JPWO2010109598A1 - Video display device - Google Patents

Abstract

The video display device (101) of the present invention receives a video signal output from a video output device, and uses the DDC / used for transmission / reception of a command for controlling the video display device (101) by the video output device. A plurality of video input control terminals (105, 106, 107) having CI control lines, a first I2C bus slave interface (102a) and a second I2C bus slave interface (102b) for realizing an I2C bus slave function The plurality of video input control terminals (105, 106, 107) are connected to the first I2C bus slave interface via the first switch circuit (103) and the second switch circuit (104). (102a) and the second I2C bus slave interface (102b).

Description

  The present invention relates to a video display apparatus capable of various controls by a video output device such as a computer.

  The video display device can control various setting items such as contrast, brightness, sharpness, hue, color density, horizontal and vertical display positions, and power on / off depending on video output devices such as computers. There are possible configurations.

  A display data channel command interface (DDC / CI) is a video display device by a video output device by transmitting a command from the video output device to the video display device using a DDC / CI control line provided in a digital / analog RGB cable. It is a standard that enables control. For example, Japanese Patent Laid-Open No. 2000-250526 describes a technique for improving the reliability of command transmission using the DDC / CI.

  When a function defined by DDC / CI is installed in a video display device, the video display device needs to have an interface for realizing a slave function of an I2C bus (Inter-Integrated Circuit bus).

  In the video display device of the background art, the video display device includes one I2C bus slave interface, and the I2C bus slave interface is connected to a video input terminal (hereinafter referred to as video input control) including a plurality of DDC / CI control lines provided in the video display device. A configuration in which only one of them is connected or a video input control terminal connected to the I2C bus slave interface is switched by a switch circuit.

  However, in a configuration in which the I2C bus slave interface is connected only to a specific video input control terminal, the video display device cannot be controlled from a video output device that uses the video input control terminal not connected to the I2C bus slave interface.

  In the configuration in which the video input control terminal connected to the I2C bus slave interface is switched by the switch circuit, when the video input control terminal connected to the I2C bus slave interface is switched, the video output that has been connected to the video display device until then is output. Control by the device becomes impossible.

  In order to solve such a problem, for example, there may be a configuration in which I2C bus slave interfaces are provided as many as the number of video input control terminals and the I2C bus slave interfaces are connected to each video input control terminal on a one-to-one basis.

  However, in such a configuration, since it is necessary to provide a large number of I2C bus slave interfaces in the video display device, the cost of the video display device increases. Further, in a configuration that enables control from a plurality of video output devices, it is necessary to adjust so that commands from the respective video output devices do not collide, which complicates DDC / CI communication control.

  Accordingly, an object of the present invention is to provide a video display device capable of controlling various setting items from a plurality of video output devices while suppressing an increase in cost.

In order to achieve the above object, a video display device of the present invention receives a video signal output from a video output device and uses a DDC / CI used for transmission / reception of a command for controlling the video display device by the video output device. Multiple video input control terminals with control lines;
A first I2C bus slave interface and a second I2C bus slave interface for realizing a slave function of the I2C bus;
Have
The plurality of video input control terminals are connected to the first I2C bus slave interface and the second I2C bus slave interface.

FIG. 1 is a block diagram showing a configuration example of a video display apparatus according to the present invention. FIG. 2 is a block diagram illustrating a configuration example of the control unit illustrated in FIG. FIG. 3 is a table showing an example of a control function corresponding to the I2C bus slave interface. FIG. 4 is a schematic diagram illustrating an example of an OSD menu displayed on the video display device. FIG. 5 is a table showing a combination example of a video input control terminal to which a main video output device is connected and a video input control terminal or a video input terminal to which a video output device for displaying video is connected.

  Next, the present invention will be described with reference to the drawings.

  The video display device of this embodiment includes two systems of I2C bus slave interfaces and two switch circuits for switching the connection destination of each I2C bus slave interface. Then, by controlling each switch circuit, the two I2C bus slave interfaces can be connected to any of a plurality of video input control terminals provided with a DDC / CI control line.

  The video input control terminal connected to each I2C bus slave interface can be set by the user using a well-known OSD (On-Screen Display) function provided in the video display device.

