JP2008118461A - Reproducing device and signal mediation device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a reproducing device capable of adding limitation to an EDID (extended display identification) format in an apparatus corresponding to a DDC (delay data channel). <P>SOLUTION: In an STB 10 for receiving a signal including video from the reproducing device 20 and outputting a signal including the video to a display 30, a microcomputer 10d acquires an EDID 1 of the display 3, eliminates limited EDID 1 set in a memory 10e, generates an EDID 2 from the acquired EDID 1, stores the EDID 2 in an EDIDROM 10c and outputs the EDID 2 stored in the EDIDROM 10c in response to an EDID transmission request of the reproducing device 20. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a playback device and a signal mediating device.

  There is a standard called DDC (Display Data Channel) as a standard to be called plug and play for video display devices. The DDC exchanges information about the reception specifications (resolution, speaker arrangement, etc.) of the sink between the source (device that outputs the video signal) and the sink (device that displays the video signal), and the source side has the attribute of the sink. It is to be able to automatically set according to. In DDC, sink reception specifications are exchanged in the form of formatted data called extended display identification (EDID).

The following are known as techniques for optimally setting the EDID.
In other words, as a technique for setting the optimum EDID according to the input video signal or the installation location of the device, the EDID data for a plurality of types of video signals is held and information indicating the type of the input video signal or the installation of the device A technique for setting this video signal EDID data in a DDC-compatible nonvolatile memory based on the location is known (for example, Patent Documents 1 and 3).
In addition, as a technique for setting an optimum EDID according to the connected video display device or AV amplifier device, if the ID information of the EDID acquired from the connected device matches the ID read before, it is stored when the previous connection is established. A technology for automatically setting the video and audio formats being used is known (for example, Patent Document 2).
JP 2004-102067 A JP 2005-175570 A JP 2006-179973 A

  By the way, when there are a plurality of formats that can be supported by the sink, the source automatically outputs a video signal and an audio signal in a format that is automatically determined to be optimal. However, some users may want to view in a specific resolution, color space (YCbCr, RGB, etc.), audio output format (MP3, AAC, ATRAC, PCM, etc.), and prefer viewing in the automatically selected format. First, it was desired to be able to display his / her favorite display.

  In the case of audio output, even though the sink supports multi-channel output such as DTS (Digital Theater System), it is considered that the audio is actually output by a pair of left and right speakers. In this case, only FR (Front Right) and FL (Front Left) are output from the speaker, and the sound of other channels is not reproduced and is wasted.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a playback device and a signal mediating device that can limit the EDID format in a device that supports DDC.

In order to solve the above-described problem, in the signal mediating apparatus according to the present invention, in the signal mediating apparatus that receives a signal including a video from a transmitting device and outputs the signal including the video to a receiving device, the reception specification of the receiving device In response to an acquisition request from the transmitting device, information changing means for deleting specific information from the acquired information indicating the reception specification and storing the information as information indicating its own reception specification Information output means for outputting the reception specifications stored in the information changing means.
In the above configuration, the information acquisition unit acquires information indicating the reception specification of the receiving device, deletes specific information from the information indicating the reception specification acquired by the information change unit, and stores it as information indicating its own reception specification. Then, the information output means outputs the reception specification stored in the information changing means in response to the acquisition request from the transmitting device.

  The reception specification is a format of a video signal that can be reproduced and displayed when the receiving device receives the video signal. In addition, since various formats are defined for the video signal, any one or combination of these formats is designated as specific information. Of course, all of these formats may be specified information. In addition, an audio signal is particularly conceivable as a signal including video, and a configuration in which reception specifications are limited for the audio signal format as in the case of the video signal can be employed.

  As a result, it is not necessary to individually set the reception specification in each transmitting device and receiving device, and specific information can be deleted by mediating the transmitting device and the receiving device by the signal mediating device. In other words, regardless of which transmission device and reception device are used, the reception device can receive video signals and audio signals with the same settings.

  The information indicating the reception specification is preferably EDID. In other words, the use of EDID, which is a widely spread standard, can improve the convenience of more users.

  Furthermore, the information indicating the reception specification may be stored in a DDC-compatible nonvolatile memory and transmitted via the DDC. That is, as with EDID, there are many transmission standards that adopt DDC, and the convenience of more users can be improved. There are a wide variety of connectors (cables) adopting DDC from digital to analog, such as HDMI, DVI, analog RGB, MDR (mini delta ribbon).

