KR101061130B1 - Source equipment, sink equipment, and HDM control method for setting the optimum resolution - Google Patents

Abstract

The present invention relates to a source device and a sink device of a video display system for setting the optimum resolution, and more particularly, the sink device and the source device communicate by using an HDMI cable to adjust the resolution in various ways, The present invention relates to source equipment and sink equipment of an image display system for displaying an image, and a control method thereof.

Sink equipment, source equipment, HDMI cable, resolution

Description

Source Device, Sink Device and Controlling Method of HDMI for Setting Optimal Resolution}

The present invention relates to a source device, a sink device, and an HDMI control method of an image display system for setting an optimal resolution. More specifically, the sink device and the source device communicate using a HDMI cable to adjust the resolution in various ways. The present invention relates to a source device, a sink device, and an HDMI control method of an image display system displaying an image at an optimal resolution.

Recently, DVD (Digital Versatile Disc) has become the main recording medium for recording and reproducing high quality video and audio signals, and the digital video display device capable of displaying high-quality video and the digital high-definition video of DVDs more clearly. Display high-definition digital TV is becoming widespread.

Therefore, an increasing number of DVD devices (e.g., DVD players, DVD recorders, etc.) and digital TVs that record or play video on DVDs are increasingly used. As a digital interface for data transmission between these devices, DVI ( Digital Visual Interface (HDD) or High Definition Multimedia Interface (HDMI) is used.

HDMI is a multimedia interface for transmitting uncompressed full digital audio / video signals on a single cable. HDMI is an interface between audio and video sources, set-top boxes and DVD players, and sink devices such as monitors and digital TVs. to provide. A device for transmitting audio and video signals to a sink device such as a digital TV using the digital interface of HDMI is also called a digital interface device. The digital interface device may include not only various DVD devices but also set-top boxes, VTRs, and game machines. .

As digital equipment is diversified, the demand for high resolution and high definition is increasing, and the data rate of HDMI signals is increasing to several Gbps. Accordingly, the possibility of quality problems such as noise generation is increasing due to the HDMI cable quality or the matching between the sink device and the source device.

In the prior art, the source device recognizes EDID (Extended Display Identification Data) to output the maximum resolution (typically the maximum bit rate) that can be supported, or the EQ of the sink device is properly adjusted to find the optimal setting value from the sink device position. In this case, video noise may occur when the quality of the HDMI cable is poor or when there is a matching problem between the source device and the sink device. In addition, there is a limit to setting the optimum resolution only by setting the sink device or the source device without a feedback structure. That is, due to various sink devices, source devices, and cable devices connecting them, an error may occur when the screen is output from the sink device, or an unoptimized resolution may be output due to compatibility problems between devices.

The present invention is to solve the problems of the prior art as described above, the object of the various source equipment and sink equipment connected to the digital interface to operate without error.

In addition, an object of the present invention is to increase the user convenience and system efficiency by the source device and the sink device to communicate through a digital interface to change the output from the source device to output the image at the optimal resolution.

In accordance with another aspect of the present invention, there is provided a method of controlling a high definition multimedia interface (HDMI), comprising: receiving an image signal from a source device at an HDMI receiver of a sink device; Detecting whether a reception error occurs in the HDMI receiver; Requesting a source device to change the resolution setting of the video signal through a High Definition Multimedia Interface (HDMI) -Consumer Electronics Control (CEC) line when the HDMI receiver detects a reception error; And receiving an image signal having a resolution setting changed from the source device.

HDMI control method according to an embodiment of the present invention, receiving the video signal resolution setting change request from the source equipment; Searching for a changeable setting step among the setting steps of the video signal; As a result of the search, if there is a changeable setting step, the method may include changing to a changeable setting step and transmitting an image signal to the sink device. In addition, if there is a changeable setting step as a result of the search, the step of changing to the changeable setting step and transmitting the video signal to the sink device may be performed by searching whether there is an unchanged setting step and performing the unchanged setting step. Changing the resolution setting; And transmitting the changed configuration video signal to the sink device.

In the HDMI control method according to an embodiment of the present invention, the step of detecting whether there is an unchanged setting step and changing the video signal resolution setting of the source equipment to the unchanged setting step may include an unchanged TMDS timing in the TMDS timing setting step. Searching for whether there is a setting step; And changing the image signal resolution setting to the unchanged TMDS timing setting step.

