JP2013009422A - Video processing apparatus and video processing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a video processing device and a video processing method which change an improper EDID into a proper EDID.SOLUTION: A video processing device comprises: a storage (131) for storing EDID information; a communication section (111) which performs communication in accordance with an HDMI standard via a communication path (301) to another video processing device (30) to supply the EDID information stored in the storage and receives video audio signals from the other video processing device; a reproducing section (123) for reproducing the video audio signals received by the communication section; and a change section (111-1) for changing the EDID information stored in the storage when the video audio signals could not be properly reproduced by the reproducing section.

Description

  The present invention relates to a video processing apparatus having a communication function based on the HDMI (High-Definition Multimedia Interface) standard, and rewriting HDMI EDID (Extended Display Identification Data) information according to a communication state.

  In HDMI, control information such as LipSync, xvYCC, DeepColor, and the like is supported from the HDMI1.3 standard. Information regarding these is described in control information called EDID (Extended Display Identification Data) on the television side, and the source device sees this EDID and transmits an optimal signal. Here, LipSync is information about audio delay control, xvYCC is information about an extended color space that can be received, and DeepColor is information about a color depth that can be received.

  However, some source devices that do not support HDMI 1.3 may malfunction if there is a description for HDMI 1.3 in the EDID (operates as a DVI mode and no sound is output). In order to operate, it is necessary to return the EDID to that of HDMI 1.2.

  As described above, in the HDMI communication system, there is known a technique showing a method for dealing with a sink device when transmission / reception of EDID fails.

  In Patent Document 1, when a signal other than EDID is received without sending the original EDID in the sink device of the HDMI communication system, the hot plug is turned off or the receiver sense is turned off. Corresponding techniques are shown.

Japanese Patent Application Laid-Open No. 2007-079980

  However, the conventional technology of Patent Document 1 is a technology that stops the function of the sink device when the supply of EDID fails, and shows a solution to the essential problem of how to change the EDID. Not in.

  An object of the present invention is to provide a video processing apparatus and a video processing method for appropriately changing an inappropriate EDID.

One embodiment for solving the problem is:
A storage unit (131) for storing EDID information;
Communication according to the HDMI standard is performed to the other video processing device (30) via the communication path (301), the EDID information stored in the storage unit is supplied, and the communication from the other video processing device is performed. A communication unit (111) for receiving a video / audio signal via a path;
A reproduction unit (123) for reproducing the video / audio signal received by the communication unit;
A changing unit (111-1) for changing the EDID information stored in the storage unit when the reproducing unit cannot correctly reproduce the video / audio signal;
A video processing apparatus.

  If the source device does not have the function corresponding to the latest EDID, and an inappropriate video / audio signal is sent to the sink device and audio or the like cannot be reproduced by the sink device, the EDID is appropriately changed in the sink device and the source device is again By sending to, an appropriate video / audio signal can be sent from the source device to the sink device, so that the reproduction process can be performed reliably.

1 is a block diagram showing an example of a video processing system having a video processing device of a sink device and a video processing device of a source device connected thereto according to an embodiment of the present invention. Explanatory drawing which shows the signal name of the HDMI terminal which the video processing apparatus concerning one Embodiment of this invention has. The block diagram which shows an example of a structure of the video processing apparatus which is a sink device concerning one Embodiment of this invention. The block diagram which shows an example of a structure of the video processing apparatus which is a source device which concerns on one Embodiment of this invention. Explanatory drawing which shows an example of the item list of EDID which the sink apparatus which concerns on one Embodiment of this invention makes the object of a change. The flowchart which shows an example of the EDID change process in the manual mode of the video processing apparatus which concerns on one Embodiment of this invention. Explanatory drawing which shows an example of the operation instruction | indication screen in the manual mode of the sink device which concerns on one Embodiment of this invention. The flowchart which shows an example of the EDID change process in the guidance mode of the video processing apparatus which concerns on one Embodiment of this invention. The flowchart which shows an example of the EDID change process in the auto mode of the video processing apparatus which concerns on one Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  First, an EDID change process, which will be described later, which is an embodiment according to the present invention, is performed in a video processing apparatus that is a sink device in a video processing system configured by a plurality of video processing apparatuses connected by an HDMI cable. Is. In other words, when the source device does not have the function corresponding to the latest EDID with respect to the EDID supplied from the sink device, an inappropriate video / audio signal is sent to the sink device and the sink device cannot reproduce audio or the like. There is. On the other hand, by appropriately changing the EDID in the sink device and sending it again to the source device, an appropriate video / audio signal can be sent from the source device to the sink device. Can be reliably reproduced.

