KR100720341B1 - Display apparatus - Google Patents

Abstract

The present invention relates to a display apparatus including a display unit for displaying an image. According to an aspect of the present invention, there is provided a display apparatus including: a display configured to display an image, the display apparatus comprising: a sensing unit configured to sense an external brightness; A video signal processor converting the input video signal into a format displayable on the display unit and outputting the converted video signal; A user input unit for designating an arbitrary region in the image displayed on the display unit; Based on the result detected by the sensing unit, to display an image according to a predetermined brightness corresponding to the external brightness on the display unit, the brightness of the user-designated area designated by the user input unit of the displayed image is designated And a controller for controlling the image signal processor to maintain a luminance different from that of the remaining non-regions. Accordingly, there is provided a display apparatus capable of implementing an automatic brightness detection system (IBS) that automatically adjusts the brightness of an image according to external brightness.

Description

Display device {DISPLAY APPARATUS}

1 is a control block diagram of a display device in which an automatic brightness detection system (IBS) according to the related art is implemented.

2 is a control block diagram of a display device in which an automatic brightness detection system (IBS) according to the present invention is implemented,

3 is an exemplary view of a display device according to a preferred embodiment of the present invention.

Description of the main parts of the drawing

10: light sensor 20: microcomputer

30: video signal processor 31: first video signal processor

32: second video signal processor 33: synthesizer

40: display unit 41: user designated area

42: OSD Cursor 43: OSD Menu

50: user input unit 51: OSD cursor selection button

52: direction button 53: reservoir button

54: OSD Menu Selection Button 60: OSD Generator

The present invention relates to a display device including a display unit for displaying an image, and more particularly, to an automatic brightness detection system (IBS) for automatically adjusting the brightness of an image displayed on a display unit according to an external brightness. It relates to a display device for implementing the.

The display apparatus processes an image signal input from the outside and displays the image on the screen. Such a display device includes a monitor connected to a computer and having a main function of processing a video signal from the computer and displaying the image on a screen, and a television having a main function of processing a broadcast signal and displaying the image on a screen. Etc.

In recent years, in order to meet various demands of users, display devices are becoming artificially intelligent to automatically respond to external environments. In accordance with this trend, display apparatuses having an automatic brightness detection system (IBS) that realizes a dark or bright brightness of an image displayed on the display apparatus automatically according to external brightness are commercially available.

Referring to FIG. 1, a display device having a conventional automatic brightness detection system (IBS) is described. The display device is driven to display an image on the display unit 4 and the optical sensor 1 for detecting external brightness. An inverter 3 that provides a voltage and a microcomputer that controls the voltage of the inverter 3 to adjust the brightness of the image displayed on the display unit 4 according to the external brightness detected by the optical sensor 1 ( It is composed of 2). For example, when the brightness of the outside becomes dark, the microcomputer 2 reduces the voltage of the inverter 3 so that the image displayed on the display unit 4 becomes dark.

However, since the display device controls only the height of the voltage of the inverter 3 in order to operate the automatic brightness detection system IBS, the brightness of the image displayed on the display unit 4 can only be adjusted as a whole. For this reason, the conventional display apparatus has a problem in that luminance cannot be separately adjusted for only a part of an image. That is, when the user watches TV while the indoor light is turned off late at night, when the IBS operates, the image displayed on the display unit 4 becomes dark. At this time, if the user wants to brightly view only a part of the image displayed on the display unit 4, there is a problem that only the brightness of the partial area cannot be changed.

Accordingly, an object of the present invention is to implement an intelligent brightness system (IBS) to control the image signal processing unit according to the external brightness, to automatically adjust the brightness of the image displayed on the display, such automatic When the brightness of the image is adjusted by the brightness detection system (IBS) to provide a display device that can separately control the luminance of a portion of the image.

According to an aspect of the present invention, there is provided a display apparatus including a display unit for displaying an image, the display unit comprising: a sensing unit sensing an external brightness; A video signal processor converting the input video signal into a format displayable on the display unit and outputting the converted video signal; A user input unit for designating an arbitrary region in the image displayed on the display unit; based on a result detected by the detection unit, to display an image according to a predetermined brightness corresponding to an external brightness on the display unit; And a controller configured to control the image signal processor to maintain a luminance different from that of the remaining region where the luminance of the user-designated region designated by the user input unit is different from the displayed image. Can be achieved.

The user input unit may further include a brightness controller for adjusting the brightness of the user designated area among the images displayed on the display unit; The controller may control the image signal processor to display an image according to luminance corresponding to a state adjusted by the luminance controller.

delete

delete

The video signal processor includes at least one first video signal processor, a second video signal processor, and a synthesizer; The controller controls the first image signal processor to adjust the brightness of the user designated area among the images displayed on the display, and controls the second image signal processor to adjust the brightness of the remaining areas other than the user designated area. The synthesizer may be configured to synthesize data processed by the first image signal processor and the second image signal processor.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 2 and 3.

