JP4978628B2 - Video signal distribution system and video signal transmission system - Google Patents

Description

The present invention relates to a Film image signal distribution system and video signal transmission system.

  The video signal distribution device distributes a video signal from a video signal source to a plurality of display devices. A plurality of display devices to which video signals are distributed may have different resolutions at which the video signals can be displayed. For example, in Patent Document 1, when the resolution of one display device is higher than the resolution of another display device, an image cannot be displayed on the other display devices, and thus specification information common to all display devices is extracted. Then, a display device distribution device that can display images appropriately on all display devices by referring to a host has been proposed. Further, in Patent Document 2, when transmitting video corresponding to a high-resolution receiving device among the receiving devices A and B, the user uses the high-resolution receiving device among the receiving devices A and B. There is a data relay device that can view high-resolution video and can display normal video on both receiving device A and receiving device B when receiving information such as resolution common to both receiving devices is selected. Proposed.

Japanese Patent No. 3408811 Japanese Patent No. 3469571

The object of the present invention is to display a maximum resolution on a display device having the maximum resolution even when the displayable resolutions of the plurality of display devices are different, and to a display device having a resolution lower than the maximum resolution. and to provide a Film image signal distribution system and video signal transmission system that can display.

The present invention, in order to achieve the above object, provides the following movies picture signal distribution system and video signal transmission system.
(1) a storage device that stores specification information of a display device having the maximum resolution among the specification information related to display read from a plurality of display devices;
A video signal source for sending a video signal having the maximum resolution with reference to specification information related to display of the display device having the maximum resolution stored in the storage device;
Each of the display devices is provided corresponding to the plurality of display devices, each of which detects the resolution of the video signal having the maximum resolution sent from the video signal source based on the clock frequency of the video signal, and the corresponding display device A plurality of video signal output devices that output the video signal as it is when it can be displayed at the detected resolution, and convert the video signal to a displayable resolution when it cannot be displayed at the detected resolution And a video signal distribution system .
(2) The above (1) description, wherein the video signal output device outputs the video signal as it is based on specification information relating to display read from the plurality of display devices, or converts the video signal to a displayable resolution and outputs it. Video signal distribution system .
(3) The video signal distribution system according to (1) or (2), further including a storage device that stores specification information related to display read from the plurality of display devices.
A plurality of display devices that stores specification information regarding (4) Display,
A storage device for storing the specification information of the display device having the maximum resolution among the specification information relating to the display read from the plurality of display devices, and a plurality of display devices, respectively, are provided corresponding to the video signal source. Detecting the resolution of the video signal having the maximum resolution sent from the video signal based on the clock frequency of the video signal, and outputting the video signal as it is when the corresponding display device can display at the detected resolution, A video signal distribution device having a plurality of video signal output devices for converting and outputting the video signal to a displayable resolution when display at the detected resolution is impossible;
A video signal transmission system comprising: a video signal source that sends a video signal having the maximum resolution to the video signal distribution device with reference to specification information relating to display of the display device having the maximum resolution stored in the storage device.

According to the video signal distribution system of claim 1, even when the resolutions that can be displayed by a plurality of display devices are different, the display device having the maximum resolution displays the maximum resolution and the display having a lower resolution than that. The device can display at a resolution corresponding to it.
According to the video signal distribution system of the second aspect, even when the display device is replaced, it is possible to automatically display with the resolution corresponding to the display device.
According to the video signal distribution system of the third aspect, the specification information read from the plurality of display devices can be provided to other devices as necessary.
According to the video signal transmission system of claim 4, even when the resolutions that can be displayed on the plurality of display devices are different, the display device having the maximum resolution displays the maximum resolution and the display having a lower resolution than that. The device can display at a resolution corresponding to it.

It is a figure which shows one Example of the video signal transmission system using the video signal distribution apparatus which concerns on this invention. It is a flowchart which shows an example of operation | movement of the video signal distribution apparatus based on this invention.

  FIG. 1 is a diagram showing an embodiment of a video signal transmission system using a video signal distribution apparatus according to the present invention. The present video signal transmission system includes a plurality of display devices 11 to 14 that store specification information related to display including resolution, a video signal distribution device that outputs video signals having a resolution that can be displayed on each of the display devices 11 to 14, and And a video signal source 1 for sending a video signal to the video signal distribution device. This video signal source and the video signal distribution device constitute a video signal distribution system. As shown in the figure, the video signal distribution device includes a storage device 2 that stores specification information of a display device having the maximum resolution among specification information related to display read from the plurality of display devices 11 to 14, and a plurality of display devices 11. To 14 respectively, and detects the resolution of the input video signal having the maximum resolution, and outputs the video signal as it is when the corresponding display device can display at the detected resolution. When the display is impossible, the video signal output devices 21 to 24 convert the video signal to a displayable resolution and output the converted video signal. Also, the video signal source 1 refers to the specification information relating to the display of the display device having the maximum resolution stored in the storage device 2 and sends the video signal having the maximum resolution to the video signal distribution device. Hereinafter, the specification information regarding the display will be described in more detail, for example, as EDID (Extended Display Identification Data). In FIG. 1, an HPD (Hot Plug Detect) signal referred to in FIG. 2 described later is omitted.

