KR0164255B1 - Image signal converting apparatus for video camera - Google Patents

Abstract

The present invention inputs a computer signal and displays a vertical frequency difference without deterioration of pixel information at the required angle of view magnification when the computer-displayed image is captured by a video camera and transmitted to the broadcast screen or a separate display device for display. A video signal converting apparatus for video shooting that eliminates field flicker due to flicker or interlacing of a video signal, wherein the image data provided from a computer providing a source image and the frequency synchronization of the video camera photographing the same are established. Since the data can be scanned without changing the number of output lines of the data, and then the converted data is scanned on another display device to take a video, the flicker of the screen and the resolution of the image can be eliminated. .

Description

Video signal converter for video shooting

1 is a block diagram showing a state of photographing a conventional computer display screen directly with a video camera.

2 is a block diagram showing a conventional video signal conversion apparatus for video recording.

3 is a block diagram showing a video signal conversion apparatus according to the present invention.

4 is a detailed block diagram of the conversion unit and the standard synchronization providing unit of the present invention.

* Explanation of symbols for main parts of the drawings

1: computer 2: display

3: video camera 4: broadcast monitor

20: converter 20-1: A / D converter

20-2: Sync separator 20-3: Input phase sync loop

20-4: Frame Memory 20-5: Frame Memory Control Unit

20-6: D / A converter 30: Standard synchronization part

30-1: Synchronous Separator 30-2: Transition Phase Synchronous Loop

30-3: Divider 30-4: Output phase locked loop

The present invention relates to an apparatus for converting video signals for video recording. In particular, when an image displayed on a computer screen is photographed with a video camera and then transmitted to the broadcast screen or a separate display device for display, the computer inputs a signal from the computer. The present invention relates to a video signal converting apparatus for video recording, which eliminates flicker due to vertical frequency values and field flicker due to interlacing without deterioration of required view angle magnification (pixel) information.

In general, a method of displaying a computer screen that is already displayed by using a video camera and displaying the same on another screen is performed by receiving a signal provided from the computer 1, which is a signal source providing a source screen, as shown in FIG. ), Which is captured by the video camera 3 and displayed on the broadcast monitor (other screen) 4.

The above method is mainly used in broadcasting, and is mainly used to display a data screen created by the computer 1 on a TV screen through a video (TV) camera.

However, when the screen of the computer 1, which is completely different from the above-described frequency and resolution, is captured by the video camera 3 and displayed on the broadcast monitor 4, the resolution is lowered as well as the following phenomenon occurs.

First, when the vertical frequency period of the computer 1 is later than that of the video camera 3, a vertical frequency difference between the display screen and the input of the video camera 3 occurs, and a horizontal black bar corresponding to the vertical frequency difference is displayed. On the contrary, when the vertical frequency period of the computer 1 is faster than the video camera 3, the vertical frequency difference between the display screen and the input of the video camera 3 occurs, and thus the flicker phenomenon occurs. Flicker occurs when the corresponding horizontal bright horizontal bar flows downward.

In addition, when the vertical frequency of the screen of the video camera 3 and the display 2 is the same, and the vertical phase is different, a horizontal line appears on the screen, and an image having a vertical time difference above and below the horizontal line appears.

When the vertical frequency of the video camera 3 signal and the video signal of the computer 1 do not coincide with each other, the flicker phenomenon occurs as described above. Of course, if the flickering phenomenon is severe, the screen is indistinguishable.

Accordingly, in the past, a separate frequency converter was used to eliminate the above-mentioned flicker phenomenon. As shown in FIG. 2, the computer 1, which is a signal source providing a source screen, and the computer Between the display 2 representing the image signal provided in (1), a converter 10 for converting and outputting the image signal provided from the computer 1 into a standard video signal is additionally mounted. Display the converted image signal and then shoot it;

The frequency converted by the converter 10 is a signal that is already defined in the TV standard regardless of the frequency of the image input from the computer 1 (for example, in the case of the NTSC standard—horizontal frequency 15.734kHz, vertical frequency 59.94Hz It is fixed to change to).

As a result, in the broadcasting screen 4, which is the other screen as compared with the conventional method, the peaker generated by the vertical frequency difference and the horizontal line due to the phase difference do not occur.