  In the video output device connected to one of the two I2C bus slave interfaces, the video display device includes video adjustment such as contrast and brightness of the video display device, power on / off, selection of a terminal for displaying video, etc. Enables control of all setting items. Hereinafter, such a video output device is referred to as a main video output device.

  Of the two I2C bus slave interfaces, the other I2C bus slave interface is connected to a video output device according to the user's request, and the video output device only performs video adjustment such as contrast and brightness. enable. Hereinafter, such a video output device is referred to as a sub-video output device. Thus, by limiting the setting items that can be controlled by the sub-video output device, it is possible to prevent important setting items of the video display device from being changed from other than the main video output device.

  FIG. 1 is a block diagram showing a configuration example of the video display apparatus of the present invention, and FIG. 2 is a block diagram showing a configuration example of the control unit 102 shown in FIG. Note that FIG. 1 illustrates only a configuration example of a part related to DDC / CI among various components included in the video display device.

  As shown in FIG. 1, the video display device 101 includes a control unit 102 that executes various controls of the video display device 101 and a plurality of video input control terminals (FIG. 1) to which video signals are input, including a DDC / CI control line. 1, the first video input control terminal 105 to the third video input control terminal 107 are illustrated, and a plurality of video input terminals to which video signals are input (the first video input terminal 108 and the second video input terminal in FIG. 1). A video input terminal 109), a first switch circuit 103 and a second switch circuit 104 for switching the connection between the DDC / CI control line provided in the video input control terminal and the control unit 102, and displaying video The video output unit 111 and the video processing unit 110 that executes processing for displaying video on the video output unit 111 based on the input video signal.

  The control unit 102 is, for example, a processing device (computer) that includes a CPU that executes processing according to a program. As shown in FIG. 2, the CPU 11 and main memory that temporarily stores information necessary for the processing of the CPU 11. A device 12, a recording medium 13 on which a program for causing the CPU 11 to execute a required process is recorded, a data storage device 14 that stores various setting items of the video display device transmitted from the video output device, Memory control interface unit 15 that controls data transfer with the storage device 12, the recording medium 13, and the data storage device 14, and a switch that outputs a control signal for controlling the first switch circuit 103 and the second switch circuit 104 The first used in DDC / CI communication for receiving various commands transmitted from the control unit 102c and the video output device. And a I2C bus slave interface 102a and the second I2C bus slave interface 102b. The CPU 11, the memory control interface unit 15, the first I2C bus slave interface 102 a, the second I2C bus slave interface 102 b, and the switch control unit 102 c are connected via the bus 18.

  The control unit 102 realizes the function as the control unit 102 described below when the CPU 11 executes processing according to a program stored in the recording medium 13. The recording medium 13 may be a magnetic disk, a semiconductor memory, an optical disk, or other recording medium.

  The first video input control terminal 105, the second video input control terminal 106, and the third video input control terminal 107 are provided with a DDC / CI control line, and a video signal input from a video output device (not shown) is displayed as a video. While outputting to the process part 110, the various commands for controlling the video display apparatus 101 are transmitted / received between a video output apparatus and the video display apparatus 101 using a DDC / CI control line.

  The first video input terminal 108 and the second video input terminal 109 do not have a DDC / CI control line, and output a video signal input from a video output device (not shown) to the video processing unit 110.

  The DDC / CI control lines provided in the first video input control terminal 105 to the third video input control terminal 107 are connected to the first I2C bus slave interface 102a via the first switch circuit 103, and the second The switch circuit 104 is connected to the second I2C bus slave interface 102b.

  The switch control unit 102c controls the first switch circuit 103, whereby the first video input control terminal 105 to the third video input control terminal 107 have DDC / CI control to the first I2C bus slave interface 102a. The first video input control terminal 105 to the third video input control terminal 107 are provided to the second I2C bus slave interface 102b by connecting any one of the lines and controlling the second switch circuit 104. Connect any one of the DDC / CI control lines.

  FIG. 3 is a table showing an example of control functions corresponding to the two systems of I2C bus slave interfaces.

  The table shown in FIG. 3 is controllable by the setting items that can be controlled by the main video output device connected to the first I2C bus slave interface 102a and by the sub video output device connected by the second I2C bus slave interface 102b. Each setting item is indicated by a “re” mark.

