JP2009060204A - Device used in common as source and sink - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device used in common as a source and sink capable of detecting a functional attribute of an HDMI device connected to a single connector. <P>SOLUTION: In the device (100) used in common as the source and sink conforming to the HDMI standard, a voltage line monitor section (160) detects a voltage level (VL 1) of a connector power source line (111) connecting any one of a first functional means and a second functional means to an external device (20) conforming to HDMI standard, a TDMS line monitor section 170 detects a voltage level (VL2) of an IMDS<SB>-</SB>CLK line, and an HDMI attribute switching process section (180) determines a function (T) of the external device (20) based on the two detected voltage levels (VL1, VL2). <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a source / sink combination device that complies with the HDMI standard and has the attributes of a source device and a sink device.

  In recent years, AV systems compliant with HDMI (High Definition Multimedia Interface) standards are becoming widespread. HDMI is one of the multimedia interfaces, and can transfer video signals and audio signals from the AV playback device to the AV output device without data compression, and does not require a dedicated chip such as a decoder or software. Further, since the video signal, the audio signal, and the control signal can be transmitted with one cable, there is an advantage that the wiring of the device can be simplified (for example, see Patent Document 1).

  An AV system compliant with the HDMI standard is generally configured by connecting a source device that supplies an AV signal and a sink device that receives the AV signal with a cable compliant with the HDMI standard (hereinafter, “HDMI cable”). As the source device, a device that supplies video signals and audio signals, such as an STB, a DVD player, and a digital video camera, is used. As the sink device, a device that outputs video and audio, such as a television receiver (hereinafter “TV”) or a projector, is used. It is conceivable to configure a source / sink combination device having both the function of the source device and the function of the sink device, like a television with a built-in DVD player.

  FIG. 4 shows an example of a conceivable source / sink combination device. The source / sink combination device 10 includes a sink device corresponding block 11, a source device corresponding block 12, a connector 13a, and a connector 13b. The sink device corresponding block 11 has the function of the sink device, and the source device corresponding block 12 has the function of the source device. The sink device corresponding block 11 and the source device corresponding block 12 are respectively connected to a connector 13a and a connector 13b compliant with the HDMI standard. When the source / sink combination device 10 is configured as a DVD player built-in television, the television corresponds to the sink device corresponding block 11 and the DVD player corresponds to the source device corresponding block 12.

  As described above, in the source / sink combined device 10 configured as a TV with a built-in DVD player, the video signal reproduced by the DVD player is usually displayed on the TV display, and the audio signal is output from the TV speaker. . However, some users may wish to view the video on a projector without viewing the video on a television display. In addition, it may be desired to play back video and audio captured by the digital video camera on the display or speaker of the source / sink combined device 10.

  In order to meet such a desire, a signal is received from an external source device to the sink device compatible block 11 provided in the source / sink combined device 10, or a signal is supplied from the source device compatible block 12 to the external sink device. Is required. In order to satisfy such a requirement, the above-described connectors 13a and 13b are provided.

  Next, an AV system configured by connecting an external sink device or an external source device to the source / sink combined device 10 will be described with reference to FIG. FIG. 5A shows an AV system 1a configured by connecting the source / sink combination device 10 to the source device 20src so that the source / sink combination device 10 can be used as a sink. FIG. 1 shows an AV system 1b configured to be connected to a sink device 20snk to be used as a source. Connectors 21 and 22 compliant with the HDMI standard are also provided at the input / output terminals of the source device 20src and the sink device 20snk, respectively. The source device 20src and the sink device 20snk are collectively referred to as the external device 20.

  As shown in FIG. 5A, in the AV system 1a in which the source / sink combined device 10 is used as a sink of the source device 20src such as a digital video camera or a DVD player, the sink device compatible block 11 conforms to the HDMI standard. The source device 20src is connected through the connector 13a, the HDMI cable 40, and the connector 21. In this case, the video signal and the audio signal reproduced by the source device (for example, digital video camera) 20 are connected to the sink device corresponding block (television) 11 of the source / sink combined device (for example, TV with built-in DVD player) 10 via the HDMI cable 40. The image is displayed on the built-in display, and the sound is output from the speaker.