<An example of the configuration of a video processing system according to an embodiment of the present invention>
Next, an example of the configuration of a video processing system according to an embodiment of the present invention in which the sink device 20 in which such EDID change processing is performed will be described with reference to the drawings. FIG. 1 is a block diagram showing an example of a video processing system having a video processing device of a sink device 20 and a video processing device of a source device connected thereto according to an embodiment of the present invention.

  A video processing system 1 according to an embodiment of the present invention includes a sink device 20 and a source device 30 connected by an HDMI cable 301 as shown in FIG. Note that the HDMI cable 301 has a dedicated line 302 for video and audio signals and a dedicated line 303 for control signals. For example, the dedicated line 302 for video and audio signals communicates faster than the dedicated line 303 for control signals.

  The sink device 20 is a device for displaying and outputting the video / audio information from the source device 30, and is specifically a television or the like. The source device 30 is a device for supplying video / audio information to the sink device 20, and is specifically an HD DVD player or the like.

  The sink device 20 includes a control unit 130 that is a central processing unit. The control unit 130 controls the storage unit 131, the communication unit 111 including the EDID changing unit 111-1, the display unit 141, and the operation unit 132. Do. The storage unit 131 stores various setting information such as a control program for the sink device 20 and volume / video display settings (including EDID described later). Specifically, the storage unit 131 is a flash memory, a hard disk drive, or the like.

  The communication unit 111 is a part that receives a video / audio signal from the source device 30, transmits a command for controlling the source device 30, and receives a command from the source device 30 side. Specifically, they are HDMI (High-Definition Multimedia Interface), wired LAN (Local Area Network), wireless LAN, Bluetooth (registered trademark), and the like. In the case of HDMI, a CEC (Consumer Electronics Control) line is used for transmission / reception of control commands.

  The display unit 141 is a part that displays a menu screen for device control and video from the source device 30 and performs sound reproduction. Specifically, the display unit 141 is a liquid crystal panel, a speaker, or the like.

  On the other hand, the source device 30 includes a control unit 230 that is a central processing unit, and the control unit 230 controls the storage unit 233, the communication unit 211, and the operation unit 232. The storage unit 233 is a part that stores various setting information such as a control program and volume / video display settings of the source device 30 itself, and holds video / audio signals. Hard disk drive, HD DVD drive and the like.

  The communication unit 211 transmits video / audio signals to the sink device 20, transmits a command (control signal) for controlling the sink device 20, and receives a command (control signal) from the sink device 20 side. It is a part to be. A menu screen for controlling the source device 30 is also sent to the sink device 20 as a video signal via the communication unit 211. This is a portion implemented by an interface standard that can be connected to the communication unit 111 on the sink device 20 side, specifically, HDMI, wired LAN (Local Area Network), wireless LAN, Bluetooth (registered trademark), or the like.

HDMI Terminal FIG. 2 is an explanatory diagram showing signal names of HDMI terminals included in the video processing apparatus according to the embodiment of the present invention.

  When the communication units 111 and 211 are HDMI, the HDMI terminal has a connector pin array as shown in FIG. In particular, the counterpart device can be controlled by transmitting and receiving a command defined in accordance with the HDMI-CEC protocol using a 13-pin CEC signal.

<A specific example of a video processing system according to an embodiment of the present invention>
Next, a specific example of the above-described video processing system will be introduced below with reference to the drawings. FIG. 3 is a block diagram showing an example of the configuration of a sink-side video processing apparatus according to an embodiment of the present invention. FIG. 4 is a block diagram illustrating an example of the configuration of the source-side video processing apparatus.

