KR101163602B1 - Display device and method for driving the same - Google Patents

Abstract

The present invention is to efficiently integrate the spotlight function and the touch function, and the input image data is displayed on the display area, and in the state where the spotlight function is activated, the area touched by the user in the display area by the user contact is spotlighted. When selected as an area, a touch panel for providing the X coordinate signals and the Y coordinate signals of the spotlight area, a touch function for detecting the position information of the spotlight area by the provided X coordinate signals and the Y coordinate signals, and the displayed image A display apparatus including an integrated board for identifying spotlight image data corresponding to the position information of the spotlight area among the data, and performing a spotlight function of highlighting by changing the brightness of the spotlight image data according to preset brightness control information. And it provides a driving method.

Display device, spotlight, touch panel

Description

Display device and method for driving the same

1 is a block diagram of a spotlight system according to the prior art.

2 is a block diagram of a touch system according to the prior art.

3 is a schematic structural diagram of a display apparatus according to an embodiment of the present invention.

4 is a schematic structural diagram of a display apparatus according to another embodiment of the present invention.

5 is a configuration diagram of a touch controller according to an embodiment of the present invention.

6 is a configuration diagram of an image processor according to an embodiment of the present invention.

7 is a flowchart illustrating a method of driving a display apparatus according to an exemplary embodiment.

DESCRIPTION OF THE REFERENCE NUMERALS (S)

100: touch panel 101: display panel

102: touch sensor 110, 130: integrated board

111, 131: touch controller 112: input / output interface

113, 132: Image processor 120: System main body

The present invention relates to a display device and a driving method thereof, and more particularly, to a display device and a method of driving the display device is implemented.

In general, the spotlight function is a function of selecting a certain area on the screen in the display device and increasing the luminance of the selected area.

FIG. 1 is a schematic diagram of a spotlight system according to the related art, and shows a schematic configuration of a system for performing a spotlight function of increasing luminance of a spotlight region RS selected by a user.

Referring to FIG. 1, a conventional spotlight system includes a display panel 10, a spotlight control board 20, and a system main body 30.

First, a user manipulates an input device such as a mouse connected to the system main body 30 to select the spotlight area RS among the image data IMG displayed on the display area on the display panel 10.

When the position information (X, Y) of the spotlight area RS selected from the system main body 30 is transmitted to the spotlight control board 20, the image processor 21 transmits it through a separate input interface 22. And converts the brightness of the spotlight area RS. The position information X and Y of the spotlight area RS are data for specifying specific coordinate values such as upper left, lower left, upper right and lower right coordinates when the spotlight area RS forms a rectangle.

The image converted image data IMG is transmitted to the display panel 10 to reconstruct the screen.

Here, in order to obtain the positional information (X, Y) of the spotlight area RS, a separate spotlight driver program (when running in a Microsoft Windows environment) and the user arbitrarily make settings. There is a need for a visual program that provides a Graphic User Interface (GUI) to enable changes. In addition, a separate input interface 22 is provided to receive the positional information X and Y of the spotlight area RS, and again between the input interface 22 and the image processor 21 in the spotlight control board 20. Communication is performed and position information X and Y of the spotlight area RS are transmitted to the image processor 21. The image processor 21 receives positional information (X, Y) of the spotlight area (RS) and converts the data arbitrarily so as to produce brighter brightness only in the selected spotlight area (RS).

Such a conventional spotlight system receives the positional information (X, Y) of the spotlight area RS through a separate communication line from the system main body 30 to which an input device such as a mouse is connected, and selects the selected spotlight area RS. A method of processing the spotlight image data in the high luminance is used.

Therefore, there is a disadvantage in that a system dependency occurs by using a separate communication line in implementing the spotlight function, and an additional input interface 22 is required.

The touch function replaces an input device such as a mouse with a user's touch, so that the user can select input data by directly pressing or touching a button or key on the screen with a finger, for convenience of the input device, and user friendliness. It is a function to increase.

2 is a block diagram of a touch system according to the prior art.

According to the prior art, the touch system includes a touch panel 40, a touch control board 50, and a system main body 30, as shown in FIG. 2.

