KR20010026493A - Multi sync projection monitor - Google Patents

Abstract

PURPOSE: A multi sync projection monitor is provided to receive various multi synchronous inputs by processing various input multi synchronous modes as up scaled single mode. CONSTITUTION: An input terminal(100) receives a composite image signal having different horizontal frequencies. A digital signal processor converts the composite image signal received by the input terminal(100) in a composite image signal having a reference frequency. The digital signal processor includes an analog/digital converter(210) for converting the composite image signal into a digital signal, a mode detector(212) for generating a mode detecting signal in response to the horizontal frequency of the composite image signal, and a frequency converter(220) for converting the horizontal frequency of the composite image signal into the reference frequency. A display driver drives a deflecting circuit and a convergence circuit in response to the composite image signal having a reference frequency converted by the digital signal processor.

Description

Multi Sync Projection Monitor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a Multi Sync Projection Monitor that provides a high quality screen by controlling a multi-synchronous input signal. More particularly, the present invention relates to a circuit for outputting a multi-synchronous signal in a constant format regardless of various input modes. The present invention relates to a multi-sync projection monitor having a single-mode conversion function that can easily implement the configuration.

In the information age, the presence of information displays as an interface between humans and computer devices is inevitable. This display of information should be easy to see, beautiful in color, and tiring even after long hours of viewing.

To this end, various information displays have been developed, but the CRT (Cathode Ray Tube) in addition to the LCD (Liquid Crystal Display) is taking advantage, because the above conditions are satisfied.

Despite the drawbacks of CRTs being difficult to carry, they are superior to other devices in terms of visibility, such as bright display, full color, and responsiveness. This is why CRT is the mainstream of display.

In the NTSC television signal, an image is formed with a vertical frequency of about 60 Hz and a horizontal frequency of about 15.75 Hz. In addition, in the so-called high resolution display computer output signal, there is a horizontal frequency of about 24.8 kHz. In a so-called high-quality personal computer (PC) or game machine, the horizontal frequency is about 31.5 Hz.

At present, a multi-sync monitor has been proposed in which a single device can receive a plurality of signals having different reference frequencies.

1 is a block diagram illustrating an example of a general multi-sync monitor, the operation of which is described below.

The mode detector 20 detects a mode having horizontal frequencies of 15.75 Hz of NTSC, 24.8 Hz of EGA, and 31.5 Hz of VGA, supplied from the multi-sync input terminal 10, and the video signals thereof are deflected. 30) and the respective modes are switched through the convergence control unit 50, so that a deflection circuit for each mode may be used, for example, a 15.75 kV deflection circuit 30a, a 24.8 kV deflection circuit 30b, and a 3.5 kV deflection circuit 30c. In addition to the supply, it is supplied to the convergence driving unit 60 for each mode.

As a result, the deflection circuits 30a, 30b, and 30c for each mode operate separately, and the convergence drives separate data for each mode. In this way, ordinary multiple synchronization signals are received. As described above, in the conventional multi-sync monitor, the horizontal and vertical deflection necessary for the various multi-vertical reference frequencies are performed, and various signals are received or received.

However, in the general multi-sync monitor described above, a circuit configuration is complicated because each deflection circuit is required to correspond to each mode according to each synchronization mode input.

In addition, when the horizontal frequency is fixed to about 15.75 kHz as in a conventional TV set, there is no big problem. However, in high-quality multi-sync monitors, the synchronization mode becomes more diversified and cannot be practically realized on a large screen of a projection type. Done. This is because a large number of circuits and memories are required to cope with each input synchronization mode.

Accordingly, the present invention has been made to solve these problems, and its object is to provide a simple single mode conversion function, thereby simplifying the circuit configuration by outputting signals in a constant format regardless of various input modes. The present invention provides a multi-sync monitor capable of receiving various multi-sync inputs.

1 is a block diagram showing an example of a conventional multi-sync projection monitor;

2 is a block diagram showing an embodiment of a main part of a multi-sync projection monitor according to the present invention;

3 is a detailed block diagram of the digital signal processing means in FIG.