・ Sink device 20
As shown in FIG. 3, the sink device 20 is a digital television device as an example. The sink device 20 includes an input-side selector unit 116 and an output-side selector unit 117. The input-side selector unit 116 includes a communication unit 111 such as a LAN, the above-described HDMI, a display port, and the like. A BS / CS tuner unit 112, which is so-called satellite broadcasting, and a so-called terrestrial tuner unit 113 are connected to output a signal to the encoder unit 121. The BS / CS tuner unit 112 is connected to a satellite antenna, and the terrestrial tuner unit 113 is connected to a terrestrial antenna.

  The sink device 20 includes a buffer unit 122, an MPEG decoder unit 123, an audio / video processing unit 124, an OSD 125 that superimposes an operation signal or the like on the video signal, and a separation unit 129. The controller 130 is connected to the controller 130 for controlling the overall operation via the data bus. Further, the output of the selector unit 117 is connected to the display unit 141.

  Furthermore, the sink device 20 includes a remote control communication unit 133 that receives user operations and remote controller R operations. Here, the remote controller R enables almost the same operation as the operation unit 132 provided in the main body of the sink device 20, and various settings such as operation of a tuner and setting of scheduled recording can be performed.

・ Source device 30
The source device 30 is a hard disk recorder that handles HD DVD as an example, as shown in FIG. As shown in FIG. 4, the source device 30 has two types of disk drive units. First, it has an optical disk drive unit 219 that rotationally drives an optical disk D as a first medium, which is an information recording medium that can construct a video file, and executes reading and writing of information. Here, the optical disc D is an HD DVD as an example, but is not limited thereto. In addition, it has a hard disk drive unit 218 that drives a hard disk as a second medium. The control unit 230 is connected to each unit via a data bus so as to control the entire operation.

  Also, the source device 30 shown in FIG. 4 includes an encoder unit 221 that constitutes a recording side, an MPEG decoder unit 223 that constitutes a reproduction side, and a control unit 230 that controls the operation of the apparatus main body. . The source device 30 includes an input-side selector unit 216 and an output-side selector unit 217. The input-side selector unit 216 includes a communication unit 211 such as a LAN and so-called satellite broadcasting (BS / CS). A tuner unit 212 and a so-called terrestrial tuner unit 213 are connected to output a signal to the encoder unit 221. The satellite broadcast tuner unit 212 is connected to a satellite antenna, and the terrestrial tuner unit 213 is connected to a terrestrial antenna.

  The source device 30 also includes an encoder unit 221, a data editing unit 220 that receives the output of the encoder unit 221, and performs desired data processing such as data editing, a hard disk drive unit 218 connected to the data editing unit 220, An optical disk drive unit 219 is provided. Further, the source device 30 includes a hard disk drive unit 218, an MPEG decoder unit 223 that receives and decodes a signal from the optical disk drive unit 219, an encoder unit 221, a buffer unit 222, an MPEG decoder unit 223, and a multiplexing unit. 228, a separation unit 229, a control unit 230, an OSD unit 234 that synthesizes a desired video on a video screen, and a reservation recording unit 243 that generates a reservation list and a program guide image. These units are connected to the control unit 230 via a data bus. Further, the output of the selector unit 17 is connected to an external receiver (not shown) or supplied to the external device via the interface unit 227 that communicates with the external device.

  Furthermore, the source device 30 includes an operation unit 232 that is connected to the control unit 230 via the data bus and receives a user operation or a remote control R operation. Here, the remote controller R is capable of almost the same operation as the operation unit 232 provided in the main body of the source device 30. The remote controller R can perform recording / playback instructions, editing instructions, and tuners for the hard disk drive unit 218 and the optical disk drive unit 219. Various settings such as the above-mentioned operation and the setting of reserved recording are possible.

  In the source device 30 having such a configuration, an outline of reproduction processing and recording processing will be described by taking an example of an optical disc. In other words, under the control of the control unit 230, the optical disk D rotated at a predetermined speed is irradiated with laser light, the reflected light is detected by the optical pickup, and a detection signal based on this is output. Based on this detection signal, an RF signal is generated, and a reproduction process is performed following the data reading process.

  In the optical disc recording process, data supplied via the selector unit 216 via an input unit (not shown), for example, is supplied to the encoder unit 221 and encoded and output under the control of the control unit 230. In accordance with the encoded output and the output of the control unit 230, the drive current of the laser driver is supplied to the optical pickup, and the recording process is performed by irradiating the storage area of the optical disc D.

