KR101090063B1 - Display apparatus and control mehtod thereof - Google Patents

Abstract

According to an aspect of the present invention, a display apparatus includes: a signal input unit configured to receive an image signal including analog image information and analog additional information; An additional information processor configured to convert the analog additional information into digital additional information based on a predetermined reference voltage level; And a controller for testing whether the image signal is distorted and the degree of distortion using the test signal included in the analog additional information, and adjusting the reference voltage level of the additional information processor in response to the degree of distortion. As a result, since the additional information is processed according to the degree of distortion in the process of transmitting the video signal, the error rate can be lowered.

Description

DISPLAY APPARATUS AND CONTROL MEHTOD THEREOF}

1 is a control block diagram of a display apparatus according to the present embodiment,

2 is a flowchart illustrating a control process of the display apparatus according to the present embodiment.

Explanation of symbols on the main parts of the drawings

10: signal input unit 20: signal processing unit

21: analog-to-digital converter 23: image information processing unit

25: additional information processing unit 30: display unit

40: control unit

The present invention relates to a display apparatus and a control method thereof, and more particularly, to a display apparatus for receiving and displaying additional information and a control method thereof.

In general, a display device such as a TV receives a video signal containing a predetermined video from a broadcasting station or a connected external device, processes it, and displays the same. In addition, the display device is used for various purposes including watching a broadcast program at home.

In addition, the display apparatus may receive and display an image signal including additional information such as text broadcasting information, in addition to image information for displaying an image. In this case, the additional information is inserted and received in a vertical blanking interval (BVI) of the video signal. The display apparatus extracts additional information included in the video signal, converts the additional information into digital additional information by using a reference voltage level preset in a register, and the like. Then, it is inserted into the vertical retrace section of the processed video signal to be displayed on the screen.

However, the conventional display apparatus has a fixed reference voltage level, and thus, if normal additional information is not input, the additional information may not be properly processed and an error may occur.

That is, when the overall size of the input image signal is smaller than the reference level or the level of the signal line including the input additional information is not 0, the additional information is not converted into the digital additional information and an error occurs.

Accordingly, it is an object of the present invention to provide a display apparatus and a control method thereof capable of accurately processing additional information based on the degree of distortion in the process of receiving an image signal.

According to an aspect of the present invention, there is provided a display apparatus comprising: a signal input unit configured to receive an image signal including analog image information and analog additional information; An additional information processor configured to convert the analog additional information into digital additional information based on a predetermined reference voltage level; And a controller for testing whether the image signal is distorted and the degree of distortion by using the test signal included in the analog additional information, and adjusting the reference voltage level of the additional information processor in response to the distortion degree. Is achieved by a display device.

Herein, the controller compares whether the voltage level for each frequency of the test signal coincides with a reference voltage level, and tests whether the image signal is distorted and the degree of distortion.

The controller may reduce the reference voltage level if the voltage level is less than the reference voltage level, and increase the reference voltage level if the voltage level is greater than the reference voltage level.

Meanwhile, according to the present invention, there is provided a control method of a display apparatus, the method comprising: inputting an image signal including analog image information and analog additional information; Testing whether the video signal is distorted and the degree of distortion by using a test signal that tests whether the video signal is distorted during transmission; And adjusting a reference voltage level for converting the analog additional information into digital additional information in proportion to the distortion degree.

The testing of the distortion and the degree of distortion of the video signal may include comparing a voltage level for each frequency of the test signal with a reference voltage level, and if the voltage level is less than the reference voltage level, the reference voltage level. And reducing the reference voltage level and increasing the reference voltage level if the voltage level is greater than the reference voltage level.

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

1 is a control block diagram of a display apparatus according to an embodiment of the present invention. As shown in FIG. 1, the display apparatus includes a signal input unit 10, a signal processor 20, a display unit 30, a user selector, and a controller 40.

The signal input unit 10 according to the present invention receives a video signal, and may include a tuner unit (not shown) for receiving a broadcast signal and an external connection terminal (not shown) for receiving a video signal from an external device. . Hereinafter, the video signal according to the present invention will be described as an example of an analog video signal including analog video information and analog additional information.