  Furthermore, it is good also as a structure provided with the operation input means which receives a user's operation input, and the specific information setting means which sets the said specific information based on this operation input. That is, the user's convenience is further improved by enabling the user to set specific information to be deleted as appropriate.

  Further, the signal mediating device may be built in the transmitting device or built in the receiving device. In other words, the present invention is not only realized as a single unit such as a set-top box, but may be formed integrally with a transmitting device or a receiving device. In other words, even if the other device is replaced with another device and connected to the device with the built-in signal mediating device, there is no need to set the reception specification again, and video signals and audio signals always have the same reception specification. Will be transmitted.

  As the specific information, information indicating resolution, information indicating a color space, information indicating an audio output format, information indicating speaker allocation, and the like can be employed. The resolution, the color space, and the audio output format tend to show user's preference, and can be expected to improve user convenience. In addition, since the speaker allocation cannot be heard if the speaker allocation is not set correctly, the convenience of the user is improved by making it possible to restrict this information.

  As described above, according to the present invention, it is not necessary to individually set reception specifications in each transmitting device and receiving device, and specific information can be obtained by mediating the transmitting device and the receiving device in the signal mediating device. It can be deleted. That is, regardless of which transmission device and reception device are used, the reception device can receive the video signal having the same setting.

According to the third aspect of the invention, the same effect can be obtained with an audio signal.
And according to the invention concerning Claims 4-12, the improvement of the convenience of a user can be anticipated further.
Further, it is needless to say that in a more specific configuration as in claim 1, the same effects as those of the inventions of claims 2 to 2 described above are exhibited.

Hereinafter, embodiments of the present invention will be described in the following order.
(1) Configuration of set top box, playback device, and display:
(2) Microcomputer processing for setting a limited EDID in STB:
(3) Microcomputer processing to limit EDID:
(4) Summary:

(1) Configuration of set top box, playback device, and display:
Hereinafter, an embodiment of the present invention will be described with reference to FIGS. In this embodiment, a set-top box (STB) is used as a signal mediating device, a playback device is used as a transmitting device, and a display is used as a receiving device. However, the present invention is not limited to this embodiment. Various modifications are possible, such as those incorporated in a playback device, those in which an STB is incorporated in a display, and those in which the STB, the playback device and the display are integrally formed. The playback device may include a recording function, and the playback function is a combo machine capable of playing back not only one type of recording medium but also a plurality of recording media (HDD, DVD, video tape, etc.). It doesn't matter. Further, the receiving device does not necessarily need to include a display function such as a display, and may further output the received video signal to the outside, or may be configured to include a playback function and a recording function. Further, the STB and the playback device, and the STB and the display are respectively described as being connected by an HDMI cable, but of course, if the terminal has a DDC, DVI, analog RGB, MDR (mini delta It may be configured to be connected by a cable such as a ribbon.

  FIG. 1 is a block configuration diagram showing a schematic configuration of the STB 10 according to the present embodiment and a connection relationship between the playback apparatus 20 and the display 30. The STB 10 includes an HDMI terminal 10a, an HDMI terminal 10b, an EDIDROM 10c, a microcomputer 10d, a memory 10e, and an operation input unit 10f.

  The microcomputer 10d is connected to the EDIDROM 10c, the memory 10e, and the operation input unit 10f. The microcomputer 10d includes a CPU, a ROM, and a RAM, and controls the entire STB by executing various programs recorded in the ROM with the RAM as a work area.

  The microcomputer 10d records EDID restriction information in the memory 10e based on an operation input signal that represents an EDID restriction input from the operation input unit 10f (or acquired from the operation input unit by the microcomputer 10d). The microcomputer 10d is connected to the DDC line of the HDMI terminal 10b. The microcomputer 10d acquires the EDID1 of the display 30 through the DDC line, and generates EDID2 by deleting predetermined information from the EDID1 according to the EDID restriction information of the memory 10e. , EDID2 is stored in the EDIDROM 10c.

  The EDIDROM 10c is realized by a rewritable nonvolatile memory such as an EEPROM (registered trademark) or a flash memory. Of course, RAM may be used as long as it is a nonvolatile storage medium, and any storage medium that can be realized at present and in the future, such as a semiconductor memory, an organic memory, and a magnetic storage device, can be employed. The EDID ROM 10c stores EDID according to a predetermined format. When the playback device 20 requests EDID through the DDC line of the HDMI terminal 10a, the EDID information is sent to the playback device 20 through the DDC line. To do. The EDIDROM 10c that outputs the EDID stored in response to the EDID acquisition request of the playback device 20 constitutes an information output means.