The touch panel 40 is configured such that the display panel 41 and the touch sensor 42 are integrated.

When the analog X coordinate signal X and Y coordinate signal Y are output from the touch sensor 42, the touch controller 51 receives the analog signal, performs analog digital converting, and then internally outputs the same. It transmits to the system main body 30 via an interface so that it can be displayed on the display panel 41.

In this case, a touch driver program for implementing a touch function in the system main body 30 is required.

As described above, when implementing the spotlight function and the touch function, although there are many similar parts in terms of an interface or a driver program for transmitting / receiving coordinates, systems for applying each function are configured differently, and different drivers It was common for programs to be installed and used.

Accordingly, an operating environment is inefficient and unnecessary and redundantly consumed, such as a separate communication line must be installed between the system main body 30 such as a personal computer or a notebook and the spotlight control board 20 or the touch control board 50, respectively. It was expensive.

Therefore, the technical problem to be achieved by the present invention is to efficiently integrate the spotlight function and the touch function, to solve the communication line problem that was used separately for the coordinate reception when using the spotlight function, and through the connection of the spotlight function and the touch function It is an object of the present invention to provide a display device that allows a user to freely set a spotlight area.

Another object of the present invention is to provide a method of driving a display device capable of efficiently driving such a display device.

Technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

According to an aspect of the present invention, a display device displays an input image data on a display area, and in a state in which a spotlight function is activated, an area in which the user contacts the display area by user contact. When selected as the spotlight area, a touch panel for providing the X coordinate signals and Y coordinate signals of the spotlight area, and a touch function for detecting the position information of the spotlight area by the provided X coordinate signals and Y coordinate signals And performing a spotlight function of checking spotlight image data corresponding to position information of the spotlight area among the displayed image data, changing the brightness of the spotlight image data according to preset luminance control information, and highlighting the spotlight image data. Characterized in that it comprises a board.

The integrated board transfers the touch controller to detect the position information of the spotlight area by the provided X coordinate signals and the Y coordinate signals, and transmits the position information of the spotlight area to a video card, and transmits the spotlight area from the video card. Confirming spotlight image data corresponding to the position information of the spotlight area among the displayed image data and the brightness control of the spotlight image data; The image processor may be configured to include an image processor that changes and highlights information according to the information.

The integrated board outputs a touch controller which detects the position information of the spotlight area by the provided X coordinate signals and the Y coordinate signals, and outputs the position information of the spotlight area to a video card, and from the video card to the spotlight area. Receive the brightness control information corresponding to the position information of the to check the spotlight image data corresponding to the position information of the spotlight area of the displayed image data, and the brightness of the spotlight image data to the preset brightness control information The image processor may be configured to include an image processor that changes and highlights accordingly.

The touch controller sequentially switches and receives the X coordinate signals and Y coordinate signals from the touch panel in an analog form, and the analog converting the X coordinate signals and Y coordinate signals from an analog form to a digital form. Filtering the noise of the digital converter and the X coordinate signals and the Y coordinate signals, and then combining the X coordinate signals and the Y coordinate signals based on the scale information of the display area to detect position information of the spotlight region. It is preferable to include 1 control part.

The image processor receives the spotlight image data in the form of a divided signal of a first R color signal, a first G color signal, and a first B color signal, thereby receiving a first Y brightness signal, a first U color signal, and a first V color. A color format converter for converting the signal into position; and receiving position information of the spotlight area from the touch controller; and receiving the first Y brightness signal, the first U color signal, and the first V color signal from the color format converter. A second controller configured to receive a signal, modulate the first Y brightness signal into a second Y brightness signal according to the brightness control information, and output a backlight control signal corresponding to the second Y brightness signal, and the first U color; And a color format inverse converter configured to receive a signal, a first V color signal, and the second Y brightness signal and reconvert to a second R color signal, a second G color signal, and a second B color signal. It is preferred.