In addition, in the HDMI control method according to another embodiment of the present invention, the step of detecting whether there is an unchanged setting step and changing the video signal resolution setting of the source equipment to the unchanged setting step does not correspond to the transmission data rate step. Searching for a modified transmission data rate step; And adjusting the unchanged transmission data rate from the data rate having the highest resolution to change the video signal resolution setting.

In the HDMI control method according to an embodiment of the present invention, if an unchanged setting step is not found in the source device, the HDMI control method transmits a message indicating that all video signal resolution setting changes have been performed to the sink device, and sends a message from the HDMI receiver of the sink device. Upon receiving the signal, the sink device may further include determining that the detection of the optimal resolution is failed.

In the HDMI control method according to an embodiment of the present invention, when it is determined that the detection of the optimal resolution is failed in the sink device, the sink device is the video signal corresponding to the highest resolution among the image signal resolution settings previously changed through the HDMI-CEC line. The method may further include requesting a setting change to a resolution setting. In addition, when it is determined that the detection of the optimal resolution is failed by the sink device, the sink device may further include setting the video signal resolution to a default value according to a preset user setting or system setting.

The HDMI control method according to an embodiment of the present invention further includes the step of determining whether the source device supports the HDMI (High Definition Multimedia Interface) -CEC (Consumer Electronics Control) function in the sink device, and further comprising the HDMI-CEC line. The step of requesting to change the resolution setting of the video signal to the source device through, if it is determined that the source device supports the HDMI-CEC function, requesting to change the video signal resolution setting to the source device through the HDMI-CEC line It may include.

According to an embodiment of the present invention, a sink device for setting an optimal resolution may include an HDMI receiver configured to receive an image signal through an HDMI cable including a CEC line, an image signal processor configured to receive and process an image signal from an HDMI receiver, and an image signal. The video signal output unit outputs the processed video signal by the processing unit, and the HDMI receiver detects whether a reception error occurs when the video signal is received, and if the reception error is detected, requests for changing the video signal resolution setting of the source equipment through the CEC line. It may include a control unit for controlling to transmit.

In the sink device for setting the optimal resolution according to an embodiment of the present invention, the control unit is optimized by the setting of the source device at the time of receiving the video signal, if the reception error does not occur in the HDMI receiver when receiving the video signal from the source equipment The resolution setting may be determined, and an image signal may be output. In addition, when the controller receives a message indicating that the resolution setting of all video signals has been changed from the source device, the controller determines that the optimal resolution setting has failed, and the video signal is set to the highest resolution setting or default value among the received video signal settings. You can output

Source equipment for setting the optimal resolution according to an embodiment of the present invention, the video signal input unit for receiving a video signal and outputting to the HDMI transmitter, an HDMI transmitter for transmitting a video signal via an HDMI cable including a CEC line, and CEC When receiving a resolution setting change request of the video signal from the sink device through the line, it may include a control unit for controlling to transmit the video signal by changing the resolution setting by stepping down from high resolution to low resolution.

In the source equipment for setting the optimum resolution according to an embodiment of the present invention, the control unit controls to change the resolution setting of the video signal by sequentially adjusting the TMDS timing setting step or the transmission data rate setting step sequentially do. In addition, if the control unit transmits a video signal by changing all the changeable resolution settings but receives a request to change the video signal resolution setting from the sink device through the CEC line, the controller transmits a message to the sink device indicating that all the resolution setting changes have been performed. Can be controlled.

The present invention has an effect of increasing the viewing convenience of the user by outputting the optimal resolution through communication between the source equipment and the sink equipment, and increases the efficiency of using the system by outputting the optimal resolution within the performance of the system.

In addition, the present invention can minimize potential consumer complaints due to the problem of matching with sink equipment due to the diversification of source equipment and cables.

In addition, the present invention has the effect of improving the convenience and efficiency for using a variety of equipment by increasing the compatibility between the equipment.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention that can specifically realize the above object will be described. The configuration and operation of the present invention shown in the drawings and described by the drawings are described as at least one embodiment, and the technical spirit, configuration, and operation of the present invention are not limited by such embodiments.