  The memory 10e is also realized by a rewritable nonvolatile memory such as an EEPROM or a flash memory. Of course, RAM may be used as long as it is a nonvolatile storage medium, and any storage medium that can be realized at present and in the future, such as a semiconductor memory, an organic memory, and a magnetic storage device, can be employed. The memory 10e stores EDID restriction information, and outputs the EDID restriction information to the microcomputer 10c and rewrites the EDID restriction information according to control from the microcomputer 10d.

  The operation input unit 10f is realized by, for example, a dip switch, and can adopt a configuration in which High (H) is output when the dip switch is on and Low (L) is output when the dip switch is off. EDID has multiple setting items such as resolution, color space, audio output, speaker allocation, etc. Each of these setting items may have a dip switch, and many users want to change it. A dip switch may be provided only for the setting item. Of course, the operation input unit 10f may be realized by a remote control and a remote control reception unit, a keyboard, a mouse, or the like. When these configurations are adopted, a display unit, an OSD processing unit, and the like are added to the configuration. Become.

  The video signal and audio signal input from the playback device 20 to the HDMI terminal 10a are output as they are to the HDMI terminal 10b. Needless to say, the video signal and audio signal input from the HDMI terminal 10a may be amplified and noise-removed and output from the HDMI terminal 10b.

  FIG. 2 is a schematic block diagram of the playback device 20. The playback device 20 includes a signal playback unit 20a, an AV encoder 20b, a TMDS transmitter 20d, a microcomputer 20c, and an HDMI terminal 20e.

  In the reproducing apparatus 20, the signal reproducing unit 20a reproduces a video signal and an audio signal from information acquired from the recording medium, and outputs them to the AV encoder 20b. The AV encoder 20b encodes predetermined information such as a video signal, an audio signal, a horizontal synchronization signal, and a vertical synchronization signal by the TMDS signal conversion method, and outputs the encoded information to the TMDS transmitter 20d. Upon receiving the encoded information, the TMDS transmitter 20d converts it into a digital signal based on the HDMI standard and sends it out from the HDMI terminal 20e. Here, the TMDS (Transmission Minimized Differential Signaling) signal conversion method is a technique for modulating and transmitting parallel data to high-speed serial data on the transmission side and receiving and demodulating the data on the reception side.

  The microcomputer 20c is connected to the DDC line of the HDMI terminal 20e, and a signal for requesting transmission of EDID from the external device connected to the HDMI terminal 20e via the HDMI cable via the DDC line of the HDMI terminal 20e. Is output. When the EDID is received, the AV encoder 20b is controlled based on the received EDID, and a video signal in accordance with the format set in the EDID is generated. In the present embodiment, this external device is the STB 10.

  Further, the microcomputer 20c detects the presence / absence of connection between the playback device and the external device by using an HDMI cable connected to the HDMI terminal 20e. Specifically, the HDMI terminal 20e has an HPD (Hot Plug Detector), and the microcomputer 20c receives information on the presence / absence of connection from the HPD. The microcomputer 20c determines whether or not to output a video signal or an audio signal from the HDMI terminal 20e based on the connection presence / absence information received from the HPD, and if there is a connection, controls the AV encoder 20b and the TMDS transmitter 20d. Then, encoding and digital conversion are performed and output from the HDMI terminal 20e is performed. If there is no connection, the AV encoder 20b and the TMDS transmitter 20d are controlled to stop the encoding and digital conversion and the HDMI terminal 20e. The output from is stopped.

  FIG. 3 is a schematic block diagram of the display 30. The display 30 includes a TMDS receiver 30a, a video signal processing unit 30b, a microcomputer 30c, an EDIDROM 30d, an HDMI terminal 30e, a drive circuit 30f, a display 30g, an audio signal processing unit 30h, and a speaker 30i. Consists of.

  In the display, the TMDS receiver 30a receives a digital signal encoded by the TMDS signal conversion method, which is input from the STB 10 via the HDMI terminal 30e. Then, the digital video signal, the digital audio signal, the horizontal synchronization signal, and the vertical synchronization signal are decoded by the TMDS signal conversion method and output to the video signal processing unit 30b, the audio signal processing unit 30h, and the microcomputer 30c.

