KR19990053558A - Device for generating sync signal from video signal without sync signal - Google Patents

Abstract

The present invention relates to an apparatus for generating a synchronous signal from a video signal without a synchronous signal, and to an apparatus for generating and outputting a synchronous signal from a video signal input without a synchronous signal. According to an embodiment of the present invention, after a video signal without a synchronization signal output from an image signal input unit is digitally converted, a detection signal in which signals corresponding to all black levels are detected by a level detection unit is applied to a duration determination unit. The controller generates an output waveform corresponding to the detected waveform only when the detection waveform is in the duration range of the horizontal synchronization signal and the vertical synchronization signal, and applies it to the microcomputer. The microcomputer counts the frequency of the output waveform and checks the periodicity. When it is determined, by generating a horizontal synchronization signal and a vertical synchronization signal by referring to the format of the video signal stored in the memory unit, even if a video signal without a synchronization signal is input, a synchronization signal necessary for deflection output can be generated to realize a normal video image. To generate a sync signal from a video signal without a sync signal It suggests value.

Description

Device for generating sync signal from video signal without sync signal

The present invention relates to an apparatus for generating a synchronous signal from a video signal without a synchronous signal, and to an apparatus for generating and outputting a synchronous signal from a video signal input without a synchronous signal.

In general, a synchronization signal required for reproduction of all video signals is mixed with an RGB video signal or loaded into a GREEN signal as a SOG (SYNC ON GREEN) signal, whereby a deflection section for displaying the video signal on a monitor is provided. Used for horizontal deflection and vertical deflection.

However, when the synchronization signal is mixed with the RGB image signal or the GREEN signal as described above, the signal becomes complicated due to the mixing, and there is a problem in that a separate device for separating the signal from the receiving device is required.

Accordingly, the present invention has been made to solve the above-described problems, and an object of the present invention is to detect all black levels which are ground levels when a video signal is input without a synchronization signal, and among the detected signals, a horizontal synchronous signal and A video signal without a sync signal that generates a sync signal based on a format of a video signal matched with a video signal stored in a memory unit when the periodicity is determined by judging periodicity from a signal in the duration range of the vertical sync signal. The present invention provides an apparatus for generating a synchronization signal from the apparatus.

1 is a block diagram showing an apparatus for generating a synchronization signal from a video signal without a synchronization signal according to the present invention.

2 is a waveform diagram illustrating a level detection signal and an output signal having a duration determined according to an exemplary embodiment of the present invention.

3 is a flowchart illustrating an apparatus for generating a synchronization signal from a video signal without a synchronization signal of the present invention.

<Description of the symbols for the main parts of the drawings>

100: video signal input unit 200: A / D conversion unit

300: level detector 400: first duration determination unit

500: second duration determination unit 600: microcomputer

700: memory portion 800: deflection portion

900: Monitor

Hereinafter will be described in detail with reference to the accompanying drawings the configuration and operation of the embodiment for achieving the above object of the present invention.

1 is a block diagram showing an apparatus for generating a synchronization signal from a video signal without a synchronization signal according to the present invention.

Referring to FIG. 1, the present invention provides a video signal input unit 100 for supplying various video signals, an A / D converter 200 for digitally converting a video signal output from the video signal input unit 100, and And a level detector 300 for detecting a black level data signal from the digital video signal output from the A / D converter 200 and a black level data signal detected by the level detector 300 for a duration thereof. The first duration determination unit 400 and the second duration determination unit 500 to confirm the,

A microcomputer 600 which outputs a synchronization signal by comparing and comparing the duration determined by the first duration determination unit 400 and the second duration determination unit 500 with a video signal stored in the memory unit 700; The memory unit 700 stores format data of various video signals, and the deflection unit 800 receives a synchronization signal output from the microcomputer 600 and deflects the output to the monitor 900.

Hereinafter, the operation according to an embodiment of the present invention made as described above will be described in detail.

First, a video signal without a horizontal synchronous signal (H SYNC) and a vertical synchronous signal (V SYNC) is input to the video signal input unit 100 and output to the A / D converter 200, and the A / D converter ( 200 performs digital conversion, converts the digital data code, and outputs the converted data to the level detection unit 300.

In addition, the level detector 300 detects all black levels of the ground level GND LEVEL from the video signal converted into the digital data code, that is, a signal as illustrated in FIG. It is output to the determination unit 400 and the second duration determination unit 500, the first duration determination unit 400 is a horizontal signal whose duration is within 1-10usec of the level detection unit 300 When it is within this range compared to the duration of the synchronization signal, the output signal as illustrated in FIG. 2C is applied to the microcomputer 600.

Similarly, when the second duration determination unit 500 receives the detection signal from the level detection unit 300 and the duration is within this range compared to the duration of the vertical synchronization signal within several tens-0.2 msec, The corresponding output signal is applied to the microcomputer 600.