  As shown in FIG. 3, in the video display apparatus according to the present embodiment, the control unit 102 controls the main video output device connected to the first I2C bus slave interface 102a so that contrast, brightness, sharpness, hue, color Display such as image density, display position (horizontal), display position (vertical), input terminal selection, power on / off, main control terminal selection (select video input control terminal to which main video output device is connected), setting reset, etc. Control of all setting items included in the apparatus 101 is enabled.

  On the other hand, the sub-picture output device connected to the second I2C bus slave interface 102b is used only for video adjustment such as contrast, brightness, sharpness, hue, color density, display position (horizontal), and display position (vertical). Allows control of setting items. By limiting the setting items that can be controlled by the sub-video output device in this way, for example, switching of the connection destination of the I2C bus slave interface by the sub-video output device is prevented, so that the video display device is controlled by the main video output device. Can be prevented from becoming impossible.

  In the present embodiment, the video output device connected to the first I2C bus slave interface 102a is the main video output device described above, and the video output device connected to the second I2C bus slave interface 102b is the sub output described above. The example is described as a video output device. However, the video output device connected to the first I2C bus slave interface 102a may be a main video output device, and the video output device connected to the second I2C bus slave interface 102b may be a sub video output device.

  Further, the video display device 101 shown in FIG. 1 shows a configuration example having a video input control terminal having three DDC / CI control lines and a video input terminal having no two DDC / CI control lines. The number of these video input control terminals and video input terminals may be any number.

  FIG. 4 is a schematic diagram showing an example of the OSD menu displayed on the video display device.

  A screen 201 illustrated in FIG. 4 illustrates an example of a screen for selecting which video input control terminal to set the video output device connected to the above-described main video output device. When the main video output device is selected, only the video input control terminal having the DDC / CI control line is displayed. In the example shown by the screen 201 in FIG. 4, “COMPUTER1” corresponds to the first video input control terminal 105, “COMPUTER2” corresponds to the second video input control terminal 106, and “COMPUTER3 (DIGITAL)” is the first. 3 video input control terminal 107.

  A screen 202 illustrated in FIG. 4 illustrates an example of a screen for setting which video input control terminal or video output device connected to the video input terminal is to display. When a video output device that displays video is selected, all video input control terminals and video input terminals of the video display device 101 are displayed. The user can select a desired video input control terminal or video input terminal while viewing the screen using an operation means such as a remote controller. In the example shown on the screen 202 in FIG. 4, “COMPUTER1” corresponds to the first video input control terminal 105, “COMPUTER2” corresponds to the second video input control terminal 106, and “COMPUTER3 (DIGITAL)” corresponds to the first. 3, “VIDEO” corresponds to the first video input terminal 108, and “S-VIDEO” corresponds to the second video input terminal 109.

  5 shows a video input control terminal connected to the main video output device selected by the user using the screen 201 shown in FIG. 4 and a user selected using the screen 202 shown in FIG. An example of combination with a video input control terminal or a video input terminal to which a video output device for displaying video is connected is shown.

  As described above, in the present embodiment, the video output device connected to the first I2C bus slave interface 102a is the main video output device, and the video output device connected to the second I2C bus slave interface 102b is the sub video output device. And Therefore, the control unit 102 uses the switch control unit 102c to connect the first switch circuit so as to connect the DDC / CI control line of the video input control terminal to which the main video output device is connected and the first I2C bus slave interface 102a. 103, and the second switch circuit 104 is controlled so as to connect the DDC / CI control line of the video input control terminal to which the sub-video output device is connected and the second I2C bus slave interface 102b.

  The user uses the operation means such as a remote controller to display the screen 201 shown in FIG. 4 and selects which video input control terminal is to set the video output device connected to the main video output device. The setting contents at this time are preferably saved even when the power of the video display apparatus 101 is turned off.

  Further, the user displays the screen 202 shown in FIG. 4 using an operation unit such as a remote controller, and selects which video input control terminal or video output device connected to the video input terminal is to display a video.

