KR20040049434A - Out of range input signal display method through dividing vertical synchronous signal - Google Patents

Abstract

PURPOSE: A method for outputting an input permission out of range input signal by branching a synchronous signal is provided to display an out of range image signal on a screen by branching a vertical synchronous signal if an input permission exceeding signal is inputted, thereby simply displaying the input permission out of image signal. CONSTITUTION: When RGB image signals are inputted, a signal processor checks the inputted image signals(S200), and checks vertical/horizontal synchronous signals of the image signals(S210). If an inputted vertical synchronous frequency exceeds a certain range that double-multiplies a maximum input vertical synchronous frequency and the maximum input vertical synchronous frequency, the signal processor branches the inputted vertical synchronous frequency(S230). The signal processor compares the branched frequency with a preset vertical synchronous frequency(S240), and converts into the branched vertical synchronous frequency(S250). The signal processor sets resolution and a refresh rate(S260), and outputs the image signals with the set resolution at the refresh rate(S270).

Description

Output signal output method out of the allowable range through the synchronization signal branch {OUT OF RANGE INPUT SIGNAL DISPLAY METHOD THROUGH DIVIDING VERTICAL SYNCHRONOUS SIGNAL}

The present invention relates to a method for outputting an input signal out of an allowable range through a synchronization signal branch. In particular, the present invention relates to a signal processing unit of a display set that cannot recognize a video signal, that is, through an input of a vertical synchronization signal when an input allowance excess signal is input. Synchronization enables the display of video signals that are not displayed out of range on the screen so that video signals can be output without the need to connect to a separate display device when video signals that cannot be supported on the display set are input. The present invention relates to an input signal output method out of an allowable range through a signal branch.

In general, video signal processing of a display apparatus has a process of processing an input analog video signal into a digitized signal through an A / D converter and then outputting it in accordance with an output format.

Existing display devices for such video signal processing include NTSC mode in PAL mode, Film mode in Graphic Mode, etc. through Frame Rate Conversion (FRC). By changing the expression, it also reduces flicker.

This feature can also be used to branch a vertical synchronous signal and to enable display of transient frequencies.

Hereinafter, a general frame rate conversion (FRC) process will be described with reference to FIG. 1.

The film mode is taken as an example here, so a film mode source configured at 24 Hz would require 1/24 sec per frame. In order to display 60Hz (60 frames) for these sources, a film frame of 2 frames must be converted to 5 frames. This means that two frames of source stored in memory must be output over five frames in the manner of EVEN, ODD, EVEN, ODD, EVEN, ...

Since the converted signal is an interlace signal, one frame is converted into a progressive signal through a deinterlacing process outputted to EVEN and ODD, which is a signal processing process, that is, filtering ), And output according to the output format through Up / Down Scaling.

That is, signals that have been frame-rate converted into EVEN, ODD, EVEN, ODD, EVEN, ... formats are deinterlaced and output twice for each signal.

Such a frame converting process is used to change the refresh time to reduce the flicker and to convert from NTSC mode to PAL mode.

On the other hand, the basic processing sequence for scaling the input signal in the signal processing unit of the display device is as follows.

First, the input data is checked, and if a signal is detected at this time, the horizontal / vertical sync signal parameter is checked, and then the presence / absence of the signal is determined by comparing with the preset horizontal / vertical sync signal.

In this case, when the signal is changed, the refresh rate and resolution determined by the horizontal sync signal and the vertical sync signal are set according to the output format.

However, when the synchronization signal is not detected on the scaler of the signal processor, the OS screen of "OUT OF RANGE" is conventionally displayed.

That is, if an input allowable excess signal is input in the display device standard that cannot be recognized by the signal processor, it is displayed as Out of Range and does not automatically return. Therefore, a display device capable of receiving an input allowance exceeding vertical sync signal is separately provided. There was an inconvenience of having to return the settings to the previous mode in order to connect.

In order to solve this inconvenience, the above-described frame rate conversion (FRC) may be used. However, since the support range is limited and the main purpose of the frame rate conversion (FRC) is flicker elimination, there is an unsuitable problem.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and when the video signal that is not recognizable, that is, the input allowance excess signal is input, the display is out of range through the branch of the vertical synchronization signal. Inputs out of the allowable range through the sync signal branch, which enables the display of video signals that are not supported on the display set, so that video signals that cannot be supported on the display set are outputted without the need to connect to a separate display device. The purpose is to provide a signal output method.

1 is a diagram illustrating a general frame rate conversion process.

2 is a flowchart illustrating an embodiment according to the present invention.

In order to achieve the above object, a method of outputting an input signal out of an allowable range through a synchronization signal branch includes: checking whether an image signal is input to a signal processing unit of a display apparatus processing an input R / G / B image signal; Detecting a vertical / horizontal synchronization signal among the input image signals; Determining whether the input vertical synchronization frequency falls between a range of the maximum input vertical synchronization frequency and the maximum input vertical synchronization frequency in multiples of N; Branching the input vertical sync frequency to 1 / N if the input vertical sync frequency exceeds a range between the maximum input vertical sync frequency and the maximum input vertical sync frequency in multiples of N; Identifying a preset vertical sync frequency and a branched vertical sync frequency and converting the preset vertical sync frequency into a branched vertical sync frequency; Setting a resolution and a refresh rate with the converted vertical synchronization frequency and the input horizontal synchronization frequency; And outputting an image signal at a set resolution / refresh ratio.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the processing of the input signal output method out of the allowable range through the synchronization signal branch according to the present invention.