  The digital video signal decoded by the TMDS receiver 30a is input to the video signal processing unit 30b. The video signal processing unit 30b performs scaling processing and various image quality adjustment processing on the input digital video signal and outputs the result to the drive circuit 30f. The drive circuit 30f generates a panel drive signal based on the input video signal and outputs the panel drive signal to the display 30g. The display 30g displays an image on the screen by driving display pixels based on an input panel drive signal (display drive signal). There are various kinds of displays as long as they display images based on drive signals, such as CRTs, liquid crystal panels, plasma display panels, combinations of projector light sources, projection lenses, DMDs (Digital MicroMirror Devices), and the like. It can be adopted.

  On the other hand, the digital audio signal decoded by the TMDS receiver 30a is input to the audio signal processing unit 30h. The audio signal processing unit 30h reproduces an analog audio signal from a digital audio signal, performs predetermined signal amplification on the audio signal, outputs it to the speaker 30i, and reproduces the audio.

  The EDIDROM 30d is realized by a rewritable nonvolatile memory such as an EEPROM or a flash memory. Of course, RAM may be used as long as it is a nonvolatile storage medium, and any storage medium that can be realized at present and in the future, such as a semiconductor memory, an organic memory, and a magnetic storage device, can be employed. The EDID ROM 30d stores EDID, and when EDID is requested from the STB 10 via the DDC line of the HDMI terminal 30e, the EDID is sent to the STB 10 via the DDC line of the HDMI terminal 30e.

  The microcomputer 30c has a program execution environment including a built-in CPU, ROM, and RAM, and controls the entire display 30 by calculating various programs stored in the ROM using the RAM as a work area. .

(2) Microcomputer processing for setting a limited EDID in STB:
Next, the processing of the microcomputer 10d that sets the limited EDID in the memory 10e of the STB 10 will be described with reference to the flowchart of FIG. The restricted EDID is information indicating which item is deleted from EDID1 acquired from the display 30. When the microcomputer 10d acquires EDID1 from the display 30, the microcomputer 10d deletes the content of the item set in the restricted EDID. To generate EDID2. Then, by storing the EDID2 in the EDIDROM 10c, the EDID2 is given as the EDID of the STB10.

  This process may be executed at regular time intervals, or may be performed when the STB 10 is turned on, or an operation for instructing the user to update the restricted EDID by providing a dedicated operation input unit. It may be configured to execute when an input is received.

  When the process is started, 1 is assigned to the counter n in step S10, and the process proceeds to step S12. Here, n has a one-to-one correspondence with the number of the dip switch. If the number of dip switches in the operation input unit 10f is k, n = 1, 2, 3,..., K.

  In step S12, the setting of each dip switch is acquired and this setting is determined. Specifically, it is determined whether or not the nth dip switch of the operation input unit 10f, that is, the dip switch n is on. If the dip switch is on, the condition is satisfied and the process proceeds to step S14. On the other hand, if the dip switch is not on, that is, if the dip switch is off, the condition is not satisfied, the process proceeds to step S20, n is incremented, and the process from step S12 is repeated.

  In step S14, the fact that the EDID setting item corresponding to the nth dip switch is the limited EDID is stored in the memory 10e, and the process proceeds to step S16.

  In step S16, it is determined whether or not all dip switches have been confirmed. Specifically, it is determined whether n = k. If n = k, the process is terminated because the condition is satisfied. When n <k, the condition is not satisfied and the process proceeds to step S18 to increment n, and then the process from step S12 is repeated.

Therefore, it becomes possible to set or update the restricted EDID of the memory 10e at a predetermined timing. As described above, the DIP switch that is the operation input unit 10f constitutes the operation input unit, and the microcomputer 10d that executes the processes of steps S10 to S20 constitutes the specific information setting unit. (3) Microcomputer processing to limit EDID:
Next, the processing of the microcomputer 10d that limits EDID1, which is the EDID of the display 30, will be described with reference to the flowchart of FIG. The microcomputer 10d acquires EDID1 from the display 30, sets EDID2 obtained by deleting the restricted EDID from EDID1 as the EDID of the STB 10, and outputs the EDID2 when the playback device 20 requests the EDID. This process may be executed when the STB 10 and the display 30 are connected by an HDMI cable, or when the limited EDID is updated, but may be executed at a predetermined time interval.