As shown in FIG. 2 and FIG. 3, the display device according to an exemplary embodiment of the present invention includes a display unit 40 for displaying an image, an optical sensor 10 for sensing external brightness, and an OSD cursor 42. And the OSD generator 60 for generating a signal for the OSD menu, the user input unit 50 for designating an arbitrary region on the screen of the display unit 40 and adjusting the luminance of the region, and the input image. On the basis of the detected result of the image signal processing unit 30 and the optical sensor 10 to process the signal in a format that can be displayed on the display unit 40, the image according to the predetermined brightness corresponding to the external brightness The microcomputer 20 controls the image signal processor 30 to be displayed on the display 40.

The display unit 40 displays an image on the screen by the signal converted by the image signal processing unit 30. The display unit 40 may be provided in any one of a color ray tube (CRT), a liquid crystal display (LCD), a plasma display panel (PDP), and may be provided in another display method in which an image is displayed. have.

The optical sensor 10 transmits a voltage corresponding to the external brightness to the microcomputer 20. That is, a voltage proportional to the amount of light per unit time is output to the microcomputer 20.

The OSD generator 60 generates a signal for displaying the OSD cursor 42 and the OSD menu 43 on the display 40, and outputs the signal to the image signal processor 30. Here, the OSD generator 60 shows a separate configuration from the image signal processor 30, but this is only an example. That is, the OSD generator 60 may be included in the image signal processor 30.

When the user designates a partial region of the image displayed on the display 40 and adjusts the luminance of the partial region, the user input unit 50 transmits corresponding information to the microcomputer 20.

Here, the user input unit 50 may be provided as a remote control that can be operated from a long distance as shown in FIG. The user input unit 50 adjusts the position and size of the user designated area 41 by using the OSD cursor select button 51 for displaying the OSD cursor 42 for designating a partial region and the OSD cursor 42. OSD button selection for selecting the OSD menu 43, direction button 52 for storing, position information adjusted through the direction button 52, storage button 53 for storing and erasing size information, and OSD menu 43 Button 74.

The video signal processing unit 30 converts the video signal input from the outside into a format that can be displayed on the display unit 40 under the control of the microcomputer 20 and outputs it.

Here, the image signal processor 30 scales the digital signal input from the A / D converter and the A / D converter to convert the input video signal into digital R, G, B signals and digital luminance (Y signal) signals. It may include a scaler for adjusting the resolution, aspect ratio, brightness, sharpness, etc. to match the output standard of the display unit 40.

The image signal processing unit 30 includes a first image signal processing unit 31 and a second image signal processing unit 32 which respectively convert input image signals into a format that can be displayed on the display unit 40. And a synthesizer 33 for synthesizing the respective video signal data processed by the first video signal processor 31 and the second video signal processor 32 and outputting the synthesized video signal data to the display unit 40.

Here, the image signal processor 30 shows a configuration including the first image signal processor 31 and the second image signal processor 32, but this is only an example. In other words, the image signal processor 30 may be configured to include a plurality of image signal processors such as a third image signal processor or a fourth image signal processor.

The microcomputer 20 controls the image signal processor 30 to display an image according to a predetermined brightness corresponding to the external brightness on the display unit 40 based on the result detected by the optical sensor 10. Perform an automatic brightness detection system (IBS).

Specifically, the microcomputer 20 controls the first video signal processor 31 and the second video signal processor 32 to process the same video signal. The microcomputer 20 includes information of the first luminance variable corresponding to the external brightness in the microcomputer 20 in advance and maintains the luminance of the image corresponding to the information of the first luminance variable. 31).

Here, the microcomputer 20 may display the image signal data processed by the first image signal processor 31 among the image signal data processed by the first image signal processor 31 and the second image signal processor 32. The combining unit 33 is controlled to be displayed on (). As a result, the image of the brightness automatically adjusted according to the external brightness is displayed on the display unit 40.

In addition to setting the first luminance variable in advance in the manufacturing process of the display device according to the present invention, the microcomputer 20 may be adjusted by the user through the OSD menu selection button 54 and the OSD menu 43 of the user input unit 50. Can be controlled.

That is, when the OSD menu selection button 54 is selected, the microcomputer 20 controls the OSD generator 60 and the image signal processor 30 so that the corresponding OSD menu 43 is displayed on the display 40. When the user operates the direction button 52 through the OSD menu 43, the microcomputer 20 sets the first luminance variable to correspond to this manipulated state. The microcomputer 20 controls the first image signal processor 31 to maintain the luminance corresponding to the first luminance variable set above.

On the other hand, the microcomputer 20 of the image displayed on the display unit 40, the brightness of the user-designated area 41 input through the user input unit 50 is different from the brightness of the remaining area other than the user-designated area 41 The image signal processing unit 30 is controlled to maintain.

Specifically, first, when the OSD cursor selection button 51 is selected, the microcomputer controls the OSD generator 60 and the image signal processor 30 to display the OSD cursor 42 on the display unit 40 in response to the selection. . And when the user operates the direction button 52 while viewing the displayed OSD cursor 42, the microcomputer 20 detects the information of the user-designated area 41 corresponding to the manipulated state, the storage button 53 ) Is selected, the information of the user designated area 41 is stored correspondingly.