  As described above, the sink device 20 and the source device 30 according to an embodiment of the present invention can be implemented by the above-described television apparatus, hard disk recorder apparatus, or the like. However, the present invention is not limited to these embodiments, and can be applied to many video processing apparatuses.

<Example of EDID Change Process Performed by Video Processing Apparatus According to One Embodiment of the Present Invention>
Next, an example of EDID change processing by the video processing apparatus that is the sink device 20 described above will be described in detail using a flowchart.

(One Embodiment of EDID)
First, an embodiment of EDID in which a video processing apparatus according to an embodiment of the present invention performs change processing will be described. FIG. 5 is an explanatory diagram showing an example of an EDID item list to be changed by the sink device according to the embodiment of the present invention.

  That is, EDID (Extended Display Identification Data) is extended identification information supplied from the sink device 20 on the display side to the source device 30, and any video / audio signal can be reproduced by the sink device 20. It is the information which shows. An example of the item list is shown below.

That is,
“Header
ID Manufacturer Name
ID Product Code
ID Serial Number
Week of Manufacture
Year of manufacture
EDID Version Number
EDID Revision Number
Video Input Definition
Max. Horizontal Image Size
Max. Vertical Image Size
Display Transfer Characteristic (Gamma)
Feature Support
Color Characteristics
Established Timings 1
Established Timings 2
Established Timings 3
Standard Timing Identification
Detailed Timing Description # 1-1080p
(59.94 / 60Hz)
(preferred)
Detailed Timing Description # 2-480p 16: 9
(59.94 / 60Hz)
(next preferred)
Monitor Descriptor-Monitor Name
Monitor Descriptor-Monitor Range Limits
Extension Flag
Checksum
Tag
Revision Number
Byte number offset
Total Number of Native Formats
Video Tag
Audio Tag
Vender Specific code Tag
(CEC Physical address)
/ * HDMI1.3 description part (DeepColor, LipSync, xvYCC) * /
(By deleting or adding this information, the EDID change process described later is performed.)
Detailed Timing Description # 3-1080i
(59.94 / 60Hz)
Detailed Timing Description # 4-720p
Horizontal Image Size
Vertical Image Size
Horizontal vertical Image size
Detailed Timing Description # 5-480p 4: 3
(59.94 / 60Hz)
Detailed Timing Description # 6-480i 4: 3
Checksum (The checksum is also corrected according to the EDID change).

  As described above, in particular, the description part (DeepColor, LipSync, xvYCC) * / of HDMI 1.3 is changed to an EDID that cannot be supported by the source device by performing a change process as described later. To do. As a result, by supplying a video / audio signal that can be processed from the source device to the sink device, it is possible to improve the audio signal that cannot be reproduced by the sink device.

(EDID change processing in manual mode)
Next, EDID change processing in manual mode performed by the video processing apparatus according to the embodiment of the present invention will be described with reference to the drawings. FIG. 6 is a flowchart showing an example of EDID change processing in the manual mode of the video processing apparatus according to the embodiment of the present invention. FIG. 7 is an explanatory diagram showing an example of an operation instruction screen in the manual mode of the sink device according to the embodiment of the present invention. Note that each step in the flowcharts of FIGS. 6, 8, and 9 below can be replaced with a circuit block, and therefore all steps in each flowchart can be redefined as blocks.

  The sink device 20 includes a communication unit 111 such as HDMI, and the communication unit 111 such as HDMI further includes an EDID change unit 111-1 for performing the following EDID change processing. First, since there are a total of eight on / off combinations of the three types of LipSync, xvYCC, and DeepColor, each of the eight types of EDID data is stored in a communication unit 111 (not shown) such as the storage unit 131 or the HDMI. Be prepared. As the default setting values for the eight types of EDID data, all modes are on.

  When the source device 30 malfunctions when the source device 30 is HDMI-connected to the sink device 20, such as when the source device malfunctions, it may operate normally when the EDID on / off setting is turned off. . Here, there are three EDID setting methods: manual mode, guidance mode, and auto mode.