However, in the above-described method, flicker can be removed, but the final image signal appearing on the display 2 is defined by the number of output lines of the broadcast monitor 4, so when the line number of the computer 1 differs from the number of lines, Differences or interpolations occur, causing a problem of deterioration in the vertical direction, i.e., a decrease in resolution.

In addition, when the screen output and the camera input are both interlaced, when the zoom up function is used, field flicker occurs due to interference between the output line and the input line.

Accordingly, the present invention provides a video signal converting apparatus for video shooting to solve the conventional problems as described above, and eliminates flicker and at the same time prevents the resolution of the vertical resolution by maintaining the display of the same resolution as the input resolution of the computer Its purpose is to.

That is, a converter for receiving an image signal from a computer providing a source image and converting the frequency of the computer image signal to establish frequency synchronization with the standard synchronization signal provided from the standard synchronization providing unit; The video signal conversion device is composed of a standard synchronization providing unit which separates only a synchronization signal from an output signal of a video camera and provides standard synchronization to the conversion unit so as to establish synchronization and resolution resolution of an image to be viewed on the final display. .

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

Referring to the entire block diagram of the video signal conversion apparatus implemented by the present invention, as shown in FIG. 3, there is provided a computer 1 for providing a source image; A conversion unit (20) which receives the image signal generated by the computer (1) and converts the frequency of the computer image signal to establish frequency synchronization with the standard synchronization signal provided by the standard synchronization providing unit (30); A standard synchronization providing unit 30 which separates only a synchronization signal from an output signal of the video camera 3 and provides standard synchronization to the conversion unit 20; A display (2) for receiving and displaying the image signal converted by the converting unit (20); A video camera (3) for photographing the screen shown on the display (2); It is composed of a broadcast monitor 4 for displaying an image captured by the video camera 3.

The converting unit 20 includes an A / D converter 20-1 for digitally converting an image signal (RGB signal) input from the computer 1 and outputting the digital signal to the frame memory 20-4; The input horizontal sync input from the image signal (RGB) that (H _i) that the sync separator to the signal, separating the input vertical sync (V _i) signals 20-2 and; The sync separator input phase-locked for generating a dot clock (DOT CLOCK) input clock (CLK) of a frequency and phase corresponding to the inputted horizontal synchronizing (H _i) the computer (1) in a signal input through 20-2 A loop (PLL) 20-3; A frame memory (20-4) for storing the display dots and the display lines as they are without degrading the video signal components of the image data output from the A / D converter (20-1); Receiving the input vertical synchronization (V _i ) signal separated from the synchronous separator 20-2 to determine when the image data is stored (WRITE) or read (READ) by one frame in the frame memory 20-4 A frame memory controller 20-5 for controlling read / write of the frame memory 20-4; D / A converting the frame data into an analog signal according to the synchronization signal input from the standard synchronization providing unit 20-5 when reading the data stored in the frame memory 20-4 and displaying it on the display 2. A converter 20-6;

The standard synchronization providing unit 30 receives a synchronization signal output from the video camera and separates it into a reference vertical synchronization signal H _ref and a reference horizontal synchronization signal V _ref ; A phase shifting loop 30-2 for outputting in synchronization with a phase and a reference signal in which a phase of each signal output from the sync separator 30-1 is set; A divider 30-3 for dividing the converted frequency through the converted phase locked loop 30-2; The output phase synchronizing loop 30-4 generates an output clock signal by synchronizing the frequency divided by the divider 30-3 with the output phase.

The process of displaying a computer image on another screen (broadcast monitor) without removing the flicker phenomenon and reducing the resolution by using the video signal conversion apparatus for video shooting according to the present invention configured as described above will be described below.

The apparatus is connected between a computer 1 for providing a source image and a display 2 for displaying an image provided from the computer 1.

When an image signal is output from the computer 1, this signal (RGB signal) is input to the converting section 20, of which data signals are converted into digital signals through the A / D converter 20-1. a synchronous signal is input to a sync separator 20-2 separates the input horizontal synchronization signal (H _i), an input vertical synchronizing signal (V _i).

The signal input horizontal synchronization signal (H _i) of which is a clock serving as a reference when the phase shift through the input phase-locked loop (20-3) digitizing the image data inputted from the A / D converter 20-1 conversion and is separated from the input dot clock frequency (F _di) in addition, the input horizontal synchronization signal (H _i) is input to the frame memory 20-4.