  When the process is started, EDID1 that is the EDID of the display 30 is acquired in step S50, and the process proceeds to step S52. Specifically, an EDID transmission request is made to the EDIDROM 30d of the display 30 via the DDC line of the HDMI cable connecting the HDMI terminal 10b and the HDMI terminal 30e, and the EDID transmitted from the EDIDROM 30d in response to this transmission request Is acquired as EDID1.

  In step S52, information on the restricted EDID is acquired from the memory 10e, and the process proceeds to step S54. In step S54, an EDID from which specific information is deleted is created, and the process proceeds to step S56. Specifically, according to the information on the restricted EDID acquired in step S52, specific information is deleted from EDID1, and EDID2 is created.

  In step S56, EDID2 is set as the EDID of STB10. Specifically, EDID2 is stored in EDIDROM 10c. Thus, when the playback device 20 requests EDID, the playback device 20 requests EDID from the EDIDROM 10c, so that the playback device 20 acquires EDID2 of the STB 10 instead of EDID1 of the display 30. Accordingly, the playback device 20 outputs a video signal and an audio signal based on EDID2.

  As described above, the microcomputer 10d that executes the process of step S50 constitutes an information acquisition unit, and the microcomputer 10d that executes the processes of steps S52 to S56 constitutes an information change unit.

The operation of the present embodiment having the above configuration will be described below.
When the playback device 20 and the display 30 are directly connected via an HDMI cable without using the STB 10, if the display 30 has an EDID indicating that it corresponds to a low resolution and a high resolution, the EDID is acquired from the display 30. The playback apparatus 20 may output a video signal at a low resolution by regarding the low resolution as the optimum resolution. In such a case, the STB 10 is interposed between the playback device 20 and the display 30.

  Then, the dip switch corresponding to the low resolution is turned on to update the limited EDID (steps S10 to S20). Then, the STB 10 that has acquired the EDID from the display 30 deletes the EDID corresponding to the low resolution to be EDID2, and sets this EDID2 in the EDIDROM 10c. Therefore, the playback apparatus that has requested EDID acquires EDID2 that does not support low resolution from the EDIDROM 10c, and outputs a video signal at high resolution.

  In addition, when the EDID of the display 30 has an EDID indicating that it corresponds to the DTS, when the playback device 20 and the display 30 are directly connected by an HDMI cable, the playback device 20 is 5.1 ch in accordance with the DTS. Output audio signals. At this time, in reality, only a pair of left and right speakers may be connected to the display 30.

  In such a case, the STB 10 is interposed between the playback device 20 and the display 30, and the limited EDID is updated by turning on the dip switch corresponding to the DTS. Then, the STB 10 that has acquired the EDID from the display 30 deletes the EDID corresponding to the DTS to be EDID2, and sets this EDID2 in the EDIDROM 10c. Therefore, the playback device that has requested EDID acquires EDID2 that does not support DTS from the EDIDROM 10c, and outputs 5.1ch audio to the left and right 2ch and outputs audio signals.

  Further, when the EDID of the display 30 has an EDID indicating that it corresponds to YCbCr, when the playback device 20 and the display 30 are directly connected with an HDMI cable, the playback device 20 displays an image expressed in the YCbCr color space. Output a signal. However, some users prefer to display video signals expressed in RGB color space.

  In such a case, the STB 10 is interposed between the playback device 20 and the display 30, and the limited EDID is updated by turning on the dip switch corresponding to YCbCr. Then, the STB 10 that has acquired the EDID from the display 30 deletes the EDID corresponding to YCbCr to make EDID2, and sets this EDID2 in the EDIDROM 10c. Therefore, the playback apparatus that has requested EDID acquires EDID2 that does not support YCbCr from the EDIDROM 10c, and outputs a video signal expressed in the RGB color space.

  As described above, when a specific EDID is restricted in the STB 10, even if the transmission device or the reception device is changed, the EDID is restricted according to the restriction EDID set in the STB 10, so the EDID setting is changed in the transmission device or the reception device. There is no need.

(4) Summary:
That is, in the STB 10 that receives a signal including a video from the playback device 20 and outputs the signal including the video to the display 30, the microcomputer 10d acquires the EDID1 of the display 30, and sets the memory 10e from the acquired EDID1. The restriction EDID is deleted, EDID2 is generated, EDID2 is stored in the EDIDROM 10c, and the EDID2 stored in the EDIDROM 10c is output in response to the EDID transmission request of the playback device 20. This makes it possible to limit the EDID format in a device that supports DDC.