The terms used in the present invention have been selected as widely used general terms as possible in consideration of the configuration and function of the present invention, but may vary according to the intention and custom of the person skilled in the art or the emergence of new technologies. In certain cases, there is also a term arbitrarily selected in this specification, in which case the meaning will be described in detail in the description of the invention. Therefore, it is to be understood that the terminology used in the present invention should be defined and understood based on the meaning of the term and the contents throughout the present specification, rather than simply the name of the term.

1 is a diagram illustrating a source device and a sink device connected by a digital interface cable according to an embodiment of the present invention.

In FIG. 1, a DVD player 1010 is shown as an example of source equipment, a digital TV 1020 is shown as an example of sink equipment, and an HDMI cable 1030 is shown as an example of a digital interface cable.

In addition to the DVD player, the source equipment may include various video signal output equipment such as a set top box, a cable receiver, a satellite broadcast receiver, and a personal computer. As the sink equipment, various video display equipment such as a monitor and a projector may be included in addition to the digital TV. Digital interface cables may include DVI cables in addition to HDMI cables.

Recently, as multimedia contents are diversified, various multimedia devices for reproducing and transmitting various multimedia contents have been developed together, and interface technologies for simple and lossless signal connection between them have been developed. The most representative multimedia interfaces are DVI and HDMI.

DVI (Digital Visual Interface) is a transmission standard established by a consortium formed by leading companies in the computer industry called DIGITAL DISPLAY WORKING GROUP to digitally connect monitors and PCs. The DVI standard has been widely applied to not only PCs and monitors but also commercial plasma displays and peripherals. Recently, HDMI standards, which are more suitable for high-definition multimedia environments, have been developed and commercialized.

HDMI is a high-speed multimedia interface that integrates and transmits uncompressed full digital audio and video signals. It is a newly developed standard for DVD players, HDTVs, and set-tops that replaces analog interfaces such as composite, S-video, and component video. Mainly applied to boxes and the like.

This HDMI is simple to process 5Gbps digital video and audio without compression, simple circuit, no quality deterioration, and copyright protection of content by HDCP (High-bandwidth Digital Content Protection). It has the advantage of being easy to use with a single cable connection. In addition, it is compatible with DVI, which is mainly used in the computer industry, and its application is a multimedia interface that is being developed.

Meanwhile, the HDMI standard defines a user electronic control (CEC) and a CEC bus that can easily control a plurality of networked multimedia devices. According to the CEC, the control of multimedia devices connected via HDMI is individually controlled. Since it can be simply performed on one device without the user, the user can conveniently link the devices.

In the following description, a case where an HDMI cable is connected as a digital interface will be described as an example.

2 is a block diagram of an HDMI system including an HDMI source device 2010 and an HDMI sink device 2020 according to an embodiment of the present invention.

The HDMI interface includes three independent communication channels, such as Transition Minimized Differential Signaling (TMDS), Display Data Channel (DDC), and Consumer Electronics Control (CEC), which provide audio / video data, device information, and control commands. Can send and receive

The HDMI source equipment 2010 transmits the video signal and the audio signal included in the video signal to the HDMI sink device through the TMDS channel. The HDMI sink device 2020 receives a video signal and an audio signal transmitted through a TMDS channel, and stores its standard information in an EDIDROM. The TMDS channel supports data transmission below 5 Gbps and is responsible for transmitting and receiving video signals and audio signals.

The HDMI source device 2010 may query the detailed information stored in the EDIDROM of the HDMI sink device 2020 through the DDC channel and transmit the video signal and the audio signal optimized for the HDMI sink device 2020. The DDC channel is a data communication standard defined by the international standard organization VESA, and has a function of realizing an optimal screen by referring to the standard information of the HDMI source equipment 2010. In detail, the HDMI source device 2010 may know detailed information of the HDMI sink device 2020 through EDID (Extended Display Identification) outputted by the HDMI sink device 2020 through the DDC channel. The media data is converted according to the display environment of the HDMI sink device 2020 and output to the HDMI sink device 2020 through the TMDS channel. The EDID includes, for example, a producer ID indicating a manufacturing company, a model ID indicating a model name of a product, a supporting function of the display device, timing information, and the like.

The HDMI source device 2010 and the HDMI sink device 2020 may transmit and receive control commands through the CEC channel. The CEC channel is an additional protocol that performs high level control in HDMI.