  When setting manually, any setting of LipSync, xvYCC, and DeepColor is changed (ON / OFF). If the operation is normal after the change, the setting can be completed. If abnormal operation remains, try changing the setting of another item. Even if all combinations (eight patterns) are tried (or all turned off), if the abnormal operation remains, it is considered that the cause is other than EDID setting.

  That is, as shown in the flowchart of FIG. 6, the EDID changing unit 111-1 and the control unit 130 of the communication unit 111 such as HDMI first determine whether or not the HDMI connection is established (step S11). When the EDID changing unit 111-1 and the control unit 130 confirm the HDMI connection, the EDID changing unit 111-1 and the control unit 130 further determine whether the video / audio signal is received after the EDID is supplied (step S12). After confirming the reception of the video / audio signal, the EDID changing unit 111-1 and the control unit 130 further determine whether the audio / video processing unit 124 can reproduce the audio signal (step S13).

  When the EDID changing unit 111-1 and the control unit 130 confirm the reproduction of the audio signal, it is determined whether or not to perform the EDID changing process in the manual mode (step S14). This is because the changing unit 111-1 and the control unit 130 determine whether the EDID change should be processed in the manual mode, the guidance mode, or the auto mode according to the specification set on the menu screen or the like (step S19). . If the changing unit 111-1 and the control unit 130 determine that the guidance mode processing should be performed, the processing is transferred to the guidance mode processing of FIG. 8 (step S20). If the changing unit 111-1 and the control unit 130 determine that the auto mode process should be performed, the process is transferred to the auto mode process of FIG. 9 (step S21).

  If the changing unit 111-1 and the control unit 130 determine that the manual mode processing should be performed, a video signal for displaying an operation screen as shown in FIG. 7 is generated to prompt the user to input. Then, the changing unit 111-1 and the control unit 130 first confirm whether the LipSync mode is turned on or off according to the operation signal generated by the user operation (step S15).

Furthermore, the changing unit 111-1 and the control unit 130 confirm the on / off change of the xvYCC mode (step S16), and confirm the on / off change of the DeepColor mode (step S17). Then, on / off of the LipSync mode, the xvYCC mode, and the DeepColor mode are changed for the EDID stored in a storage area (not shown) such as the storage unit 131 or the communication unit 111 such as the HDMI, in accordance with the operation signal generated by the confirmed user operation. To do. When these change processes are completed, all the processes are terminated (step S18).

  As described above, the changing unit 111-1 and the control unit 130 can change the EDID information in the manual mode. Thereafter, when the changed EDID information is supplied from the sink device to the source device between the sink device and the source device 30, the source device sends an appropriate video / audio signal corresponding to the new EDID from the source device to the sink device 20. Since the data can be sent, the sink device 20 can reliably perform the reproduction processing of the video / audio signal.

(EDID change processing by guidance mode)
Next, EDID change processing in the guidance mode of the video processing apparatus according to the embodiment of the present invention will be described with reference to the drawings. FIG. 8 is a flowchart showing an example of EDID change processing in the guidance mode of the video processing apparatus according to the embodiment of the present invention.

  When the EDID changing unit 111-1 and the control unit 130 of the HDMI communication unit 111 of the sink device 20 determine that the guidance mode is set in step S19 of FIG. 6 in the flowchart of FIG. 8 (step S31), the next step In addition, it is determined whether the sink device 20 is HDMI-connected to an external device such as the source device 30 and receives a video signal (step S32).

  If the HDMI connection is not established or the video / audio signal is not input, the EDID changing unit 111-1 and the control unit 130 perform the HDMI connection and display a screen prompting the user to input the video / audio signal ( Step S33).

  If it is determined that the EDID changing unit 111-1 and the control unit 130 are HDMI-connected and a video / audio signal is input, a screen for asking the user whether the video / audio signal is being reproduced next. For example, “Is the audio / video signal given from the source device currently being played? ] Is displayed on the screen (step S34). Then, the EDID changing unit 111-1 and the control unit 130 confirm whether or not an operation signal due to a user operation such as “YES” indicating that the video / audio signal has been reproduced has been detected (step S35).

