KR970002369B1 - Method and apparatus of communication between vga board and video board - Google Patents

Abstract

A method and an apparatus to communicate between a VGA(Video Graphic Array) board and a video overlay board by a feature connector is constituted like this. By the method, each signal from the VGA board through the feature connector is amplified. And the amplified signals are inputted to the video overlay board through a connector cable. Thereby, the communication can be performed between the VGA and video overlay boards by the simple structure.

Description

Communication method between VG board and video overlay board and device

1 is a block diagram showing the connection between a VGA board and a monitor when no video overlay board is used.

2 is a block diagram showing a conventional connection of a VGA board, a video overlay board and a monitor.

3 is a block diagram of a VGA board, a video overlay board and a matching device of the present invention.

4 is a detailed circuit diagram of the matching device of the present invention.

5 is a block diagram of the feature connector adapter of the present invention.

6 is a detailed drawing of the frequency divider circuit of the present invention.

7 is a clock chart of the present invention.

* Explanation of symbols for main parts of the drawings

10: VGA board 20: Video overlay board

30: matching device 40: frequency division circuit

50: selection unit

The present invention relates to a method and a device for communication between a Video Graphic Array (VGA) and a Video Overlay Board (VGA) used in a multi-media environment using a personal computer (PC). It is about. In particular, the present invention relates to a matching device, a feature connector adapter, and a communication method between a VGA board and a video overlay board using the same. The video overlay board receives various images existing outside the PC, converts them into signals suitable for use with the PC, processes them, edits them, and displays them on the monitor.

The connection method of the monitor in the PC without the video overlay board is shown in FIG. That is, by connecting the monitor connector of the VGA board to the monitor, RGB (Red, Grddn, Blue) signals are displayed to the monitor. However, in the environment using the video overlay board, the connection method of the board with the VGA board and the monitor is shown in FIG. That is, the video overlay board processes and edits signals from TV, VCR (Video Cassette Recorder), camcorder, etc. which are input from the outside, and synchronizes with the clock, pixel data, horizontal synchronization signal, and vertical synchronization signal input from the VGA board. To create an RGB signal. This RGB signal is synthesized with the RGB input from the VGA and output to the monitor to display an image.

There are many popular VGA and Super VGA (SVGA) boards in this VGA board, which support high color mode and high resolution mode. In other words, it is a board that can create various colors and clearer screens.

When a video overlay board is built into a PC to process external images and displayed on a monitor, there is no problem when the existing graphics board of the PC is a normal VGA board.

However, in case of SVGA board, the clock frequency is high because a lot of information is required to support various colors. Under this high frequency clock, the signal from the VGA board is severely distorted as it enters the video overlay board through the feature connector cable.

This is because the capacitance of the feature connector cable causes the clock of the VGA board to be shaken, i.e. unstable, and the signals of the VGA board with less drive current are shaken because of the unstable clock.

In addition, the VGA board itself uses this clock together, so the RGB signal output from the VGA board becomes unstable.

This oscillation of the clock causes all signals on the video overlay board to become unstable, and even RGB signals generated within the VGA board and input directly to the video overlay board become unstable.

As a result, the image displayed on the monitor is shaken, which makes the PC user's eyes easily tired. In this situation, even if the user of the PC has an SVGA board, the video overlay board cannot be used for high color mode and high resolution mode. This means that it is impossible to display various colors and clear screens by using the video overlay board. Therefore, in order to input external video through the video overlay board, it is not possible to use sufficient functions of the existing SVGA board and to use a normal VGA board ( 640 × 480, 256 colors) only has to be used.

Accordingly, an object of the present invention is to provide a communication method between a VGA board and a video overlay board that can solve such problems by installing a matching device or feature connector adapter between the VGA board and the video overlay board to prevent signal distortion. .

Hereinafter, the present invention will be described with reference to the accompanying drawings.

3 shows an overview of the invention. That is, the matching device 30 is installed between the VGA board 10 and the video overlay board 20 to prevent distortion of the signal. The matching device 30 amplifies the signal output from the VGA board 10 through the feature connector cable and outputs a shake-free signal to the video overlay board 20, and also adversely affects the clock itself of the VGA board 10. Do not disturb. In this way, a stable RGB signal is generated in the video overlay board 20, and the RGB signal generated by the VGA board 10 is also stabilized to stabilize the image displayed on the monitor.

At this time, the power supply Vcc of the matching device 30 does not need to be modified by supplying the video overlay board 20.

The matching device 20 can be made using an amplifier, which can simply be a line driver or a buffer. As an example of this matching device, an embodiment using a chip called SN74LS744 is shown in FIG.

The signal output from the VGA board is input to a line-driver or a buffer to be amplified and output to the video overlay board. The power supply (Vcc) is then supplied from the video overlay board using a blank line on the feature connector cable.

Meanwhile, the distortion of the signal between the VGA board and the video overlay board, causing the monitor's screen to shake, is also due to the high clock frequency in high color mode.

In other words, if a low frequency clock is output to the video overlay board, even if a thin flat cable is used as the feature connector cable, no distortion occurs. Therefore, lowering the frequency of the clock solves the signal distortion problem. To this end, a feature connector adapter is used as shown in FIG.

That is, the clock output from the VGA board is input to the division circuit 40 and divided, and then sent to the selection unit 50. The selector 50 selects a divided clock or a non-divided clock according to a selection signal selected by the video overlay board 20.

This selection signal is high if the current VGA board 10 is in high color mode, and low otherwise, and the divided clock is selected in high color mode. Selects an undivided clock. The selection signal is the central processing unit (CPU) of the PC checks the color mode by checking the register or RAM Digital Analog Converter (RAMDAC) of the VGA board, and then checks the color mode. A specific port of the overlay board 20 is displayed. The video overlay board 20 reads this port and provides it to the feature connector adapter to select the clock.

The video overlay board can be accommodated by attaching a simple matching device to the SVGA board so that the video overlay board cannot be connected to the existing SVGA board. In addition, by dividing the clock of high frequency to prevent the screen shake, the existing SVGA board and the video overlay board can be used to enjoy a clear and colorful screen.

Claims (6)

A method of communicating by connecting a VGA (Video Grapic Array) board and a video overlay board with a feature connector cable, wherein each signal output from the VGA board to the feature connector is amplified by an amplifier, and the amplified signal is A method of communication between a VGA board and a video overlay board that inputs to a video overlay board through a feature connector cable. The method of claim 1, wherein the amplifier receives its power from the video overlay board via a feature connector cable. The method of claim 1 or 2, wherein the amplifier is a line driver. An input unit for receiving a signal output from a VGA board to a feature connector, a divider for dividing a clock among the signals of the VGA board, and a clock divided by the divider and a non-divided clock according to the mode of the VGA board A matching device between a VGA board and a video overlay board comprising a selector, an amplifier for amplifying a signal received at an input unit, and an output unit for transmitting the signal amplified at the amplifier to a video overlay board through a feature connector cable. 5. The video signal communication device according to claim 4, wherein the amplifier is a line driver. The method of claim 1, wherein when the VGA board is in the high color mode, the clock output from the feature connector is divided from the VGA board to the video overlay board through the feature connector cable, and the VGA board is in the low color mode. In the case of color mode), the communication method between the VGA board and the video overlay board that sends the clock from the VGA board to the video overlay board.