The HDMI sink device 2020 may be implemented as various digital broadcasting devices supporting the HDMI-CEC function. The HDMI-CEC function refers to a function that can control CEC (Consumer Electronics Control) products through the HDMI interface. The ability to provide automatic power-on, automatic signal routing, and single-point remote control of CEC-based products is a feature of the HDMI interface.

In the present invention, the HDMI source device 2010 and the HDMI sink device 2020 communicate the information on the resolution and whether or not an error occurs through the CEC channel can set the optimal resolution. Hereinafter, the HDMI source equipment 2010 and the HDMI sink equipment 2010 may be referred to as an HDMI transmitter and an HDMI receiver, respectively.

3 is a flowchart illustrating a method of setting an optimal resolution of a source device and a sink device through an HDMI cable according to an embodiment of the present invention.

The sink device checks whether the source device connected through the HDMI cable supports the HDMI-CEC function (S3010). If the source device does not support the HDMI-CEC function, set the resolution separately on the source device and the sink device.

If it is determined that the source device supports the HDMI-CEC function, the sink device receives the video signal from the source device and detects whether a reception error is detected in the HDMI receiver that receives the video signal (3020). The reception error of the HDMI receiver may be detected by determining incompatibility between devices, failure of TMDS timing synchronization between devices, and data rate mismatch between sink device and source device, which may lead to deterioration of display screen quality. have.

When the sink device detects a reception error from the HDMI receiver, the sink device requests to change the resolution setting of the video signal of the source device through the CEC line (S3030).

When the source device receives a request to change the resolution setting of the video signal from the sink device through the CEC line, the source device searches for the changeable setting (S3040 and S3060), and changes the setting in various ways so that the optimal resolution can be set (S3050 and S3070). ). At this time, the source device may search for the TMDS timing setting step or the transmission data rate setting step, and then change the resolution setting of the video signal so that the optimum resolution may be set by changing the resolution setting to the unchanged setting step.

In FIG. 3, the source apparatus first searches whether all the TMDS timing setting steps have been changed (S3040), and if there is an unchanged TMDS timing setting step, changes the TMDS timing step by step (S3050). Such a step change in TMDS timing may include changing electrical characteristics, such as pre-emphasis or level, while maintaining a data rate that can be represented by resolution. While changing the TMDS timing step, the source device may set a tag to the changed TMDS step to indicate that the changed step and transmit the changed configuration video signal to the sink device.

After receiving the changed image signal, the sink device checks whether a reception error occurs (S3020). If the reception error does not occur, the sink device determines that the optimal resolution setting is completed (S3090), outputs an image signal, and a reception error occurs. If again, the change request is transmitted (S3030).

In this way, if a reception error is detected at the HDMI receiver of the sink device even though all the TMDS timing steps have been changed, and a setting change request is received, the source device next searches whether all data rates have changed (S3060), If there is a data rate, the set data rate is gradually adjusted downward from the data rate of the highest resolution (S3070). Such a step change in data rate may include stepping down the TMDS bandwidth, such as lowering the color depth or resolution while referring to the EDID of the sink device. While changing the data rate step, the source device may set a tag in the changed data rate step to indicate the changed step and transmit the changed configuration video signal to the sink device.

Similarly, after receiving the changed video signal, the sink device checks whether a reception error has occurred (S3020). If the reception error does not occur, the sink device determines that the optimal resolution setting is completed (S3090) and outputs a video signal. If it occurs, the change request is transmitted again (S3030).

If the source device detects a reception error at the HDMI receiver of the sink device despite all possible setting changes, the sink device determines that the optimum resolution has failed (S3070). In this case, the sink device may output audio / video by communicating with a source at a setting having the highest resolution during a change process that has been performed, or output audio / video by setting a default value according to a user / system setting. That is, the sink device may request the source device to change the setting to the resolution setting corresponding to the highest resolution among the resolution settings of the previously changed video signal or to transmit the video signal at the default value. The sink device may set the resolution by setting the default value of the sink device itself.

If the reception error is not detected by the HDMI receiver of the sink device during the resolution setting change of the video signal possible in the source device, it is determined that the optimal resolution setting is completed (S3080), and the audio / video is output in this setting.

4 is a configuration diagram of a source device and a sink device according to an embodiment of the present invention.