Needless to say, the present invention is not limited to the above embodiments. It goes without saying for those skilled in the art,
・ Applying mutually interchangeable members and configurations disclosed in the above embodiments by appropriately changing the combination thereof.− Although not disclosed in the above embodiments, it is a publicly known technique and the above embodiments. The members and configurations that can be mutually replaced with the members and configurations disclosed in the above are appropriately replaced, and the combination is changed and applied. It is an embodiment of the present invention that a person skilled in the art can appropriately replace the members and configurations that can be assumed as substitutes for the members and configurations disclosed in the above-described embodiments, and change the combinations and apply them. It is disclosed as.

It is the block block diagram which showed the schematic structure of STB, and the connection relation with the reproducing | regenerating apparatus and a display. It is a schematic block block diagram of a reproducing | regenerating apparatus. It is a schematic block block diagram of a display. It is a flowchart which shows the process of the microcomputer which sets restriction | limiting EDID to STB. It is a flowchart which shows the process of the microcomputer which restrict | limits EDID.

Explanation of symbols

  10a ... HDMI terminal, 10b ... HDMI terminal, 10c ... EDIDROM, 10d ... microcomputer, 10e ... memory, 10f ... operation input unit, 20 ... playback device, 20a ... signal playback unit, 20b ... AV encoder, 20c ... microcomputer, 20d ... TMDS transmitter, 20e ... HDMI terminal, 30 ... display, 30a ... TMDS receiver, 30b ... video signal processor, 30c ... microcomputer, 30d ... EDIDROM, 30e ... HDMI terminal, 30f ... drive circuit, 30g ... display, 30h ... audio Signal processor, 30i ... Speaker

Claims (12)

An HDMI terminal and a signal reproduction unit that reproduces a video / audio signal obtained by acquiring EDID from an external device connected via the HDMI terminal and reading information from a recording medium according to the EDID, In the playback device that outputs from the HDMI terminal,
An operation input unit for receiving user operation inputs;
An EDIDROM for storing EDID;
A memory for storing restriction information indicating which items of EDID are to be restricted;
Control for acquiring EDID from an external device via the DDC line of the HDMI terminal, storing the restriction information in the memory according to an operation input received by the operation input unit, and setting a predetermined EDID in the EDIDROM And
With
When acquiring the EDID from the external device, the control unit deletes the predetermined information from the EDID based on the restriction information, stores the EDID from which the predetermined information has been deleted in the EDIDROM,
The reproduction apparatus according to claim 1, wherein the signal reproduction unit obtains the EDID stored in the EDIDROM instead of the EDID of the external device and reproduces the video / audio signal. In a signal mediating apparatus that receives a signal including a video from a transmitting device and outputs a signal including the video to a receiving device,
Information acquisition means for acquiring information indicating the reception specification of the receiving device;
Information changing means for deleting specific information from the acquired information indicating the reception specification and storing it as information indicating its own reception specification;
Information output means for outputting the reception specification stored in the information changing means in response to the acquisition request of the transmitting device;
A signal mediating apparatus comprising:   The signal mediating apparatus according to claim 2, wherein the signal including the video includes an audio signal.   4. The signal mediating apparatus according to claim 2, wherein the information indicating the reception specification is EDID.   5. The signal mediating apparatus according to claim 2, wherein the information indicating the reception specification is stored in a DDC-compatible non-volatile memory and is transmitted via the DDC. .   6. The apparatus according to claim 2, further comprising an operation input unit that receives a user's operation input, and a specific information setting unit that sets the specific information based on the operation input. A signal relay device according to claim 1.   The signal mediating apparatus according to any one of claims 2 to 6, wherein the signal mediating apparatus is built in the transmission device.   7. The signal mediating apparatus according to claim 2, wherein the signal mediating apparatus is built in the receiving device.   9. The signal mediating apparatus according to claim 2, wherein the specific information is information indicating a resolution.   The signal mediating apparatus according to any one of claims 2 to 9, wherein the specific information is information indicating a color space.   The signal mediating apparatus according to any one of claims 3 to 10, wherein the specific information is information indicating an audio output format.   The signal mediating apparatus according to any one of claims 3 to 11, wherein the specific information is information indicating speaker allocation.

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