KR100768342B1 - Lipsync test method - Google Patents

Abstract

The present invention relates to a lip sync test method, and more particularly, to a method of measuring a delay time between a video and an audio signal of a display device.

The lip sync test method according to the present invention measures a delay time (A) between a video signal and an audio signal generated from a photographing device which is reproduced in a reproducing apparatus for reproducing a lip sync test signal and acquires an image and an audio output through a specific TV. . Then, the delay time B between the video signal and the audio signal output from the photographing apparatus which acquires the image and the audio outputted through the display apparatus to be reproduced and tested for lip sync is measured. Next, the delay time C of the display device itself, which is the difference between the measured delay time B and the delay time A, is calculated.

Digital, Display Devices, Lipsync Test

Description

Lipsync test method {Lipsync test method}

1 is a view for explaining a conventional lip sync test method.

Figure 2 is a block diagram of a hardware configuration for realizing a lip sync test method according to a preferred embodiment of the present invention.

3 is a flowchart illustrating a lip sync test method according to a preferred embodiment of the present invention.

4 and 5 illustrate a delay time between a video signal and an audio signal.

<Explanation of symbols for main parts of the drawings>

100: playback device 200: TV modulator / channel converter

300: display device 400: recording device

500: oscilloscope

The present invention relates to a lip sync test method, and more particularly, to a method of measuring a delay time between a video and an audio signal of a display device.

1 is a view for explaining a conventional lip sync test (Lip_sync test) method. First, the Lip_sync test signal stored in the DVD player, which is the playback device 10, is reproduced, and a delay time A between the video signal CVBS and the audio signal outputted is measured using the oscilloscope 40. . Next, after the Lip_sync test signal reproduced from the reproduction device 10 is applied to the TV modulator 20 and modulated, the RF signal is output through the channel converter 20. The output RF signal is outputted. The delay time B of the cathode output of the CRT and the speaker output, which are input to the TV 30 and the final signal from the TV 30, are measured using an oscilloscope 40. Finally, measurement as described above. The difference between the delay time A and the delay time B is calculated to find the delay time between audio and video of the TV 30 itself.

In the related art, the delay time between the audio and the video of the TV itself can be measured. However, this lip-sync test method is specific to CRT TVs. This is because the CRT TV's final output to the oscilloscope is an analog signal, but for TVs such as LCD, DLP, and PDP products, the final output is a digital signal. Since the final output is digitally processed, it cannot catch analog signals, and even if the delay time is measured from the digital signal, the delay time can be generated to realize the image quality after being converted to digital. There is a lot of irrationality to check the delay time of the video and audio.

An object of the present invention is to provide a technical solution capable of a lip sync test regardless of the type of display device.

The lip sync test method according to an aspect of the present invention for achieving the above object is a video signal and audio generated from a recording device that is reproduced in a playback device for reproducing the lip sync test signal to obtain an image and audio output through a specific TV Measure the delay time (A) between the signals. Then, the delay time B between the video signal and the audio signal output from the photographing apparatus which acquires the image and the audio outputted through the display apparatus to be reproduced and tested for lip sync is measured. Next, the delay time C of the display device itself, which is the difference between the measured delay time B and the delay time A, is calculated.

According to this aspect of the present invention, since the lip-sync test method according to the present invention provides a technical solution using a photographing apparatus such as a camcorder, even in the case of digital products such as LCD, DLP, PDP, the video signal and the audio signal itself have The delay time of the liver can be easily measured.

The foregoing and further aspects of the present invention will become more apparent through the preferred embodiments described with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail to enable those skilled in the art to easily understand and reproduce the present invention.

2 is a block diagram illustrating a hardware configuration for realizing a lip sync test method according to an exemplary embodiment of the present invention. The reproduction device 100 may be, for example, a DVD player, and reproduces and outputs a Lip_sync test signal used for measuring a delay time between a video signal and an audio signal. Here, the Lip_sync test signal refers to a pair of video and audio signals. The video signal may be, for example, an image signal having a white pattern, and the Lip_sync test signal may be output periodically (for example, at intervals of 1 second) for a test.

The TV Modulator & Channel Converter 200 is a known configuration that modulates the Lip_sync test signal and adjusts the channel and signal strength so that the TV can receive the antenna input as an RF signal.

The display device 300 may be a device such as an LCD, a DLP, or a PDP as well as a CRT TV. The photographing apparatus 400 is an apparatus capable of obtaining an image screen and an audio output from the display apparatus 300 to the outside, and may be, for example, a camcorder. The oscilloscope 500 is a device that draws an electrical signal on the screen, and shows the change of the signal with the change of time. Such devices are all well-known configurations, and thus detailed descriptions are omitted.

Hereinafter, a lip sync test method for measuring a delay time between a video signal and an audio signal of the display device itself according to the present invention using such hardware configurations will be described with reference to FIGS. 2 and 3. 3 is a flowchart illustrating a lip sync test method according to a preferred embodiment of the present invention.