In addition, according to an embodiment of the present invention, a method of driving a display apparatus includes inputting image data into a display area on a touch panel, activating a spotlight function, and displaying the display area as a user contacts the touch panel. Selecting an area within which the user touches as a spotlight area, providing X and Y coordinate signals of the spotlight area, and providing the X and Y coordinate signals of the spotlight area by the provided X and Y coordinate signals. Detecting position information, identifying spotlight image data corresponding to position information of the spotlight area among the displayed image data, and changing and highlighting the brightness of the spotlight image data according to preset luminance control information. Contains Characterized in that.

Specific details of other embodiments are included in the detailed description and the drawings. Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. Like reference numerals refer to like elements throughout.

Hereinafter, a display apparatus and a driving method thereof according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a schematic structural diagram of a display apparatus according to an embodiment of the present invention.

Referring to FIG. 3, a display device according to an embodiment of the present invention includes a touch panel 100 including a display panel 101 and a touch sensor 102, and an integrated board 110. Connected to the main body 120 implements the spotlight function and the touch function integrally.

If the touch panel 100 displays the input image data IMG on the display area, and the area in which the user contacts the display area by the user contact is selected as the spotlight area RS while the spotlight function is activated, The X coordinate signals X and the Y coordinate signals Y of the spotlight area RS are provided.

The integrated board 110 may include a touch function that detects position information X and Y of the spotlight area RS based on the X coordinate signals X and Y coordinate signals Y provided from the touch panel 100; Among the image data IMG displayed on the touch panel 100, the spotlight image data corresponding to the position information X and Y of the spotlight region RS is checked, and the luminance of the spotlight image data is set to the preset luminance control information. The Spotlight function changes accordingly and highlights.

More specifically, the integrated board 110 includes a touch controller 111, an input / output interface 112, an image processor 113, and the like.

The touch controller 111 detects position information X and Y of the spotlight area RS based on the X coordinate signals X and Y coordinate signals Y provided from the touch panel 100. That is, the X coordinate signal X and the Y coordinate signal Y supplied in an analog form are converted into a digital form, and the coordinate value is detected and output by a combination of the X coordinate signal X and the Y coordinate signal Y. Each coordinate value constitutes positional information (X, Y) of the spotlight area RS.

The input / output interface 112 transmits the positional information (X, Y) of the spotlight area RS to the video card inside the system main body 120, and transmits the positional information (X, Y) of the spotlight area RS to the positional information (X, Y) of the spotlight area RS. The luminance control information is transmitted to the image processor 113. Here, the input / output interface 112 is preferably connected to the video card inside the system main body 120 through a serial port or a universal serial bus (USB) port.

The image processor 113 checks spotlight image data corresponding to the position information X and Y of the spotlight area RS among the image data IMG displayed on the touch panel 100, and adjusts the luminance of the spotlight image data. Change and highlight according to preset luminance control information.

Here, the touch controller 111 is implemented as a micom, and the image processor 113 is implemented as a field programmable gate array (FPGA) to be used for communication between integrated circuits (ICs). It is desirable to communicate in accordance with the Inter Integrated Circuit (I2C) standard or the Serial Peripheral Interface (SPI) standard.

The touch panel 100 applies a resistive type or alternating voltage that detects a contact position pressed by pressure in a state in which a DC voltage is applied according to a method of detecting whether a contact is made by a change in current or voltage value. Capacitive type to detect contact position using capacitance coupling in one state, Electro-magnetic type to detect contact position due to voltage change under magnetic field applied Can be.

When the user selects the spotlight area RS on the touch sensor 102 integrated with the display panel 101 through a contact using a pen or a finger, the touch panel 100 belongs to the corresponding spotlight area RS. The X coordinate signal X and the Y coordinate signal Y at each point are provided.

The system main body 120 may install an integrated driving driver program that provides a graphic user interface for user convenience, thereby driving the integrated board 110 that simultaneously implements a touch function and a spotlight function.

Since the touch function and the spotlight function can be collectively controlled through one integrated board 110 and an integrated drive driver program for driving the integrated board 110, unlike the conventional method, the spotlight driver program and the touch driver program may be installed. It can eliminate the inconvenience to use.

4 is a schematic structural diagram of a display apparatus according to another embodiment of the present invention.