  For example, when the user sets the terminal (main control terminal) for connecting the main video output device to “COMPUTER1” and the terminal for connecting the video output device for video display (input terminal selection) to “COMPUTER2” (see FIG. 5 table 301), the control unit 102 controls the first switch circuit 103 by the switch control unit 102c, the DDC of the first I2C bus slave interface (I2C Slave 1) 102a and the first video input control terminal 105. / CI control line is connected. In addition, the control unit 102 controls the second switch circuit 104 by the switch control unit 102c, and the DDC / CI control line of the second I2C bus slave interface (I2C Slave 2) 102b and the second video input control terminal 106. And connect. In this case, the video output device connected to “COMPUTER2” is the sub-video output device.

  Further, when the user sets the terminal for connecting the main video output device to “COMPUTER1” and the terminal for connecting the video output device for displaying video to “VIDEO” (table 302 in FIG. 5), the control unit 102 The first switch circuit 103 is controlled by the switch control unit 102c, and the first I2C bus slave interface 102a and the DDC / CI control line of the first video input control terminal 105 are connected.

  Since no DDC / CI control line is connected to the “VIDEO” terminal, the control unit 102 controls the second switch circuit 104 by the switch control unit 102c, and the second I2C bus slave interface 102b Do not connect to the DDC / CI control line of the input control terminal.

  When the user sets the terminal to connect the main video output device to “COMPUTER1” and the terminal to connect the video output device to display video to “COMPUTER1” (Table 303 in FIG. 5), the control unit 102 switches the switch The controller 102 c controls the first switch circuit 103 to connect the first I2C bus slave 102 a and the DDC / CI control line of the first video input control terminal 105.

  In this case, since the first I2C bus slave interface 102a is already connected to the DDC / CI control line of the first video input control terminal 105, it is not necessary to further connect the second I2C bus slave interface 102b. . For this reason, the control unit 102 controls the second switch circuit 104 by the switch control unit 102c so that the second I2C bus slave interface 102b is not connected to the DDC / CI control line of any video input control terminal.

  According to the present invention, since the video input control terminal having the DDC / CI control line connected to the I2C bus slave interface is switched by the switch circuit, the video display device can be controlled by a plurality of video output devices.

  Also, two I2C bus slave interfaces are provided, and a video output device connected to one I2C bus slave interface is a main video output device, and a video output device connected to the other I2C bus slave interface is a sub video output device. By restricting the control by the sub-video output device to, for example, only video adjustment, it is possible to make it impossible to change important setting items other than the main video output device.

  Further, by enabling selection of a video input control terminal having a DDC / CI control line connected to each I2C bus slave interface by a switch circuit, even if the number of video input control terminals increases, the I2C bus slave interface has 2 The system is enough. Therefore, an increase in the cost of the video display device can be suppressed.

  Although the present invention has been described with reference to the embodiments, the present invention is not limited to the above embodiments. Various modifications that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

Claims (6)

A plurality of video input control terminals provided with a DDC / CI control line used for transmitting and receiving a command for controlling a video display device by the video output device, while receiving a video signal output from the video output device;
A first I2C bus slave interface and a second I2C bus slave interface for realizing a slave function of the I2C bus;
Have
A video display device in which the first I2C bus slave interface and the second I2C bus slave interface are connected to any one of the video input control terminals. A first switch circuit for connecting the first I2C bus slave interface to any one of the plurality of video input control terminals;
A second switch circuit for connecting the second I2C bus slave interface to any one of the plurality of video input control terminals;
A control unit for controlling operations of the first switch circuit and the second switch circuit;
The video display device according to claim 1, further comprising: The controller is
In the video output device connected to the first I2C bus slave interface via the video input control terminal, it is possible to control all the setting items included in the video display device,
The video output device connected to the second I2C bus slave interface via the video input control terminal limits controllable setting items among all setting items included in the video display device. 2. The video display device according to 2.   The video display apparatus according to claim 2, wherein the setting item that can be controlled by the video output device connected to the second I2C bus slave interface is video adjustment. A plurality of video input terminals to which video signals are input without the DDC / CI control line;
The controller is
The second switch circuit does not connect the second I2C bus slave interface to any of the video input control terminals when the video display by the video output device connected to the video input terminal is selected. 5. The video display device according to any one of 4. The controller is
When video display by a video output device connected to the first I2C bus slave interface via the video input control terminal is selected, the second switch circuit causes the second I2C bus slave interface to be connected to the video. The video display device according to claim 1, wherein the video display device is not connected to any of the input control terminals.

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