  If the EDID changing unit 111-1 and the control unit 130 detect an operation signal by a user operation such as “YES” which means that such a video / audio signal can be reproduced, it is not necessary to change the EDID. Is displayed on the screen (step S36).

  However, if the EDID changing unit 111-1 and the control unit 130 cannot detect an operation signal by a user operation such as “YES” which means that such a video / audio signal can be reproduced, first, i = 0 (step S37). The EDID changing unit 111-1 and the control unit 130 turn on / off one mode in the priority order of the DeepColor mode, the xvYCC mode, and the LipSync mode with respect to the EDID information stored in the storage unit 131 or the storage area. Is changed (step S38).

  Then, after the change, the EDID changing unit 111-1 and the control unit 130 display again a screen for asking the user whether the video / audio is being reproduced (step S39). As a result, if the EDID changing unit 111-1 and the control unit 130 can confirm the operation signal indicating that the video / audio signal can be reproduced (step S40), the video / audio can be normally reproduced by changing the EDID. A screen display signifying that it has become (step S44).

  However, if the EDID changing unit 111-1 and the control unit 130 cannot confirm the operation signal indicating that the video / audio signal can be reproduced (step S40), i = i + 1 is counted up (step S41). ). Then, the EDID changing unit 111-1 and the control unit 130 confirm whether i ≧ 8 and have tried all the eight patterns, and if it is determined that all the patterns have not been tried (step S <b> 42), the step again Returning to S38, only one control information is selected in the priority order of DeepColor> xvYCC> LipSync, and the EDID is changed to turn off the value (step S39).

  The EDID changing unit 111-1 and the control unit 130 execute such a process for all the eight patterns (step S42), and if an operation signal indicating that the video / audio signal can be reproduced is still not confirmed (step S42). Step S40) The EDID is changed, but it is displayed on the screen that the video / audio signal cannot be normally reproduced due to another cause (Step S43).

  In addition, the EDID changing unit 111-1 and the control unit 130 change the EDID if an operation signal indicating that the video / audio signal can be reproduced can be confirmed during such processing (step S40). Thus, a screen display indicating that the video / audio signal can be normally reproduced is performed (step S44).

  Thus, by letting the user who performs the operation confirm the final reproduction of the video / audio signal, it is possible to more reliably perform the reproduction process of the video / audio signal by changing the EDID.

(EDID change processing by auto mode)
Next, the EDID change process in the auto mode of the video processing apparatus according to the embodiment of the present invention will be described. FIG. 9 is a flowchart showing an example of EDID change processing in the auto mode of the video processing apparatus according to the embodiment of the present invention.

  If the EDID changing unit 111-1 and the control unit 130 of the HDMI communication unit 111 of the sink device 20 determine that the auto mode is set in step S19 of FIG. 6 in the flowchart of FIG. 9 (step S51), the next step In addition, it is determined whether the sink device 20 is HDMI-connected to an external device such as the source device 30 and receives a video signal (step S52).

  If the HDMI connection is not established or the video / audio signal is not input, the EDID changing unit 111-1 and the control unit 130 perform the HDMI connection and display a screen prompting the user to input the video / audio signal ( Step S53). These can be determined by checking that the DDC5V of the HDMI terminal is high and the number of effective pixels of the video signal.

  If it is determined that the EDID changing unit 111-1 and the control unit 130 are HDMI-connected and a video / audio signal is input, all of the LipSync mode, DeepColor mode, and xvYCC mode of EDID information are turned on (step S54). ). As a result, the EDID changing unit 111-1 and the control unit 130 determine whether the current operation state is the HDMI mode or the DVI mode (step S55). This determination method can be determined from information such as whether an AVI-Info packet has been sent. For these detailed determination methods, existing methods are used, and a description thereof is omitted here.

  If the current operation state is the HDMI mode, the EDID change unit 111-1 and the control unit 130 determine that the EDID change unit 111 is operating normally and end the EDID change process (step S56).

