KR100739137B1 - Method to adjust image signal for digital television - Google Patents

Abstract

The present invention relates to a method for controlling a video signal of a digital TV, wherein the data of contrast, brightness, color intensity, and sharpness corresponding to the brightness around the digital TV are selected from the image data table corresponding to the identified input video signal and output to the user. The present invention relates to a method for adjusting a video signal of a digital TV. To this end, the present invention provides a video signal identification step of identifying the video signal input by the input terminal and the number of line counts in one frame of the video signal, a brightness detection step of detecting the brightness around the digital TV through the sensor, A data selection step of reading data of contrast, brightness, color intensity and sharpness corresponding to the brightness around the digital TV of the brightness detection step from the video data table corresponding to the video signal identified in the video signal identification step; A data application step of applying a video signal corresponding to the data selected in the selection step to the display unit.

Description

How to adjust image signal of digital TV {METHOD TO ADJUST IMAGE SIGNAL FOR DIGITAL TELEVISION}

1 is a block diagram showing the configuration of a conventional digital TV.

2 is a video data table for providing a conventional best video.

3 is a flow chart of a video signal adjusting method of the present invention.

4 is a table showing a range of line count values of an input video signal.

5 is a video data table for correcting the first group input video signals NTSC, AV1, AV2, AV3, DVD 480i, and HD-STB 480i of the present invention.

6 is a video data table for correcting a second group input video signal DVD 480p, HD-STB 480p, DVD 720p, HD-STB 720p, DVD 1080i, and HD-STB 1080i of the present invention.

7 is a video data table for correcting the third group input video signal XGA input of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

11: tuner 12: switch terminal

13 decoder 14 signal processor

15: video chroma processor 16: display unit

17: microprocessor 18: memory                 

19: sensor

The present invention relates to a method of controlling a video signal of a digital TV, and in particular, selects data of contrast, brightness, color intensity, and sharpness corresponding to brightness of a digital TV from a video data table corresponding to an identified input video signal to a user. The present invention relates to a video signal adjusting method of a digital TV that corrects an output video signal.

FIG. 1 is a block diagram illustrating a conventional digital TV. As shown in FIG. 1, a tuner 11 for tuning a signal sensed by an antenna and a switch receiving an output signal and an external input signal of the tuner 11 are illustrated. A terminal 12, a decoder 13 for receiving and decoding the output signal of the switch terminal 12, a signal processor 14 for analyzing and converting the signal decoded by the decoder 13, and the decoder ( 13) and a video chroma processor 15 for correcting color and brightness by receiving the output signal from the signal processor 14 and a display unit 16 for receiving a signal from the video chroma processor 15 and outputting an image to a user. ), A microprocessor 17 for controlling the video chroma processor 15, a memory 18 for storing data necessary for the microprocessor 17 to control the video chroma processor 15, and The sensor 19 is configured to detect the brightness of the digital TV and output the microprocessor 17.

Video signals that can be input to the switch terminal 12 are NTSC, AV1, AV2, AV3, DVD 480i, HD-STB 480i, DVD 480p, DVD 720p, DVD 1080i, HD-STB 480p, HD-STB 720p, HD- STB 1080i and XGA.

In the conventional digital TV configured as described above, the image signals inputted to the switch terminal 12 through the tuner 11 and the external input are decoded by the decoder 13 and analyzed and converted by the signal processor 14. The video chroma processor 15 receives the output signal of the signal processor 14 to correct the color of the image and outputs the image to the user through the display unit 16. The sensor 19 senses the brightness around the digital TV and outputs the signal to the microprocessor 17, and the microprocessor 17 has a contrast corresponding to the brightness around the digital TV received from the sensor 19. Data relating to brightness, color intensity and sharpness are input from the memory 18. The microprocessor 17 determines whether the video signal output to the display unit 16 by the video chroma processor 15 matches the data received from the memory 18, and if not, the microprocessor 17 stores the output video signal. Match the data input from (18).

FIG. 2 is a conventional image data table for providing an optimal image. As shown in FIG. 2, contrast, brightness, color concentration, and color for outputting an optimum image according to the brightness around the digital TV sensed by the sensor 19 are shown. Clarity is presented. When the sensor 19 detects the brightness around the digital TV at a predetermined period and transmits the brightness detected by the microprocessor 17, the microprocessor 17 corresponds to the detected brightness in the data value stored in the memory 18. By reading the data values of contrast, brightness, color density and sharpness, the image signals of the display unit 16 are gradually matched with the brightness, brightness, color density and sharpness of the data values.

Therefore, conventionally, the digital TV is used to detect the brightness of the digital TV and output an optimal image to the user.

However, in the conventional technology as described above, irrespective of the input source, if the input source is different by adjusting the output image by applying the same data value according to the brightness of the digital TV surroundings, the frequency of the frequency depends on the bandwidth contained in each source. Since the characteristics and the color appearing on the screen appear differently, there is a problem in that the optimal image cannot be output to the user.

Accordingly, the present invention devised in view of the above problems, the user selects the data of the contrast, brightness, color intensity and sharpness corresponding to the brightness around the digital TV from the image data table corresponding to the identified input video signal to the user An object of the present invention is to provide a video signal adjusting method of a digital TV that corrects an output video signal.