Referring to FIG. 4, a display device according to another embodiment of the present invention includes a touch panel 100 including a display panel 101 and a touch sensor 102, and an integrated board 130. It is connected to the 120 to integrate the spotlight function and the touch function.

In another embodiment of the present invention, the integrated board 130 includes a touch controller 131, an image processor 132, and the like.

The touch controller 131 detects position information X and Y of the spotlight area RS based on the X coordinate signals X and Y coordinate signals Y provided from the touch panel 100.

The image processor 132 outputs the position information X and Y of the spotlight area RS to the video card inside the system main body 120.

The spotlight area of the image data IMG displayed on the touch panel 100 by receiving luminance adjustment information corresponding to the position information X and Y of the spotlight area RS from the video card in the system main body 120. The spotlight image data corresponding to the positional information (X, Y) of the RS is checked, and the brightness of the spotlight image data is changed according to preset luminance control information to be highlighted.

At this time, the integrated board 130 is connected to a digital video interface (DVI; Digital Video Interface) of the video card provided in the system main body 120, and communicates in accordance with the Display Data Channel Command Interface (DDCCI) standard image data ( It is preferable to transmit / receive IMG), positional information (X, Y) and luminance adjustment information of the spotlight area RS.

In this case, as the touch function and the spotlight function such as the image data IMG and the position information X and Y of the spotlight area RS are integrated, data transmitted and received between the integrated board 130 and the system main body 120 may be Since only one communication line used in common can be sufficiently implemented, there is no need to use a separate communication line, and thus, it is possible to have advantages in all costs and system compatibility.

5 is a configuration diagram of a touch controller according to an embodiment of the present invention.

Referring to FIG. 5, the touch controllers 111 and 131 include a switching unit 141, an analog to digital converter 142, a first control unit 143, and the like.

The switching unit 141 is sequentially switched and receives the X coordinate signals X and Y coordinate signals Y from the touch panel 100 as an analog voltage.

The analog to digital converter 142 converts the X coordinate signals X and the Y coordinate signals Y from the analog form to the digital form.

The first controller 143 filters the noise of the X coordinate signals X and the Y coordinate signals Y, and then, based on the calibration information of the display area, the first control unit 143 and the X coordinate signals X and Y coordinate signals ( Y) are combined to detect the positional information (X, Y) of the spotlight area RS.

6 is a configuration diagram of an image processor according to an embodiment of the present invention.

Referring to FIG. 6, the image processors 113 and 132 include a color format converter 151, a second controller 152, a color format inverse converter 153, and the like. In FIG. 6, X1 and X2 represent examples of X coordinate signals X, and Y1 and Y2 represent examples of Y coordinate signals Y. In FIG.

The color format converter 151 receives the spotlight image data in the form of the divided signals of the first R color signal R, the first G color signal G, and the first B color signal B, and then receives the first Y brightness. The signal Y, the first U color signal U, and the first V color signal V are converted.

The second controller 152 receives the position information X and Y of the spotlight area RS from the touch controllers 111 and 131, and receives the first Y brightness signal Y and the first from the color format converter 151. 1 U color signal (U), the first V color signal (V) is received and modulates the first Y brightness signal (Y) to the second Y brightness signal (Y) according to the brightness control information, the second Y brightness A backlight control signal corresponding to the signal Y 'is output.

The backlight control signal may be installed under the touch panel 100 to control the backlight unit that emits light, and to adjust the luminance of the spotlight area RS to the second Y brightness signal Y. Modulate according to iii).

The color format inverse converter 153 receives the first U color signal U, the first V color signal V, and the second Y brightness signal Y ′ to receive the second R color signal R ′ and the second. Reconversion to the G color signal G 'and the second B color signal B'.

7 is a flowchart illustrating a method of driving a display apparatus according to an exemplary embodiment.

First, in operation S100, image data IMG is input from the system main body 120 to the touch panel 100 and displayed on the display area on the touch panel 100, and the spotlight function is activated.

Next, in operation S110, the user comes into contact with the touch panel 100 to set the spotlight area, and accordingly, the area in which the user contacts the display area is selected as the spotlight area RS.