  However, if the current operating state is the DVI mode, the EDID changing unit 111-1 and the control unit 130 first set i = 0 (step S57). Then, the EDID changing unit 111-1 and the control unit 130 partially change the on / off patterns of the LipSync mode, the DeepColor mode, and the xvYCC mode (step S58). Thereafter, the EDID changing unit 111-1 and the control unit 130 determine whether the current operation state is the HDMI mode or the DVI mode as a result of the change (step S59). After making the determination, EDID changing unit 111-1 and control unit 130 set i = i + 1 (step S60), and then i ≧ 8, and the EDID changing process and the confirmation of the current operation state are completed for all patterns. Whether or not (step S61). If not done for all patterns, the process returns to step S58 and repeats.

  If the EDID changing unit 111-1 and the control unit 130 determine that the EDID changing process and the current operation state have been confirmed for all the patterns, whether or not any of the patterns has confirmed the HDMI mode. Judgment is made (step S62).

  As a result, the EDID changing unit 111-1 and the control unit 130 determine whether all are in the DVI mode, one HDMI mode, or a plurality of HDMI modes (step S63).

  If the EDID changing unit 111-1 and the control unit 130 determine that all are in the DVI mode, the EDID is changed to a pattern that turns on all of the LipSync mode, the DeepColor mode, and the xvYCC mode because there is no EDID problem. (Step S64).

  If the EDID changing unit 111-1 and the control unit 130 determine that the HDMI mode is set for each, the EDID is changed to the setting set to the HDMI mode (step S65).

  If the EDID changing unit 111-1 and the control unit 130 determine that the HDMI mode is set for a plurality of patterns, the optimum one is selected from the plurality of patterns, and the EDID is changed to the pattern (step S66). .

  That is, when there are a plurality of devices that are in the HDMI mode, the EDID changing unit 111-1 and the control unit 130 are combinations of LipSync, xvYCC, DeepColor on / off, for example, DeepColor> xvYCC> LipSync priority For example, when any one of the switches is turned off and the HDMI mode is set, a combination of DeepColor: on / xvYCC: on / LipSync: off is selected. It is also preferable to select one with a large number of ONs. Also, if there are multiple patterns in HDMI mode, a list of control information of those LipSync, xvYCC, and DeepColor is presented to the user, and the user can select which to turn on and which to turn off. Is preferred.

  In case of auto setting, if EDID is written in EEPROM etc., it may take time to rewrite, so display “Do not turn off power” such as “Do not turn off power”. It is preferable to put out. In addition, since this auto setting takes time, it is preferable that only the setting from the menu is performed, for example, it is not performed when the port is switched or the power is turned on.

  Further, it is preferable that the set value here is not reset when the power is turned on / off or the like and is not reset unless the setting is initialized.

The EDID changing unit 111-1 and the control unit 130 need to set HPD (Hot Plug Detection) to low so that the EDID is not accessed from the source device while the EDID is being rewritten. Further, the EDID changing unit 111-1 and the control unit 130 set HPD low for about 500 msec and then return it to high to reliably reset the source device. After returning to high, it waits for a sufficient time and checks whether or not the HDMI mode is set. If not, the next EDID data is written. This is repeated 8 times at worst, and if it still does not become the HDMI mode, the EDID is rewritten again in order to return all to the ON setting.
As described above, in the sink device 20 according to the embodiment of the present invention, the EDID change process is appropriately performed as described above.

  Thus, in the manual mode, descriptions on EDID related to LipSync, xvYCC, and DeepColor can be turned on / off from the menu.

  In addition, this makes it possible for the “source device that causes a malfunction by reading an EDID corresponding to HDMI 1.3” to operate normally.

  In the guidance mode, the user can operate and confirm according to a guide instructed on the television screen, so that the reproduction status of the video / audio processing can be reliably determined.

  Further, in the auto mode, it is possible to automatically perform all of the determination as to whether or not a malfunction has occurred and the EDID change process corresponding to this.

  In the above-described embodiment, the information that cannot be reproduced due to the malfunction of the EDID information is not limited to the audio signal, and the video signal may be unreproducible. It should be noted that it is within the scope of embodiments of the invention.

  With the various embodiments described above, those skilled in the art can realize the present invention. However, it is easy for those skilled in the art to come up with various modifications of these embodiments, and have the inventive ability. It is possible to apply to various embodiments at least. Therefore, the present invention covers a wide range consistent with the disclosed principle and novel features, and is not limited to the above-described embodiments.