  A DVI (Digital Visual Interface) connector 4 is connected to the video signal source 1. The video signal (RGB) having the maximum resolution sent from the video signal source 1 is received by the DVI receiver 5 via the DVI connector 4. The DVI receiver 5 once converts the video signal into parallel data. The video signal output devices 21 to 24 receive the parallel data of the video signal from the DVI receiver 5, respectively, and detect the resolution of the received video signal from the frequency of the pixel clock at that time. Then, it is determined whether the display device connected to the corresponding port can display the detected resolution. For example, when the video signal output device 21 can display at the detected resolution, the received video signal is output as it is. That is, the parallel video signal is passed to the DVI transmitter 31 as it is. The DVI transmitter 31 serializes the video signal and outputs it to the display device 11 through the DVI connector 41 as a TMDS (Transition Minimized Differential Signaling) signal.

  On the other hand, for example, when the video signal output devices 22 to 24 cannot display the detected resolution, the video signal is converted into a displayable resolution and output. This conversion is conversion (down-conversion) in which the resolution is lower than the resolution of the input video signal. That is, in the video signal output devices 22 to 24, the received high-resolution video signals are respectively converted in real time into lower-resolution video signals that can be displayed. When the resolutions of the corresponding display devices 11 to 14 are different, the resolutions converted by the video signal output devices 22 to 24 are also different. The converted video signal is sent to the DVI transmitters 32-34. The DVI transmitters 32 to 34 serialize the converted video signals, respectively, and output them to the display devices 12 to 14 through the DVI connectors 42 to 44 as TMDS signals.

  In the resolution conversion method, for example, an input video signal is temporarily stored in a frame memory, converted to a converted video signal size based on the stored video signal, and the converted video signal is stored in another frame memory. . Video signals are sequentially read from the frame memory stored after the conversion. In addition, the conversion of the video size can use general magnification conversion, but pixel thinning may be used.

  As described above, the video signal output devices 21 to 24 output the video signal as it is based on the specification information (EDID) read from each of the display devices 11 to 14 or convert it to a displayable resolution and output it. ing. In this embodiment, the video signal output devices 21 to 24 are each connected to the specification information storage device 3. As a result, the video signal output devices 21 to 24 can know the resolution of each of the display devices 11 to 14 that are actually connected, so that the currently connected display device is replaced with a display device having a different resolution. Even if it is, it will be possible to respond automatically. However, the present invention is not limited to this, and each of the video signal output devices 21 to 24 can determine in advance whether to output the video signal as it is or convert it to a displayable resolution and output it. In the present embodiment, the storage device 3 that stores the specification information read from the plurality of display devices 11 to 13 is provided. However, the present invention is not limited to this, and the specification information may be directly sent to other devices that need it. .

  FIG. 2 is a flowchart showing an example of the operation of the video signal distribution apparatus according to the present invention. First, when the video signal distribution device is turned on at the start of operation, the HPD (Hot Plug Detect) signal immediately goes Low (Disable state) in step 51. Note that the HPD signal line is pulled down because it is desirable that it be Low even when the power is not turned on. In step 52, whether or not there is a display device connected to the DVI connector on the output side of the distribution device is confirmed by the power input. If there is no connection, the process returns to step 51. When there is a connection, an operation for obtaining specification information is performed on each display device through a DDC (Display Data Channel) line. If the display device is in a state in which the specification information can be referred to at this time, the specification information is acquired from each of the display devices 11 to 14 in step 53.

  In step 54, the acquired specification information is associated with each port (display device) and stored. Regarding the storage of the specification information (EDID), the memory space of the CPU that controls the present apparatus can be used as the storage apparatus 3, but the present invention is not limited to this. When all the specification information of the display device that can be acquired has been acquired, in step 55, the specification information corresponding to the maximum resolution is extracted from the specification information. In step 56, all the specification information corresponding to the maximum resolution is stored in the storage device 2 that can be referred to from the video signal source in accordance with the EDID format. For this storage, for example, an EEPROM which is a non-volatile readable / writable memory can be used, but the present invention is not limited to this. For writing, a CPU that controls the apparatus can be used. When the specification information (EDID) that can be referred to by the video signal source 1 is written into the EEPROM (storage device 2), the HPD becomes High in step 57, and notifies the video signal source 1 of the completion of preparation.