Subsequently, in the A / D converter 20-1 which digitally converts the image data provided from the computer 1 in accordance with the clock input through the input phase synchronization loop 20-3, the frame memory is adjusted according to the clock again. it outputs it to 20-4, wherein the frame memory 20-4 to the said frame memory 20-4 in accordance with the input vertical synchronizing signal (V _i) provided by the sync separator 20-2 data is The image data input from the A / D converter 20-1 is read or written according to the input of the control signal C1 for controlling the operation to be read / written.

In addition, the other signal input to the frame memory 20-4 is provided with a synchronization signal of the video camera 3 used when capturing an image appearing on the display 2, which is provided by the video camera 3. The flow of the synchronization signal is input through the following process.

When the synchronization signal of the video camera 3 to be photographed is input to the standard synchronization providing unit 30, first, the synchronization signal separator 30-1 is used as the reference horizontal synchronization signal H _ref and the reference vertical synchronization signal V _ref . Each of these signals is separated and phase shifted according to the sulfodine reference signal in the conversion phase synchronization loop 30-2.

In this case, the relationship between the separated synchronization frequencies is expressed as follows.

F _Href : horizontal frequency of the reference signal (ref),

F _Vref : horizontal frequency of the reference signal (ref),

L _ref : When the total number of vertical lines of the reference signal ref is

F _Href = L _ref × F _Vref

In this case, the number of vertical lines L _ref or the position and number of display lines are displayed on the screen for shooting (video camera screen) at the arbitrary vertical position and vertical magnification, and the pixel information deteriorates. In order to be output without doing this, we first need to decide arbitrarily.

In addition, the conversion frequency (F _c ) output through the conversion phase registration loop (30-2), the conversion frequency (F _c ) is the synchronization of the conversion unit 20 to the number of vertical lines (L ₀ ) of the computer The separator 20-2 is separated and converted into a value F _c = L ₀ × F _Hi multiplied by the input horizontal frequency F _Hi .

In this way, the conversion frequency F _c output through the conversion phase synchronization loop 30-2 is input to the frequency divider 30-3, and then input to the output phase synchronization loop 30-4 which is the final output terminal. In this case, the vertical frequency of the frequency divided by the frequency divider 30-4 is input to the output phase synchronization loop 30-4 to synchronize the computer 1 with the video camera 3.

In addition, the method of obtaining the output frequency (F _Ho ) of the final horizontal (H _O ), the relationship between the obtained final output horizontal frequency and the vertical frequency and the conventional method is expressed as follows.

First, when the relationship with the vertical frequency (F _vo ) output through the output phase synchronization loop (30-4), the final output horizontal frequency 'F _Ho = L ₀ × F _Vo = L ₀ × F _Vref ' bar, In the above equation, since the vertical synchronization V _o of the output is the same frequency and the same phase as the reference vertical synchronization V _ref , it is equal to the value V _ref provided by the synchronization separator 30-1 of the standard synchronization providing unit 30.

Compared with the existing final horizontal frequency generation method, it is expressed as below.

'F _Ho = F _c / L _ref '

(F _c = L ₀ × F _Hi in the above formula.)

Therefore, 'F _Ho = (L ₀ / L _ref ) × F _Hi '.

As shown in the final equation, the horizontal frequency F _Ho generated in the present invention generates a frequency multiplied by L ₀ times the vertical frequency F _Hi of the computer and is converted into L _ref through the synchronous separator 30-3. The frequency is obtained by dividing.

As a result, the number of vertical lines of the display 2 and the number of vertical lines of the computer 1 are the same, so that deterioration of pixel information of vertical components does not occur, and synchronization of vertical frequencies is established, thereby eliminating flicker and reducing resolution. Will also be removed.

In addition, when outputting a computer image on a screen for shooting at an arbitrary horizontal position and horizontal magnification ratio, when outputting without deterioration of pixel information, the horizontal total dot number display dot position and number need to be arbitrarily determined. It is made through the output phase synchronization loop (30-4) in the horizontal synchronization of, and is expressed as follows.

'f _do = D _Ho × F _Ho '

Where f _do = output dot clock frequency,

D _Ho = total horizontal dots.)