Next, in operation S120, as the spotlight area RS is selected by user contact, the X coordinate signals X and the Y coordinate signals Y of the spotlight area RS are provided to the touch controllers 111 and 131. do.

Next, in step S130, the touch controllers 111 and 131 detect the position information X and Y of the spotlight area RS by using the received X coordinate signals X and Y coordinate signals Y. It transmits to the image processor (113, 132).

In step S130, receiving the X coordinate signals X and Y coordinate signals Y from the touch panel 100 in analog form, and providing the provided X coordinate signals X and Y coordinate signals Y in analog form. Converting to digital form, filtering the noise of the X coordinate signals (X) and Y coordinate signals (Y) and then the X coordinate signals (X) and Y based on the calibration information of the display area Detecting positional information X, Y of the spotlight area RS by combining the coordinate signals Y;

Next, in operation S140, the image processors 113 and 132 identify spotlight image data corresponding to the position information X and Y of the spotlight area RS among the image data IMG displayed on the touch panel 100. do.

Next, in operation S150, the image processors 113 and 132 change the brightness of the spotlight image data according to preset brightness control information to highlight the spotlight image data displayed in the spotlight area RS on the touch panel 100. .

In step S150, the spotlight image data is received in the form of the divided signals of the first R color signal R, the first G color signal G, and the first B color signal B, thereby receiving the first Y brightness signal Y, Converting the first U color signal U and the first V color signal V, modulating the first Y brightness signal Y into a second Y brightness signal Y ′ according to brightness control information, and Outputting a backlight control signal corresponding to the 2 Y brightness signal Y ′, the first U color signal U, the first V color signal V and the second Y brightness signal Y ′ Receiving and reconverting the second R color signal R ′, the second G color signal G ′, and the second B color signal B ′.

In this case, the brightness control information is preset to a default value or a value changed by the user and stored in the image processor 113 and 132 or stored on the system main body 120 and then activated when the spotlight function is activated. , 132).

In this way, the X coordinate signal (X) and the Y coordinate signal (Y) transmission from the touch panel 100 and the X coordinate signal (X) and Y coordinate signal to the touch panel 100 are linked by linking the touch function with the spotlight function. (Y) By establishing the reception by one communication line, the problem of the communication line with the system main body 120 required for implementing the spotlight function is solved, and the user can freely input the spotlight area (RS) through a touch function that enables intuitive input. ) Can be set.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand.

Therefore, since the embodiments described above are provided to completely inform the scope of the invention to those skilled in the art, it should be understood that they are exemplary in all respects and not limited. The invention is only defined by the scope of the claims.

The display device according to the preferred embodiment of the present invention made as described above effectively integrates the spotlight function and the touch function, thereby solving the communication line problem that is used separately for coordinate reception when the spotlight function is used, By linking the touch function, the user can freely set the spotlight area.

In addition, the driving method of the display device according to the preferred embodiment of the present invention can efficiently drive such a display device.

Claims (12)