As described above, the source device 4100 may include various video signal output devices such as a DVD player, a set-top box, a cable reception device, a satellite broadcast reception device, a personal computer, and the sink device 4200 may include a digital TV, a monitor, and a projector. And various video display equipment. HDMI cable 4300 includes a CEC line.

In an embodiment of the present disclosure, the source equipment 4100 may include a source equipment controller 4110, an image signal input unit 4120, and an HDMI transmitter 4130. The video signal input unit 4120 receives and processes video, audio, and data contents such as an MPEG stream, and outputs the same to the HDMI transmitter 4130. The HDMI 4130 output unit transmits a signal (hereinafter, also referred to as a video signal) including video, audio, data content, etc. to the sink device 4200 through the HDMI cable 4300.

The sink device 4200 may include a sink device controller 4210, an HDMI receiver 4220, an image signal processor 4230, and an image signal output unit 4240. The HDMI receiver 4220 receives an image signal through the HDMI cable 4300 and transmits the image signal to the image signal processor 4230. The image signal processor 4230 performs signal processing on the image signal output and transmits the processed signal to the image signal output unit 4240, and the image signal output unit 4240 outputs the processed image signal to the user.

In the sink device 4200 that sets the optimal resolution according to the present invention, the sink device controller 4210 determines whether the connected source device 4100 supports the HDMI-CEC function and the HDMI cable 4300 in the HDMI receiver 4220. Search for whether a reception error is detected when the video signal is received. When the source device 4100 supports the HDMI-CEC function and the HDMI receiver 4220 detects a reception error, the sink device controller 4210 feeds back a reception error occurrence through the CEC line and requests a resolution change. .

When the source device 4100 changes the setting, the sink device controller 4210 detects and feeds back a reception error in the HDMI receiver 4220 and requests the source device setting change again. If a reception error is not detected by the HDMI receiver 4220 while the source device 4100 is changing a setting, the HDMI receiver 4220 controls the HDMI receiver 4220 to output an image signal in the corresponding setting. If the source device 4100 has changed all the settings but there is no setting for which no reception error is detected, the sink device controller 4210 determines that the optimum resolution setting has failed, and the setting or user / system having the highest resolution among the changed settings. The source device 4100 is output to output the video signal with the default value set according to the setting, and the received video signal is output.

The source equipment 4100 for setting the optimal resolution according to the present invention receives a resolution setting change request from the sink equipment to the HDMI transmitter through the CEC line. The source device control unit 4110 may change the TMDS timing step by step (maintain the resolution and change the electrical characteristics such as pre-emphasis or level), or step down the data rate (by referring to the EDID of the source device, the color depth ( Change the resolution setting by lowering the TMDS bandwidth, such as lowering the color depth or lowering the resolution. At this time, the source equipment control unit 4110 gradually changes the setting from the setting of the high resolution to the setting of the low resolution, and gradually adjusts the resolution until a feedback for the occurrence of a reception error and a request for changing the resolution setting are not received from the sink device 4200. The input unit 4120 and the HDMI transmitter 4130 are controlled to be changed and transmitted.

The source device controller 4110 indicates that all the resolution setting changes have been performed when the video signal is transmitted through the CEC line even though the video signal is transmitted by changing all possible resolution settings. Send a message.

According to the present invention, the source device and the sink device output the optimum resolution through communication, thereby increasing the user's viewing convenience, and outputting the optimum resolution within the performance of the system, thereby increasing the system use efficiency.

In addition, the present invention can minimize potential consumer complaints due to the problem of matching with sink equipment due to the diversification of source equipment and cables.

In addition, the present invention has the effect of improving the convenience and efficiency for using a variety of equipment by increasing the compatibility between the equipment.

Embodiments of the present invention have been illustrated and described above, but the present invention is not limited to the above-described specific embodiments, and the general knowledge in the art to which the present invention pertains without departing from the spirit of the invention as claimed in the claims. Of course, any person having a variety of modifications can be made, and such changes are obvious within the scope of the claims.

1 is a block diagram illustrating source equipment and sink equipment connected with a digital interface cable according to an embodiment of the present invention;

2 is a configuration diagram of an HDMI system including HDMI source equipment and HDMI sink equipment according to an embodiment of the present invention;

3 is a flowchart of a method for setting an optimal resolution of a source device and a sink device through an HDMI cable according to an embodiment of the present invention;

4 is a configuration diagram of a source device and a sink device according to an embodiment of the present invention.