The tuner unit (not shown) may be implemented with one or more tuners, a demodulator, a decoder, a mux, etc. that demodulate the tuned signal. Then, the broadcast signal having a frequency band corresponding to the tuning control signal of the controller 40 to be described later is tuned. The broadcast signal of the tuned channel is received in a form including a video signal and an audio signal.

In addition, the external connection terminal (not shown) preferably includes a connector of various types so that video signals of various formats can be input. For example, the signal input unit 10 may include an S-video connector or a composite connector for receiving an image signal.

The signal processor 20 processes the video signal input from the signal input unit 10 under the control of the controller 40 to be described later, and provides the image signal to be displayed on the display unit 30. As shown in FIG. 1, the signal processor 20 according to the present exemplary embodiment includes an analog-digital converter 21, an image information processor 23, and an additional information processor 25.

The analog-digital converter 21 converts an analog video signal including video information and additional information into a digital video signal. At this time, the analog-to-digital converter 21 converts the image information into digital image information and provides it to the image information processing unit 23.

The image information processor 23 processes digital image information, and various functions may be added to correspond to a format of an input image signal. For example, the image information may be divided into a luminance signal and a color signal, and a function of adjusting an offset of the processed image information may be included.

In addition, the image information processor 23 receives a digital image signal and / or an analog image signal, and adjusts a vertical frequency, a resolution, an aspect ratio, etc. according to an output standard of the display unit 30, and a predetermined format conversion function. It may include.

The additional information processor 25 extracts and processes additional information from a vertical blanking interval (VBI) of the digital video signal converted by the analog-digital converter 21.

Here, the vertical retrace section refers to a section in which video information of a video signal is not included. In general, the video signal is composed of a total of 525 lines, of which the odd-numbered lines are scanned to form the first field, and the even-numbered lines are scanned to form the second field to form one frame. At this time, there are empty spaces in which 20 or 21 lines do not include a video signal between the first field and the second field, and additional information is included in this section. The additional information may include a test signal (VITS) in a vertical period, a still picture broadcasting signal, a caption data signal, and the like.

In addition, the additional information processing unit 25 converts the additional information extracted in the vertical retrace section to digital additional information based on the reference voltage level. In this way, the conversion of the additional information into digital additional information is called data slicing, and the sliced additional information is inserted into the vertical retrace section of the image signal processed by the image information processing unit 23.

Here, the reference voltage level that is used as a reference for slicing the additional information by the additional information processing unit 25 is a voltage of a frequency in a clock-run-in area (hereinafter, referred to as 'CRI') included in the additional information. Can be set by level. That is, assuming that the video signal is normally transmitted without distortion, the intermediate point of the voltage level of the frequency of the CRI region is set as the reference voltage level. In addition, the set reference voltage level may be stored in a register (not shown).

For example, the voltage level of the CRI region of closed caption data, which is one of the additional information included in the NTSC video signal, is 0.5 MHz, and the CRI of the WSS data, which is one of the additional information included in the PAL video signal. The voltage level in the area is 5 MHz, each voltage level is 50 IRE, and the reference voltage level is 25 IRE. However, the conventional display apparatus cannot detect whether or not the frequency of the CRI region is distorted, and the reference voltage level is fixed, so that when the image signal is distorted during transmission, additional information cannot be properly sliced.

The display unit 30 displays an image signal processed by the signal processor 20, and may be implemented in various types such as digital light processing (DLP), liquid crystal display (LCD), plasma display panel (PDP), and the like. .

The controller 40 determines whether the image signal is distorted and adjusts the reference voltage level of the additional information processor 25 based on the determination result. The controller 40 may be implemented as a controller such as a CPU or a microcomputer.

In detail, the controller 40 determines whether there is a distortion in the process of transmitting the video signal using the test signal. Here, the test signal is a test signal (VITS) in the vertical section that is included in the vertical retrace section of the video signal to monitor gain and frequency characteristics of the transmission path.

The test signal includes a multi-burst signal, and the multi-burst signal has a frequency step by step. For example, in the case of the NTSC video signal, the frequency of the test signal is 0.5, 1.25, 2, 3.58, 4.2MHz in stages, and in the case of the PAL video signal, the frequency of the test signal is 0.5, 1, 2, 4, 4.8, and 5.2 MHz. And, the test signal has a voltage level according to the frequency step by step, and if the video signal is not distorted during transmission, the voltage level according to the frequency is the same as the reference voltage level according to the standard.