Before describing the processing of the input signal output method out of the allowable range through the sync signal branch according to the present invention, the characteristics of the vertical sync signal and the horizontal sync signal input for the display of the input allowance excess signal will be described below. same.

First, in the case of a vertical synchronization signal, for example, when a vertical synchronization signal exceeding an allowable range is input to a display device having an input allowable frequency up to 85 Hz, the signal detection point is missed, and the vertical synchronization signal is sometimes dropped. Only two points will be checked.

This situation refers to the continuous flow of the screen, and in such a situation, since it is not visually visible even if expressed on the screen, the present invention enables visual display on the screen by branching the vertical synchronization signal.

For reference, if the synchronization signal is not detected on the scaler of the signal processor, the OS screen of "OUT OF RANGE" is conventionally displayed.

Next, in the case of the horizontal synchronizing signal, for example, a display device having an input frequency of up to 80 KHz, for the input horizontal synchronizing signal, the higher the synchronizing frequency is, the easier it is to catch the detection point. No action is required, such as branching or sorting. This is because accurate detection can be achieved if a large number of horizontal synchronization signals are inputted compared to a small number of synchronization signals.

Therefore, in the present invention, even if a signal out of the input allowable range is input to the horizontal synchronization signal, no special signal processing is required, so the processing for the horizontal synchronization signal is excluded.

Hereinafter, the processing of the input signal output method out of the allowable range through the synchronization signal branch according to the present invention will be described in detail.

First, when an R / G / B video signal is input to a signal processor (not shown) of the display apparatus, the signal processor checks the input video signal (S200), and then checks the vertical / horizontal synchronization signal of the video signal. (S210).

Next, it is determined whether the currently input vertical sync frequency is included between the maximum input vertical sync frequency (for example, 85 Hz) and the range of double the maximum input vertical sync frequency (85 Hz x 2) according to the display apparatus standard (S210). )

As a result of the above determination, if it is determined that the input vertical synchronization frequency exceeds a maximum input vertical synchronization frequency (85 Hz) and a range of two times the maximum input vertical synchronization frequency (85 Hz x 2), the input vertical synchronization frequency is 1/2. Branch to (S230).

In this way, by dividing the input vertical synchronization frequency by 1/2, detection of the vertical synchronization signal is possible.

When the vertical synchronizing frequency is branched at 1/2 in this step, the signal processing unit compares the branched vertical synchronizing frequency with a preset vertical synchronizing frequency (S240) and converts the existing vertical synchronizing frequency into a branched vertical synchronizing frequency (S250). ).

Typically, since the vertical synchronization signal determines the resolution ratio and the horizontal synchronization signal determines the refresh rate, the resolution and refresh rate are set according to the converted vertical synchronization frequency and the input horizontal synchronization frequency (S260).

As a result of the above processing, when the resolution and the refresh rate of the display apparatus are set, an image signal is output at the set resolution / refresh ratio (S270).

On the other hand, if the input vertical sync frequency is included between the maximum input vertical sync frequency (for example, 85 Hz) and the range where the maximum input vertical sync frequency is doubled (85 Hz x 2), the preset vertical sync frequency immediately without branching Is converted into the input vertical synchronization frequency (S250).

Therefore, when the existing resolution is converted to the input vertical synchronization frequency, the resolution and the refresh rate are set according to the converted vertical synchronization frequency and the input horizontal synchronization frequency (S260).

Similarly, when the resolution and the refresh rate are set, an image signal is output to the display set at the set resolution / refresh ratio (270).

As described above, according to the present invention, an image signal that cannot be recognized, that is, an image signal that is not displayed out of range through the branch of the vertical synchronization signal when the input allowance excess signal is input, is displayed on the screen. By enabling the display, it is possible to eliminate the inconvenience of having to connect a separate display device in order to input and restore the video signal that cannot be supported by the set.

In addition, there is an advantage that can be easily displayed for the video signal outside the input allowable range without the frame rate conversion (FRC) as before.

Claims (2)

Checking whether an image signal is input to a signal processing unit of a display apparatus which processes the input R / G / B image signal; Detecting a vertical / horizontal synchronization signal among the input image signals; Determining whether the input vertical synchronization frequency falls between a range of the maximum input vertical synchronization frequency and the maximum input vertical synchronization frequency in multiples of N; Branching the input vertical sync frequency to 1 / N if the input vertical sync frequency exceeds a range between the maximum input vertical sync frequency and the maximum input vertical sync frequency in multiples of N; Identifying a preset vertical sync frequency and a branched vertical sync frequency and converting the preset vertical sync frequency into a branched vertical sync frequency; Setting a resolution and a refresh rate with the converted vertical synchronization frequency and the input horizontal synchronization frequency; And a step of outputting an image signal at a set resolution / refresh ratio. The input signal out of an allowable range of the synchronization signal branch according to claim 1, wherein the N value is set to N = 2 in N multiples of the maximum input vertical synchronization frequency and 1 / N of the branch multiples. Output method.