  DESCRIPTION OF SYMBOLS 20 ... Sink device, 30 ... Source device, 111 ... Communication part, 111-1 ... EDID change part, 130 ... Control part, 131 ... Memory | storage part, 141 ... Audio-video output part, 30 ... Source device, 211 ... Communication part, 230: Control unit, 233: Storage unit.

Claims (13)

A storage unit for storing EDID information;
A communication unit that communicates with another video processing device according to the HDMI standard via a communication path, transmits the EDID information stored in the storage unit, and receives a video signal from the other video processing device; ,
A reproduction unit for reproducing the video signal received by the communication unit;
A display for displaying the video signal;
A changing unit that changes the EDID information stored in the storage unit when the reproducing unit cannot correctly reproduce the video signal;
A video processing apparatus comprising: A storage unit for storing EDID information;
When connected to another video processing device according to the HDMI standard via a communication path, the EDID information is transmitted to the other video processing device, and a video signal is transmitted from the other video processing device. A communication unit to receive,
A reproduction unit for reproducing the video signal received by the communication unit;
A display unit that displays a message prompting connection according to the HDMI standard when not connected to the other video processing device according to the HDMI standard via the communication path;
A changing unit that changes the EDID information stored in the storage unit when the reproducing unit cannot correctly reproduce the video signal;
A video processing apparatus comprising:   Whether the communication unit tests communication conforming to the HDMI standard via the communication path to the other video processing apparatus and is connected to another video processing apparatus according to the HDMI standard via the communication path. The video processing apparatus according to claim 2, which checks whether or not.   The video processing apparatus according to claim 1, wherein the changing unit changes the EDID information stored in the storage unit in accordance with a supplied operation signal.   The changing unit displays a screen asking whether or not the playback unit has correctly played back the video signal, and receives an operation signal indicating that the playback unit has not played back the video signal correctly. The video processing apparatus according to claim 1, wherein the EDID information stored in the storage unit is changed.   3. The video processing apparatus according to claim 1, wherein the change unit changes the EDID information stored in the storage unit when detecting that the playback unit has not correctly played back the video signal. 4.   The video processing apparatus according to claim 1, wherein the changing unit changes the EDID information by changing ON / OFF of LipSync, xvYCC, and DeepColor control information included in the EDID information.   3. The video processing apparatus according to claim 1, wherein the changing unit prepares eight patterns of the EDID information as combinations of on / off of control information of LipSync, xvYCC, and DeepColor, and selects one from these.   The change unit tries to turn on and off the control information of DeepColor, xvYCC, and LipSync. As a result, when there are a plurality of control information that the reproduction unit can correctly reproduce the video signal when turned off, DeepColor, xvYCC 3. A video processing apparatus according to claim 1, wherein priorities are set for the control information of LipSync, and only one control information is selected and turned off according to the priorities.   As a result of trying ON / OFF for the control information of DeepColor, xvYCC, and LipSync, when the change unit has a plurality of pieces of control information that the playback unit was able to correctly reproduce the video signal when turned off, the change unit, The video processing apparatus according to claim 1 or 2, wherein image information to be displayed on a screen is generated in order to select one from the control information of xvYCC and LipSync.   The video processing apparatus according to claim 1, wherein the control unit generates image information for displaying that the power is not turned off while the changing unit is changing the EDID information. The first video processing device that stores the EDID information performs communication according to the HDMI standard via the communication path to the second video processing device, transmits the EDID information, and transmits the EDID information from the second video processing device. Receiving a video signal via the communication path;
The first video processing device reproduces the video signal;
The first video processing device displays the video signal;
The video processing method in which the first video processing device changes the EDID information when the video signal cannot be reproduced correctly. When the first video processing device storing EDID information is not connected to the second video processing device according to the HDMI standard via a communication path, the first video processing device is connected to the HDMI standard. When a message prompting connection according to the above is displayed and connected to the second video processing device according to the HDMI standard via the communication path, the EDID information is sent to the second video processing device. And receiving a video signal from the other video processing device,
The first video processing device reproduces the video signal;
The video processing method in which the first video processing device changes the EDID information when the video signal cannot be reproduced correctly.

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