In order to achieve the above object, the present invention provides a video signal identification step of identifying a video signal input by the input terminal and the number of line counts in one frame of the video signal, and the brightness around the digital TV through the sensor. Read the brightness, brightness, color intensity and sharpness data corresponding to the brightness around the digital TV of the brightness detection step from the brightness detection step of detecting and the image data table corresponding to the video signal identified in the video signal identification step And a data application step of applying a video signal corresponding to the data selected in the data selection step to the display unit.

Hereinafter, with reference to Figures 3, 4, 5 and 6 attached to the operation and effect of the video signal adjustment method of the digital TV according to the present invention.

The configuration of the apparatus is the same as in the prior art, and it is operated by configuring three data tables stored in the memory 18, and adjusting the video signal.

FIG. 3 is a flowchart illustrating a method of controlling a video signal of a digital TV according to the present invention. As shown therein, a video signal identification step (ST1) of identifying a video signal inputted by an input terminal and the number of line counts in one frame of the video signal is shown. And a brightness detection step (ST2) of detecting brightness around the digital TV through a sensor, and the digital signal of the brightness detection step (ST2) in the image data table corresponding to the video signal identified in the video signal identification step (ST1). The display unit 16 displays a data selection step ST3 for reading data of contrast, brightness, color intensity, and sharpness corresponding to the brightness around the TV, and an image signal corresponding to the data selected in the data selection step ST3. A data application step (ST4) to be applied to the operation.

The video signal input in the video signal identification step may be classified into three types according to the bandwidth of the signal. NTSC, AV1, AV2, AV3, DVD 480i, HD-STB 480i as the first group, DVD 480p, HD-STB 480p, DVD 720p, HD-STB 720p, DVD 1080i, HD-STB 1080i as the second group, The third group is divided into XGA input.

In the video signal identification step, the video signals input by the three groups of video signals are identified by NTSC, DVD, HD-STB, AV, and XGA. Identification of DVD 480p, DVD 720p and DVD 1080i and identification of HD-STB 480i and HD-STB 480p, HD-STB 720p and HD-STB 1080i are identified by the number of line counts in one frame of the video signal.

In addition, in the data selection step, the image data table is a value stored in a memory and has respective data values in order to correct video signals of each group in the three groups.

In the method of controlling the video signal of the present invention as described above, the video signals input to the switch terminal 12 through the tuner 11 and the external input are decoded by the decoder 13 and analyzed by the signal processor 14. Is converted. The video chroma processor 15 receives the output signal of the signal processor 14 to correct the color of the image and outputs the image to the user through the display unit 16.

In addition, the sensor 19 senses the brightness around the digital TV and outputs the signal to the microprocessor 17. The microprocessor 17 which receives the output signal of the video chroma processor 15 identifies the type of the input video signal and reads the video data value of the video data table corresponding to the video signal from the memory 18. . The microprocessor 17 outputs data regarding contrast, brightness, color intensity, and sharpness corresponding to the brightness of the digital TV periphery sensed by the sensor 19 in the image data table to the video chroma processor 15. . The microprocessor 17 compares the image data value received from the memory 18 with the signal output to the display unit 16, and if the image data is not matched, the microprocessor 17 receives the image data received from the memory 18. Match the value.

4 is a table showing a range of line count values of an input video signal. As shown in FIG. 4, a signal may be identified by the number of line counts in one frame of the video signal.

FIG. 5 is a video data table for correcting the first group input video signals NTSC, AV1, AV2, AV3, DVD 480i, and HD-STB 480i of the present invention. As shown in FIG. Contrast, brightness, color intensity, and sharpness are shown to output optimal images according to the brightness. When the sensor 19 detects the brightness around the digital TV at a predetermined period and transmits the brightness detected by the microprocessor 17, the microprocessor 17 corresponds to the detected brightness in the data value stored in the memory 18. By reading the data values of contrast, brightness, color density and sharpness, the image signals of the display unit 16 are gradually matched with the brightness, brightness, color density and sharpness of the data values.

6 is a video data table for correcting a second group input video signal DVD 480p, HD-STB 480p, DVD 720p, HD-STB 720p, DVD 1080i, and HD-STB 1080i according to the present invention.

7 is a video data table for correcting a third group input video signal XGA input according to the present invention.

As described in detail above, the present invention corrects an image signal output to a user by selecting data of contrast, brightness, color intensity, and sharpness corresponding to the brightness around the digital TV from the image data table corresponding to the identified input image signal. Therefore, there is an effect that can show the optimal image to the user.

Claims (1)

A video signal identification step of identifying a video signal input to the input terminal by the number of line terminals in one frame of the input signal and a video signal, a brightness detection step of detecting brightness around a digital TV through a sensor, and the video A data selection step of reading data of contrast, brightness, color intensity and sharpness corresponding to the brightness around the digital TV of the brightness detection step from the image data table corresponding to the video signal identified in the signal identification step, and the data selection step And a data applying step of applying an image signal corresponding to the data selected in the display unit to the display unit.

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