Here, the microcomputer 20 controls the brightness of the user designated area 41 by using the information of the user designated area 41 stored above. In other words, the microcomputer includes information on the second luminance variable in the microcomputer 20 in which the luminance of the user specified area 41 is different from the luminance of the remaining area, and the luminance of the image corresponding to the information of the second luminance variable is adjusted. The second image signal processing unit 32 is controlled to hold. The microcomputer 20 controls the first image signal processor 31 to process the input image signal.

The microcomputer 20 synthesizes the image signal data processed by the second image signal processor 32 for the user designated area 41 and the image signal data processed by the first image signal processor 31 for the remaining areas. The synthesizer 33 is controlled to be displayed on the display 40. As a result, an image having a brightness different from that of the user designated area 41 and the brightness of the remaining area is displayed on the display unit 40.

In addition, the microcomputer 20 sets the second luminance variable in advance in the manufacturing process of the display apparatus according to the present invention, and the user adjusts the OSD through the OSD menu selection button 54 and the OSD menu 43 of the user input unit 50. It can be controlled to be possible. Here, the method of setting the second luminance variable by the user is the same as the method of setting the first luminance variable.

Hereinafter, referring to FIGS. 2 and 3, the operation of the display device according to an exemplary embodiment of the present invention will be described by way of example.

When the brightness of the outside of the display device of the present invention becomes dark, first, the optical sensor 10 detects the external brightness and outputs a corresponding voltage to the microcomputer 20.

At this time, the microcomputer 20 may display the image signal processing unit 31 to display an image according to the low luminance corresponding to the case where the external brightness becomes dark based on the detected result of the optical sensor 10 on the display unit 40. ).

That is, the microcomputer 20 controls the first video signal processing unit 31 and the second video signal processing unit 32 to process the same video signal, and displays the display unit by the information of the first luminance variable in the microcomputer 20. The first image signal processing unit 31 is controlled so that the image displayed at 40 maintains low luminance. As a result, the display unit 40 displays an image of low luminance.

Here, when the user wants to brightly watch only a part of the image displayed on the display unit 4, the user first presses the OSD cursor selection button 51 on the user input unit 50 and is displayed on the display unit 40. Invoke the OSD cursor 42 to the image, designate the user designated area 41 by using the loaded OSD cursor 42 and the direction button 52, and use the user defined area (using the reservoir button 53). The information in 41) is stored.

At this time, the microcomputer 20 sets the image signal processor 30 so that the luminance of the image corresponding to the user designated area 41 is higher than the luminance corresponding to the remaining areas according to the information of the second luminance variable in the microcomputer 20. To control. As a result, the display 40 displays the image of the user designated area 41 brighter than the image of the remaining area.

On the other hand, when the user wants to randomly change the brightness of the image corresponding to the user designated area 41, the user first presses the OSD menu button 54, the OSD menu 43 to the image displayed on the display unit 40 The brightness of an image corresponding to the user designated area 41 is changed by using the loaded OSD menu and the direction button 52.

At this time, the microcomputer 20 controls the image signal processor 30 to maintain the luminance of the image corresponding to the user designated area 41 through the user input unit 50. As a result, the display 40 displays an image corresponding to the changed luminance as described above.

As such, the display apparatus of the present invention may display the image signal processor 30 to display the image according to the predetermined brightness corresponding to the external brightness on the display unit 40 based on the detected result of the optical sensor 10. ), And the image signal processing unit 30 to display the brightness of the user designated area 41 specified through the user input unit 50 different from the brightness of the remaining unspecified area among the images displayed on the display unit 40. It characterized in that to control.

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, an automatic brightness detection system (IBS) may be implemented by controlling the image signal processor according to the external brightness to automatically adjust the brightness of the image displayed on the display unit. When the luminance of an image is adjusted by the automatic brightness detection system (IBS), a display device capable of separately controlling the luminance of a portion of the image is provided.

Claims (5)

In the display device including a display for displaying an image, A detector for detecting an external brightness; A video signal processor converting the input video signal into a format displayable on the display unit and outputting the converted video signal; A user input unit for designating an arbitrary region in the image displayed on the display unit; Based on the result detected by the sensing unit, to display an image according to a predetermined brightness corresponding to the external brightness on the display unit, the brightness of the user-designated area designated by the user input unit of the displayed image is designated And a controller configured to control the image signal processor to maintain luminance different from luminance of the remaining non-regions. delete delete The method of claim 1, The user input unit further comprises a brightness controller for adjusting the brightness of the user designated area among the images displayed on the display unit; And the control unit controls the image signal processing unit to display an image according to luminance corresponding to a state adjusted by the luminance adjusting unit on the display unit. The method of claim 1, The image signal processor comprises at least one first image signal processor, a second image signal processor, and a synthesizer; The controller controls the first image signal processor to adjust the brightness of the user designated area among the images displayed on the display, and controls the second image signal processor to adjust the brightness of the remaining areas other than the user designated area. And controlling the synthesizer to synthesize data processed by the first image signal processor and the second image signal processor.

Images