According to the flowchart of FIG. 3 according to an embodiment, first, the display apparatus 300 of FIG. 2 should be a specific TV. Certain TVs must be TVs that do not generate their own delay time. In general, a number of chips are currently used for realizing high image quality of a TV. These chips cause the TV to produce a delay time for the video signal. Thus, a particular TV must be a limited TV, with no chips used to generate the delay time of the video signal. In the case of audio signals, there are also devices or chips that generate a delay time, which must be a TV in which these devices or chips are not used. Thus, a particular TV to avoid delay time could be, for example, a simple product CRT TV with no function. The reason for this is a condition for calculating the delay time C of the display apparatus 300 itself, which will be demonstrated below.

When a specific TV is connected to the TV modulator / channel converter 200, the Lip_sync test signal stored in the reproduction device 100 is reproduced. The video signals CVBS and the audio signals L and R, which are Lip_sync signals reproduced and output from the reproduction apparatus 100, are modulated by the TV modulator 200 and output as RF signals through the channel converter 200. The output RF signal is input to a specific TV through an antenna cable. For example, a specific TV, which is a CRT TV, processes an RF signal and outputs video and audio through a cathode output (RGB signal output) and a speaker output, which are final outputs. Output

The photographing apparatus 400 acquires and processes the final image and audio output from a specific TV, and outputs a video signal CVBS and an audio signal through the video terminal and the audio terminal. It can be seen that the output video signal CVBS and the audio signal have the waveform shown in FIG. 4 through the oscilloscope 500, and the delay time A is measured from the two waveforms. As shown in the drawing, it is possible to obtain a result that the audio signal is 55.89 ms faster than the video signal. The measured delay time A, 55.89 ms, is the sum of the delay time of the source itself, which is the lip sync test signal output from the reproduction device 100, and the delay time of the imaging device 400.

Next, the display device 300 of FIG. 2 is changed to a digital TV product such as a PDP or LCD to be lip-synced and connected. When the display device 300 to be lip-synced is connected to the TV modulator / channel converter 200, the Lip_sync test signal stored in the reproduction device 100 is reproduced. The video signal CVBS and the audio signal, which are Lip_sync signals reproduced and output from the reproduction device 100, are modulated by the TV modulator 200 and output as RF signals through the channel converter 200. The output RF signal is input to the display apparatus 300 through an antenna cable, and the display apparatus 300 outputs an image and an audio by processing the RF signal.

The photographing apparatus 400 obtains and processes the final image and audio output from the display apparatus 300, and outputs a video signal CVBS and an audio signal through the video terminal and the audio terminal. It can be seen that the output video signal CVBS and the audio signal have a waveform as shown in FIG. 5 through the oscilloscope 500, and the delay time B is measured from the two waveforms. For reference, as described above, the delay time A is measured after the delay time A is measured. However, the present invention is not limited thereto, and the delay time A may be measured after the delay time B is measured.

As shown, the measurement result can obtain a result that the audio signal is 62.158ms faster than the video signal. The measured delay time (B) of 62.158 ms is a delay time of the source itself, which is a lip sync test signal output from the playback device 100, a delay time of the imaging device 400, and a display device ( 300 is the sum of the delay times.

When the delay time (A) and the delay time (B) are measured, the delay time (C) of the display device 300 itself is finally calculated through the difference between the measured delay time (B) and the delay time (A). Can be. The calculation of the delay time C can be made, for example, in a PC (not shown) connected to the oscilloscope 500. That is, the PC acquires the delay time A and the delay time B measured by the oscilloscope 500 and calculates the delay time C of the display apparatus 300 through the difference between the two values. The delay time C according to the calculation result is 6.268 ms, which is limited to 55.89 ms from 62.158 ms, and consequently, the display device 300 may obtain a result that the audio signal has a delay time that is 6.268 ms faster than the video signal.

As described above, the lip sync test method according to the present invention provides a technical solution using a photographing device such as a camcorder capable of acquiring analog video / audio output from a display device. Even in this case, the delay time between the video signal and the audio signal can be easily obtained.

On the other hand, the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

Claims (3)

delete delete In the Lip_sync Test method for measuring a delay time between a video signal and an audio signal of a TV, the method includes: The video and audio are finally output through a specific TV that is reproduced by a playback device that reproduces the lip sync test signal and does not cause a delay time between the video signal and the audio signal, and is output from the photographing device that acquires the final output video and audio. Measuring a delay time A between the video signal and the audio signal; The video and audio are finally output through the TV to be reproduced by the reproducing apparatus to test the lip sync, and the delay time (B) between the video signal and the audio signal output from the photographing apparatus that acquires the final output video and audio is measured. Making a step; Calculating a delay time (C) of the TV to be lip-synced by obtaining a difference between the delay time (B) and the delay time (A); Lip sync test method comprising a.

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