  When the power is turned on, the video signal source 1 refers to the specification information (EDID) to the storage device 2 at a certain timing. At this time, if HPD is Low, it is determined that the display device is not connected. When HPD is High, the video signal source 1 refers to the specification information and sends a video signal to the DVI connector 4 based on the information. In step 58, when receiving the video signal from the DVI connector 4, the DVI receiver 5 once converts it into parallel data. Each video signal output device inputs the video signal converted into parallel data, and in step 59, detects the resolution of the received video signal from the frequency of the pixel clock at that time. In step 60, it is determined whether or not the display device connected to the corresponding port can display the resolution. If the resolution is displayable, the parallel video signal is directly passed to the DVI transmitter. In step 61, the DVI transmitter serializes the video signal and outputs it as a TMDS signal through the DVI connector. On the other hand, if the resolution is not displayable, the resolution is converted in real time to a displayable resolution in step 62, and the converted video signal is sent to the DVI transmitter. In step 61, the video signal is serialized as described above. And output as a TMDS signal through the DVI connector.

  Accordingly, it is possible to display at a resolution corresponding to each of the plurality of display devices without using a video signal having a display specification common to each display device. That is, when a video signal is transmitted from a video signal source based on a common display specification of a plurality of display devices connected to a distributor, for example, a display device capable of displaying 1920 × 1080 pixels and up to 1280 × 720 pixels If another display device capable of display is connected, a video signal having a resolution of 1280 × 720 pixels, which is a common display specification, is transmitted from the video signal source. In this case, although it is possible to display an image on either display device, a display device capable of displaying 1920 × 1080 pixels cannot fully exhibit the inherent potential. Originally, when a video signal distributor is used to display the same video on a plurality of display devices, when a plurality of display devices having different resolutions are used, the main display device and the sub display device may be positioned. Many. In that case, it is desired that the main display device has a high image quality, and the sub display device often uses a low-resolution or small-sized display device by placing importance on the cost rather than the high image quality. By configuring as described above, even when the resolutions that can be displayed by a plurality of display devices are different, the display device having the maximum resolution displays the maximum resolution, and the display device having a lower resolution accordingly. Therefore, a high-quality video signal distribution device can be realized.

  The present invention relates to a video signal distribution device, a video signal distribution system, and a video signal transmission system that distribute a video signal from a video signal source to a plurality of display devices, and has industrial applicability.

DESCRIPTION OF SYMBOLS 1 Video signal source 2 Memory | storage device 3 Specification information storage device 4 DVI connector 5 DVI receiver 11-14 Display apparatus 21-24 Video signal output device 31-34 DVI transmitter 41-44 DVI connector

Claims (4)

A storage device for storing the specification information of the display device having the maximum resolution among the specification information related to the display read from the plurality of display devices;
A video signal source for sending a video signal having the maximum resolution with reference to specification information related to display of the display device having the maximum resolution stored in the storage device;
Each of the display devices is provided corresponding to the plurality of display devices, each of which detects the resolution of the video signal having the maximum resolution sent from the video signal source based on the clock frequency of the video signal, and the corresponding display device A plurality of video signal output devices that output the video signal as it is when it can be displayed at the detected resolution, and convert the video signal to a displayable resolution when it cannot be displayed at the detected resolution And a video signal distribution system . 2. The video signal distribution according to claim 1, wherein the video signal output device outputs the video signal as it is based on display specification information read from the plurality of display devices, or converts the video signal to a displayable resolution and outputs the video signal. System . The video signal distribution system according to claim 1, further comprising a storage device that stores specification information related to display read from the plurality of display devices. A plurality of display devices storing specification information on display;
A storage device for storing the specification information of the display device having the maximum resolution among the specification information relating to the display read from the plurality of display devices, and a plurality of display devices, respectively, are provided corresponding to the video signal source. Detecting the resolution of the video signal having the maximum resolution sent from the video signal based on the clock frequency of the video signal, and outputting the video signal as it is when the corresponding display device can display at the detected resolution, A video signal distribution device having a plurality of video signal output devices for converting and outputting the video signal to a displayable resolution when display at the detected resolution is impossible;
A video signal transmission system comprising: a video signal source that sends a video signal having the maximum resolution to the video signal distribution device with reference to specification information relating to display of the display device having the maximum resolution stored in the storage device.

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