When the standard vertical synchronization signal V _o finally generated through the output phase synchronization loop 30-4 is input to the D / A converter 20-6 of the conversion unit 20, the clock is adjusted according to the clock. When the image signal is output, the process will be described in detail. First, the vertical synchronization signal V _o output from the output phase synchronization loop 30-4 is input to the D / A converter 20-6 and at the same time, It is input to the frame memory 20-4 of the converter 20 so that the frame memory controller 20-5 can control the read / write of data together, and the frame memory 20-4. ) Is stored and converted into an analog signal via the D / A converter 20-6, and then used as a reference clock when displayed on the display 2 as the final signal RGB.

Therefore, the screen appearing on the display 2 is a horizontal signal which prevents the resolution deterioration while the image signal provided from the computer 1 is a signal (RGB) in which synchronization is completed with the signal provided from the standard synchronization providing unit 30. (H _o ) is provided so that the image captured by the video camera 3 has the same resolution as that of the computer 1 image as described above, and becomes a stable high resolution image from which flicker is removed.

In addition, since all video cameras currently used have the same synchronization frequency, the video signal conversion apparatus for video shooting of the present invention is compatible with any video camera.

As described in detail above, the present invention establishes the image data of the computer providing the source image and the frequency synchronization of the video camera photographing the same, and makes it possible to scan without changing the number of output lines of the source image data. By scanning the data converted in the same manner to other display apparatuses, there is an effect of eliminating the flicker of the screen during shooting by the video camera as well as eliminating the problem of the resolution of the image.

Claims (4)

A converter (20) which receives an image signal from a computer (1) providing a source image and converts a frequency of the computer image signal to establish frequency synchronization with a standard synchronization signal provided from the standard synchronization providing section (30); Only the synchronization signal is separated from the output signal of the video camera 3, and standard synchronization is provided to the conversion unit 20 to establish synchronization of the image scanned on the final display 2, and match the number of vertical lines of the source image. A video signal converting apparatus for video shooting, comprising: a standard synchronization providing unit (30) for providing a vertical number of lines to establish a resolution; The A / D converter 20-1 of claim 1, wherein the converter 20 converts an image signal (RGB signal) input from the computer 1 into a frame memory 20-4. ; The input horizontal sync input from the image signal (RGB) that (H _i) that the sync separator to the signal, separating the input vertical sync (V _i) signals 20-2 and; The sync separator input phase-locked for generating a dot clock (DOT CLOCK) input clock (CLK) of a frequency and phase corresponding to the inputted horizontal synchronizing (H _i) the computer (1) in a signal input through 20-2 A loop (PLL) 20-3; A frame memory (20-4) for storing image data output from the A / D converter (20-1) without any deterioration of video signal components and display dots and display lines; Receiving the input vertical synchronization (V _i ) signal separated from the synchronous separator 20-2 to determine when the image data is stored (WRITE) or read (READ) by one frame in the frame memory 20-4 A frame memory controller 20-5 for controlling read / write of the frame memory 20-4; When data stored in the frame memory 20-4 is read and displayed on the display 2, the D / A converter converts the frame data into an analog signal in accordance with the synchronization signal input from the standard synchronization providing unit 20-5. 20-6), a video signal conversion device for video shooting. The synchronization synchronizer of claim 1, wherein the standard synchronization providing unit 30 receives a synchronization signal output from a video camera and separates the synchronization signal into a reference vertical synchronization signal V _ref and a reference horizontal synchronization signal H _ref . 30-1); A conversion phase synchronization loop 30-2 for outputting the phase of each signal output from the synchronization separator 30-1 in synchronization with the phase of the reference signal set; A divider 30-3 for dividing the converted frequency through the converted phase locked loop 30-2; And an output phase synchronization loop (30-4) for generating an output clock signal by synchronizing the frequency divided by the divider (30-3) with an output phase. The final horizontal synchronizing signal (H _o ) of the signals output from the frequency divider (30-3) of the standard synchronization providing unit (30) is a total vertical line (L ₀ ) of the computer which is a source image. the total number of lines of the camera (L _ref) to the video shooting image characterized in that ever prevent the deterioration of resolution is scanned on the display (2) to Kane outputs a value obtained by multiplying the input horizontal synchronization signal (H _i) to the value divided Signal inverter.