  As shown in FIG. 5B, in the AV system 1b in which the source / sink combined device 10 is used as a source of a sink device such as a projector, the source device compatible block 12 includes a connector 13b compliant with the HDMI standard, and an HDMI cable. 40 and the sink device 20snk via the connector 22. In this case, the video signal and the audio signal reproduced by the block corresponding to the source device (DVD player) 12 are transmitted to the sink device (for example, a projector) 30 via the HDMI cable 40, and as a powerful image on a large screen. Projected.

  In an AV system that conforms to the HDMI standard, video signals, audio signals, and control signals are transmitted between the devices via the HDMI cable. Therefore, connectors conforming to the HDMI standard are provided at the input / output terminals of each device. Yes. This principle is also observed in the source / sink combination device 10, and the sink device corresponding block 11 and the source device corresponding block 12 are connected to the external device 20 via the connectors 13a and 13b (and also the HDMI cable 40), respectively.

  However, providing a dedicated connector for each of the sink device support block 11 and the source device support block 12 increases the cost and size of the device. Further, it is necessary to determine whether the external device 20 connected to the input / output device 10 is the source device on the output side or the sink device on the input side. Furthermore, it is necessary to correctly select one of the two connectors 13a (sink side) and connector 13b (source side) and connect the external device 20, which is troublesome for the user.

For this reason, it is desired that each connector for each block is shared by one connector. In fact, in the field of AV equipment that does not conform to the HDMI standard, the input and output terminals for video and audio signals are combined into one terminal, and the connection status is automatically set according to the input and output status of the video and audio signals. Switching techniques are widespread (see Patent Documents 2 to 4).
JP 2007-79176 A Japanese Patent Application Laid-Open No. 07-038817 JP 2001-086416 A Japanese Patent Laid-Open No. 04-368666

  Applying the switching technique proposed in the above-mentioned Patent Documents 2 to 4 also to the HDMI standard-compliant source / sink device, the external device connected to one connector is the sink side or the source side Depending on the situation, it is conceivable to switch its function to a sink or a source. However, the source / sink combination device targeted by the present invention and the connected device are connected by an HDMI cable.

  Video signals, audio signals, and control signals transferred over the HDMI cable are signals conforming to the HDMI standard. Devices conforming to the HDMI standard do not have a function of notifying a connection partner of a function attribute indicating whether the device is a source or a sink. Therefore, the source / sink combination device compliant with the HDMI standard cannot obtain information on the function attribute indicating whether the connected device is a source or a sink. In other words, the source / sink function cannot be automatically switched according to the function attribute of the device connected to one connector.

  Even if the function attribute of the connected device can be known by some means, simply switching between the input (sink) and output (source) of the source / sink combined device will cause impedance mismatch etc. Problems arise. As described above, the switching technology employed in general AV devices cannot be applied to the HDMI standard-compliant source / sink device.

  The present invention has been made in view of such a conventional problem, and an object of the present invention is to provide a source / sink combined device capable of detecting a functional attribute of an HDMI device connected to a single connector. It is a further object to provide a source / sink combination device that can automatically switch its function according to the detected function attribute of the device.

In order to achieve the above object, the source / sink combined device according to the present invention is:
A source / sink combined device compliant with the HDMI standard, comprising a first functional means for realizing a function as a source device and a second functional means for realizing a function as a sink device,
A source / sink combination device compliant with the HDMI standard, comprising a second functional means for realizing
A connector for connecting any one of the first functional means and the second functional means and an external device compliant with the HDMI standard;
First voltage level monitoring means for detecting the voltage level of the power line of the connector;
Second voltage level monitoring means for detecting the voltage level of the TMDS_CLK line of the connector;
And a function determining means for determining the function of the external device based on the two detected voltage levels.

  Preferably, the source / sink combination device according to the present invention further includes an operation mode determining unit that determines the operations of the first functional unit and the second functional unit based on the determined function. Moreover, it is preferable to further comprise an operation control unit that controls the first functional unit and the second functional unit based on the determined operation.