In addition, the microcomputer 600 receives an output signal output from the first duration determination unit 400 and the second duration determination unit 500, counts its frequency, and determines whether there is periodicity. In the case of periodicity, a matching video signal is found by comparing the format of various video signals stored in the memory unit 700, and then the horizontal synchronization signal and the vertical synchronization signal are adjusted by adjusting timing according to the format of the video signal. To generate and apply to the deflection portion (800).

In addition, when the frequency of the output signal is counted and there is no periodicity, the output signal is cut because it cannot be used as a synchronization signal having a certain periodicity.

Therefore, the deflection unit 800 receives the horizontal synchronizing signal and the vertical synchronizing signal output from the microcomputer 600 and deflects them to the monitor 900 so that a normal video image is realized.

Hereinafter, the waveforms of the signals output from the level detector 300 and the duration determination units 400 and 500 will be described with reference to FIG. 2.

As illustrated in FIG. 2, FIG. 2A illustrates a video signal output without a synchronization signal. FIG. 2B illustrates a waveform of a signal output from the level detector 300 after the video signal undergoes a digital conversion process. When all the black levels included in the video signal are detected, the level detector 300 of the output unit outputs a high (H) output regardless of its periodicity. FIG. 3C illustrates the output waveform applied from the level detector 300. It is a waveform of a signal generated only when the duration determination unit 400, 500 is within the range compared with the duration of the horizontal synchronization signal and the vertical synchronization signal.

Therefore, the black level signal outside the range compared with the duration of the horizontal synchronization signal and the vertical synchronization signal is not included.

3 is a flowchart illustrating an apparatus for generating a synchronization signal from a video signal without a synchronization signal according to an embodiment of the present invention. The video signal input step (S10) and the video signal input step of inputting a video signal without a synchronization signal are shown. A / D conversion step (S20) in which the video signal passed through S10 is digitally converted, and a black level detection step in which a black level signal is detected from the digital video signal converted through the A / D conversion step (S20) ( S30),

A first duration determination step S40 for determining whether the signal detected and output in the black level detection step S30 is within a duration range of a horizontal synchronization signal; and detected in the black level detection step S30 A second duration determining step (S50) of determining whether the output signal is in the duration range of the vertical synchronization signal;

In the first duration determination step (S40) and the second duration determination step (S50), the micom application step (S70) that the output signal is applied to the microcomputer 600, and the microcomputer application A synchronization signal output step S80 in which a synchronization signal is output by the microcomputer 600 receiving the output signal in step S70, the first duration determination step S40 and the second duration determination step S50. If out of the duration range, the signal is made to the signal cut step (S60).

Hereinafter, with reference to the accompanying drawings will be described the operation after the black level detection step (S30).

First, a video signal having no synchronization signal converted into a digital video signal by the A / D converter 200 is applied to the level detector 300 so that all black levels are detected and an output signal corresponding thereto is generated. It is applied to the first duration determination unit 400 and the second duration determination unit 500.

The first duration determination unit 400 and the second duration determination unit 500 compare the output waveforms applied from the level detection unit 300 with the durations of the horizontal synchronization signal and the vertical synchronization signal, respectively, within the range. If present, it is applied to the microcomputer 600, and if it is out of the range, it is cut because it cannot be used as a synchronization signal.

Therefore, the microcomputer 600 counts the frequencies of the output waveforms output from the first duration determination unit 400 and the second duration determination unit 500 to determine whether the periodicity is present. The horizontal and vertical synchronous signals used for the deflection output of the deflection unit 800 are searched for based on the timing of the signals, which are matched with the format of the various video signals stored in the memory unit 700. Will generate and print it.

As described above, according to the present invention, after a video signal without a synchronous signal output from the video signal input unit is digitally converted, a detection signal in which signals corresponding to all black levels are detected by the level detection unit is applied to the duration determination unit. The duration determining unit generates an output waveform corresponding to the detected waveform only when the detection waveform is within the duration ranges of the horizontal synchronization signal and the vertical synchronization signal, and applies the output waveform to the microcomputer. When the periodicity is determined by determining the periodicity, the horizontal synchronization signal and the vertical synchronization signal are generated by referring to the format of the video signal stored in the memory unit, thereby generating the synchronization signal necessary for the deflection output even if the video signal without the synchronization signal is input. There is an effect that can implement a normal video image.

Claims (2)

A monitor for generating a synchronization signal from a video signal without a synchronization signal, Level detection means for detecting signals of all black levels included in the video signal digitally converted by A / D conversion means; A duration determination means for receiving the detection signal from the level detecting means and comparing the duration of the synchronization signal with the duration of the synchronization signal and outputting a corresponding signal if the detection signal is within the range; When the periodicity is confirmed by counting the frequency of the output signal applied by the duration determining means and checking the periodicity, the control unit searches for a matching video signal among formats of various video signals stored in the memory means and generates and outputs a synchronization signal. Means for generating a synchronization signal from the video signal without the synchronization signal. The method of claim 1, wherein the duration determination means comprises a first duration determination unit 400 for comparing the detection signal applied from the level detection means with the duration of the horizontal synchronization signal within a predetermined range, and a vertical synchronization signal within the predetermined range. And a second duration determining unit (500) for comparing with the duration.