Claims (15)

In the HDMI (High Definition Multimedia Interface) control method, Receiving an image signal from a source device at an HDMI receiver of the sink device; Detecting whether a reception error occurs in the HDMI receiver; Requesting, by the HDMI receiver, to change the resolution setting of the video signal to the source device through a High Definition Multimedia Interface (HDMI) -Consumer Electronics Control (CEC) line; Receiving the video signal resolution setting change request from the source device and searching for a changeable setting step of the video signal setting step; If there is a setting step in which the search result is changeable in the source device, changing to the changeable setting step and transmitting the video signal to the sink device; And And receiving a video signal having a resolution setting changed from the source device. delete The method of claim 1, If there is a changeable setting step as a result of the search, the step of changing to the changeable setting step to transmit the video signal to the sink device, Detecting whether there is an unchanged setting step and changing the video signal resolution setting of the source equipment to the unchanged setting step; And And transmitting the changed video signal to the sink device. The method of claim 3, wherein Searching for the unchanged setting step and changing the video signal resolution setting of the source device to the unchanged setting step, Searching for a TMDS timing setting step in the TMDS timing setting step; And And changing the video signal resolution setting to the unchanged TMDS timing setting step. The method of claim 3, wherein Searching for the unchanged setting step and changing the video signal resolution setting of the source device to the unchanged setting step, Searching whether there is an unchanged transmission data rate step in the transmission data rate step; And  Changing the video signal resolution setting by down-adjusting the unchanged transmission data rate from the data rate having the highest resolution. The method of claim 3, wherein If the unchanged setting step is not detected in the source device, a message indicating that all video signal resolution setting changes have been performed is transmitted to the sink device, and when the HDMI receiver of the sink device receives the message, the sink device is optimal. And determining the detection of the resolution as a failure. The method of claim 6, If it is determined that the detection of the optimal resolution is failed by the sink device, the sink device requests a setting change to the video signal resolution setting corresponding to the highest resolution among the previously changed video signal resolution settings through the HDMI-CEC line. Further comprising, HDMI control method. The method of claim 6, And determining that the sink device has failed to detect the optimum resolution, wherein the sink device sets the video signal resolution to a default value according to a preset user setting or system setting. The method of claim 1, Determining, by the sink device, whether the source device supports a high definition multimedia interface (HDMI) -consumer electronics control (CEC) function; Requesting the source device to change the resolution setting of the video signal through the HDMI-CEC line, If it is determined that the source equipment supports the HDMI-CEC function, requesting to change the video signal resolution setting to the source equipment through the HDMI-CEC line. In the sink equipment to set the optimum resolution, An HDMI receiver for receiving an image signal through an HDMI cable including a CEC line, A video signal processor for receiving and processing the video signal from the HDMI receiver; An image signal output unit configured to output an image signal processed by the image signal processor; And a controller configured to detect whether a reception error occurs when the video signal is received by the HDMI receiver, and to transmit a video signal resolution setting change request of a source device through the CEC line when a reception error is detected.  The control unit may determine an optimal resolution setting according to the setting of the source device at the time of receiving the video signal when the reception error does not occur in the HDMI receiver when the video signal is received from the source device, and output the video signal. , Sink equipment. delete 11. The method of claim 10, When the controller receives a message indicating that the resolution setting change of all the video signals has been performed from the source equipment, the controller determines that the optimal resolution setting has failed, and sets the highest resolution setting or the default value among the received video signal settings. And output the video signal. In the source equipment that sets the optimal resolution, A video signal input unit which receives a video signal and outputs it to an HDMI transmitter; An HDMI transmitter for transmitting the video signal through an HDMI cable including a CEC line, and When a resolution setting change request of the video signal is received from the sink device through the CEC line, the resolution of the video signal is gradually adjusted downward from the highest resolution that can be set from the video signal to change the resolution setting to change the video signal. And a control unit for controlling to transmit the data. The method of claim 13, The control unit, And sequentially adjusting the TMDS timing setting step or the transmission data rate setting step to change the resolution setting of the video signal. The method of claim 13, The control unit, When the video signal is transmitted by changing all the changeable resolution settings, but receives the video signal resolution setting change request from the sink device through the CEC line, a message indicating that all the resolution setting changes have been performed is transmitted to the sink device. Source equipment.

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