* Explanation of symbols for main parts of the drawings

100: input terminal 200: digital signal processing means

210: A / D converter 220: frequency converter

300: deflection circuit 400: convergence circuit

The present invention for achieving the above object is an input terminal to which a composite video signal having a different horizontal frequency is applied, digital signal processing means for converting the composite video signal provided through the input terminal into a composite video signal of a reference horizontal frequency; And display driving means for driving the deflection circuit and the convergence circuit in response to the converted video signal of the reference frequency.

The digital signal processing means includes an analog / digital converter for converting a composite video signal into a digital signal, a mode detector for generating a mode detection signal in response to the horizontal frequency of the composite video signal, and a digitally converted composite in response to the mode detection signal. And a frequency converter for converting the horizontal frequency of the image signal into the reference horizontal frequency. In particular, the reference horizontal frequency is preferably 31.5 Hz.

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

2 is a block diagram showing an embodiment of a main part of a multi-sync monitor according to the present invention.

Referring to FIG. 2, the input terminal 100 includes a composite image signal having various horizontal frequencies, that is, a composite image including video signals such as R, G, and B, a vertical synchronization signal V, and a horizontal synchronization signal H. Signal is applied. The horizontal frequency is 15.7 kHz for the NTSC composite video signal, 24.8 kHz for the EGA composite video signal, and 31.5 kHz for the composite video signal VGA.

Various multiple synchronization signals of a predetermined frequency band input through the input terminal 100 are digitally processed by a digital signal processor (DSP) 200 and then converted to correspond to a predetermined frequency.

That is, with reference to the detailed block diagram of FIG. 3, the digital signal processing means 200 for converting the format into the desired high quality single mode regardless of the various multi-sync input modes will be described. As follows.

The digital signal processing means 200 includes an analog / digital converter 210 for converting a composite video signal into a digital signal, a mode detector 212 for generating a mode detection signal in response to a horizontal frequency of the composite video signal, and a mode detection signal. And a frequency converter 220 for converting the horizontal frequency of the digitally converted composite video signal into the reference horizontal frequency.

In the projection monitor to which the multi-sync is input, the mode detection unit 212 generates a mode detection signal according to each horizontal frequency by inputting the horizontal synchronization signal of the first composite video signal.

The analog-to-digital converter (ADC) 210 converts the composite video signal into a digital signal.

Subsequently, in order to upscale the digitalized signals of the various frequency bands to a single mode having one reference horizontal frequency, the digital signal is outputted in a single mode having a high definition through a frequency converter 220 corresponding to the number of input modes. do.

For example, a first frequency converter 220a for converting a digital signal of 15.7 GHz into a 31.5 kHz signal corresponding to VGA, and a second frequency converting unit for converting a 24.8 GHz signal into a 31.5 kHz signal also set ( 200b) and the 31.5 kHz signal through the third frequency conversion unit 220c that passes the signal without signal conversion.

Each frequency converter is enabled in response to the mode detection signal of the mode detector 212.

In this case, the number of the frequency converter 220 may vary depending on the input mode.

Signals upscaled and converted to a single mode (for example, 31.5 kHz) through the digital signal processing means 200 described above are combined with a single deflection circuit 300 operating in a single mode of 31.5 kHz. It outputs to the convergence circuit 400.

As described above, the present invention is capable of responding to the multi-sync signal with one deflection circuit by converting the multi-synchronous mode into one single mode format by digital signal processing in the projection monitor receiving the multi-sync.

Incidentally, the present invention is not limited to the above-described embodiment, and various other configurations can be taken without departing from the gist of the present invention.

As described above, according to the preferred embodiment of the present invention, the circuit configuration can be easily implemented by processing various multiple synchronization input modes in an upscaled single mode.

In addition, the present invention can stably receive or receive various high-quality multi-sync inputs.

Claims (3)

An input terminal to which a composite video signal having different horizontal frequencies is applied; Digital signal processing means for converting a composite video signal provided through the input terminal into a composite video signal having a reference horizontal frequency; And display driving means for driving a deflection circuit and a convergence circuit in response to the converted video signal of the reference frequency. The method of claim 1, The digital signal processing means, An analog / digital converter for converting the composite video signal into a digital signal; A mode detector for generating a mode detection signal in response to a horizontal frequency of the composite video signal; And And a frequency converter for converting the horizontal frequency of the digital video signal converted into the reference horizontal frequency in response to the mode detection signal. The method of claim 2, And said reference horizontal frequency is 31.5 kHz.