and supplied to the video amplifier 14 while repeatedly detecting whether the falling edge of the horizontal synchronization signal is input again. do.

That is, the clamp signal can be generated and supplied to the video amplifier according to the polarity of the horizontal synchronization signal transmitted from the personal computer and the rising / falling edge and the level change of the horizontal synchronization signal.

As described above, the present invention generates and outputs a clamp signal to a video amplifier processing a video signal by a horizontal synchronization signal transmitted from a personal computer, thereby simplifying the overall configuration and of course providing a stable clamp signal to the video amplifier. There is an effect that can be supplied to.

Claims (1)

In the microcontroller unit 12 for providing a clamp signal to a video amplifier in a monitor having a video amplifier 14 for processing a video signal (RGB signal) and outputting a CRT 18 by an input clamp signal. An operating method comprising: a first step of receiving a horizontal synchronization signal and determining a corresponding polarity thereof; A second step of outputting a clamp signal for a predetermined time after switching from the high level to the low level if it is determined that the horizontal synchronization signal is bipolar in the first step; And a third step of outputting a clamp signal for a predetermined time after switching from the low level to the high level if it is determined that the horizontal synchronizing signal is negative in the first step.