delete When the input image data is displayed on the display area, and the area in which the user touches the display area is selected as the spotlight area by the user contact with the spotlight function activated, the X coordinate signals and the Y coordinate of the spotlight area. A touch panel providing signals; And A touch controller detecting position information of the spotlight area according to the provided X coordinate signals and Y coordinate signals; An input / output interface configured to transmit location information of the spotlight area to a video card and to transmit brightness control information corresponding to the location information of the spotlight area from the video card; And An image processor for identifying spotlight image data corresponding to position information of the spotlight area among the displayed image data, changing the brightness of the spotlight image data according to preset luminance control information, and highlighting the spotlight image data; The touch controller, A switching unit which sequentially receives the X coordinate signals and the Y coordinate signals from the touch panel in an analog form; An analog to digital converter for converting the X coordinate signals and the Y coordinate signals from an analog form to a digital form; And And filtering the noise of the X coordinate signals and the Y coordinate signals and detecting the position information of the spotlight area by combining the X coordinate signals and the Y coordinate signals based on the scale information of the display area. Display device, characterized in that. 3. The method of claim 2, The input and output interface, And a display device connected to the video card through a serial port or a universal serial bus (USB) port. When the input image data is displayed on the display area, and the area in which the user touches the display area is selected as the spotlight area by the user contact with the spotlight function activated, the X coordinate signals and the Y coordinate of the spotlight area. A touch panel providing signals; And A touch controller detecting position information of the spotlight area according to the provided X coordinate signals and Y coordinate signals; Outputting position information of the spotlight area to a video card, receiving brightness adjustment information corresponding to the position information of the spotlight area from the video card, and spotlight image data corresponding to the position information of the spotlight area among the displayed image data; An image processor configured to highlight and change the brightness of the spotlight image data according to the preset brightness control information; The touch controller, A switching unit which sequentially receives the X coordinate signals and the Y coordinate signals from the touch panel in an analog form; An analog to digital converter for converting the X coordinate signals and the Y coordinate signals from an analog form to a digital form; And And filtering the noise of the X coordinate signals and the Y coordinate signals and detecting the position information of the spotlight area by combining the X coordinate signals and the Y coordinate signals based on the scale information of the display area. Display device, characterized in that. 5. The method of claim 4, An integrated board including the touch controller and the image processor to integrally implement a touch function and a spotlight function, A display device connected to the digital video interface terminal of the video card and communicating according to a Display Data Channel Command Interface (DDCCI) standard for transmitting and receiving the image data, the position information of the spotlight area, and the brightness control information. The method according to claim 2 or 4, The touch controller and the image processor, Display device, characterized in that the communication according to the Inter Integrated Circuit (I2C) standard or Serial Peripheral Interface (SPI) standard. delete The method according to claim 2 or 4, The image processor, Receiving the spotlight image data in a divided signal form of a first R color signal, a first G color signal, and a first B color signal, and converting the spotlight image data into a first Y brightness signal, a first U color signal, and a first V color signal; A color format converter; Receive position information of the spotlight area from the touch controller, and receive the first Y brightness signal, the first U color signal, and the first V color signal from the color format converter to receive the first Y brightness signal. A second control unit modulating the second Y brightness signal according to the brightness control information and outputting a backlight control signal corresponding to the second Y brightness signal; And And a color format inverse converter configured to receive the first U color signal, the first V color signal, and the second Y brightness signal and reconvert to a second R color signal, a second G color signal, and a second B color signal. Display device characterized in that. The method according to claim 2 or 4, The touch panel, And the X coordinate signals and the Y coordinate signals of the spotlight area through at least one of a resistive film type, a capacitive type, and an electromagnetic induction type. Inputting image data into a display area on a touch panel and activating a spotlight function; Selecting a spotlight area within the display area as a spotlight area as the user contacts the touch panel; Providing X and Y coordinate signals of the spotlight region; Detecting position information of the spotlight area by the provided X coordinate signals and Y coordinate signals; Identifying spotlight image data corresponding to position information of the spotlight area among the displayed image data; And Changing the brightness of the spotlight image data according to preset brightness control information and highlighting the brightness of the spotlight image data; Detecting the position information of the spotlight area, Receiving the X coordinate signals and the Y coordinate signals in analog form from the touch panel; Converting the X coordinate signals and the Y coordinate signals from analog form to digital form; After filtering the noise of the X coordinate signals and the Y coordinate signals, detecting the position information of the spotlight area by combining the X coordinate signals and the Y coordinate signals based on the scale information of the display area. Characterized in that the driving method of the display device. delete The method of claim 10, The step of highlighting the brightness of the spotlight image data by changing the brightness according to preset brightness control information, Receiving the spotlight image data in a divided signal form of a first R color signal, a first G color signal, and a first B color signal, and converting the spotlight image data into a first Y brightness signal, a first U color signal, and a first V color signal; step; Modulating the first Y brightness signal into a second Y brightness signal according to the brightness control information, and outputting a backlight control signal corresponding to the second Y brightness signal; Receiving the first U color signal, the first V color signal, and the second Y brightness signal and reconverting to a second R color signal, a second G color signal, and a second B color signal. Method of driving a display device.

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