Accordingly, the controller 40 may compare the voltage level of the frequency step by step of the test signal with a predetermined reference voltage level, and determine whether or not the distortion of the image signal is in the transmission process.

At this time, the controller 40 compares whether the voltage level of the frequency of the test signal equal to the frequency of the CRI region of the additional information is equal to the reference voltage level. For example, when the video signal is NTSC, the voltage level when the test signal is 0.5MHz is compared with the reference voltage level. In the PAL method, the voltage level when the test signal is 5MHz is compared with the reference voltage level.

If the voltage level of the frequency is not equal to the reference voltage level, the controller 40 determines that the video signal is distorted. Then, the degree of distortion is calculated, and the reference voltage level of the additional information processor 25 is adjusted in accordance with the degree of distortion.

For example, in the case of an NTSC video signal in which the reference voltage level is set to 50 IRE, the voltage level of the test signal is attenuated by 10% compared to the reference voltage level. The controller 40 determines that the image signal is distorted during transmission, and adjusts the reference voltage level. That is, the reference voltage level is adjusted to 22.5 IRE, which is an intermediate level of 45 IRE that is reduced by 10% at 50 IRE.

Through this, the degree of distortion in the process of transmitting the video signal can be identified, the additional information is processed correctly, and the error rate can be lowered.

The control method of the display apparatus according to the embodiment of the present invention described above will be described using the flowchart of FIG. 2.

As shown in FIG. 2, when an image signal including image information and additional information is input (S1), a test signal included in the additional information is used to test whether the image signal is distorted and the degree of distortion in the process of transmitting the image signal. (S2).

As described above, the test signal is a test signal (VITS) in the vertical section for monitoring gain and frequency characteristics of the transmission path included in the additional information, and compares whether the voltage level of the frequency of the test signal is equal to the reference voltage level. .

When the voltage level of the test signal is not the same as the reference voltage level, it is determined that the image signal is distorted in the transmission process (S5).

Then, the additional information processing unit 25 adjusts the reference voltage level for slicing the additional information based on the distortion degree (S7).

Then, the sliced additional information is inserted into the vertical retrace section of the image information processed by the image information processing unit 23 (S9).

Then, the processed video signal is displayed (S11).

Through this, the degree of distortion in the process of transmitting the video signal can be identified, the additional information is processed correctly, and the error rate can be lowered.

Although some embodiments of the invention have been shown and described, it will be apparent to those skilled in the art that modifications may be made to the embodiment without departing from the spirit or spirit of the invention. . It is intended that the scope of the invention be defined by the claims appended hereto and their equivalents.

As described above, according to the present invention, there is provided a display apparatus and a method of controlling the same, which determine the degree of distortion in the process of transmitting the video signal, accurately process additional information, and lower the error rate.

Claims (5)

In the display device, A signal input unit configured to receive an image signal including analog image information and analog additional information; An additional information processor configured to convert the analog additional information into digital additional information based on a predetermined reference voltage level; And a controller for testing whether the image signal is distorted and the degree of distortion by using the test signal included in the analog additional information, and adjusting the reference voltage level of the additional information processor in response to the distortion degree. Display device. The method of claim 1, And the control unit compares whether the voltage level for each frequency of the test signal coincides with a reference voltage level, and tests whether the image signal is distorted and the degree of distortion. 3. The method of claim 2, And the control unit decreases the reference voltage level when the voltage level is less than the reference voltage level, and increases the reference voltage level when the voltage level is greater than the reference voltage level. In the control method of the display device, Inputting a video signal including analog video information and analog additional information; Testing whether the video signal is distorted and the degree of distortion by using a test signal that tests whether the video signal is distorted during transmission; And adjusting a reference voltage level for converting the analog additional information into digital additional information in proportion to the distortion degree. 5. The method of claim 4, The testing of the distortion and the degree of distortion of the video signal, Comparing the voltage level for each frequency of the test signal with a reference voltage level; And reducing the reference voltage level if the voltage level is less than the reference voltage level, and increasing the reference voltage level if the voltage level is greater than the reference voltage level.

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