Further, the first voltage level monitoring means generates a binary first level signal based on the detected power level of the power line,
Preferably, the second repression level monitoring unit generates a binary second level signal based on the detected voltage level of the TMDS_CLK line.

  Here, when the first level signal is Low and the second level signal is Low, the function determination unit determines that the external device is not connected. In this case, the operation mode determining means determines that the first function means and the second function means are set to a standby mode. That is, the operation control means sets the first functional means and the second functional means to high impedance.

  When the first level signal is High and the second level signal is High, the function determination unit determines that the external device is abnormal. In this case, the operation mode determining means determines that the first function means and the second function means are set to the save mode. That is, the operation control means sets the first functional means and the second functional means to high impedance.

  When the first level signal is Low and the second level signal is High, the function determination unit determines that the external device is a sink. In this case, the operation mode determining means determines that the first function means and the second function means are set to the source mode. That is, the operation control means validates the first function means.

  When the first level signal is High and the second level signal is Low, the function determination unit determines that the external device is a source. In this case, the operation mode determining means determines that the first functional means and the second functional means are set to the sink mode. That is, the operation control means enables the second function means.

The second source / sink combination device according to the present invention is
A source / sink combined device compliant with the HDMI standard, comprising a first functional means for realizing a function as a source device and a second functional means for realizing a function as a sink device,
A connector for connecting any one of the first functional means and the second functional means and an external device compliant with the HDMI standard;
First voltage level monitoring means for detecting the voltage level of the power line of the connector;
Second voltage level monitoring means for detecting the voltage level of the TMDS_CLK line of the connector;
Operation control means for controlling the first functional means and the second functional means based on the two detected voltage levels is provided.

  In the present invention, in a source / sink combined device connected to an external HDMI device via a single connector, its own function can be automatically set according to the function or state of the connected HDMI device.

  Before describing the embodiments of the present invention in detail, first, main features of the present invention will be described. The source / sink combination device according to the present invention is configured in conformity with the HDMI standard, and further includes two monitor units for detecting the state of a signal flowing through the HDMI cable. When an external device is connected to the source / sink shared connector of the source / sink combination device via an HDMI cable, the connected external device conforming to the HDMI standard is based on the detection results of the two monitor units. Or whether the function attribute is a sink.

  In accordance with the determined function attribute of the external device, the source / sink combination device switches its function to source or sink. At this time, the source / sink combination device 1 adjusts its own impedance so as not to cause impedance mismatch with the external device. As a result, the source / sink device can function as a source device or sink device according to the attributes of the device connected to the shared connector, that is, whether it is a sink device or a source device, without user switching. Can be made.

  FIG. 1 shows the configuration of a source / sink combination device according to an embodiment of the present invention. The source / sink combination device 100 includes a connector 110, a power supply block 120, a hot plug block 130, a DCC block 140, a TDMS block 150, a voltage line monitor unit 160, a TDMS line monitor unit 170, and an HDMI attribute switching processing unit 180.

  The connector 110 conforms to the HDMI standard, and is exclusively connected to any one of the other source device 20src (FIG. 5) and sink device 20snk (FIG. 5) conforming to the HDMI standard via the HDMI cable 200. . That is, the connector 110 is shared by the source device 20src and the sink device 20snk. The HDMI cable 200 includes a plurality of lines for transmitting signals and data. Typical lines include a CEC line, a hot plug line, a DDC line, and an HDMC line.

  The CEC line is used for transmission of control data between the source device and the sink device. The hot plug line is used to determine whether or not an HDMI cable is connected. The DDC line is used for transmitting EDID (Extended Display Identification Data) data including video format information. The HDMI line is used for transmission of TMDS video and audio signals.

  The connector 110 is provided with a power supply line 111, a hot plug line 112, a DDC line 113, and a TMDS line 114 in a form corresponding to each line of the HDMI cable 200. Of these, there are usually a plurality of TMDS lines 114, but only one line is displayed in FIG. 1 for simplicity.

  The power supply block 120 includes a power supply block input / output SW unit 121, a power supply output unit 122, and a power supply input unit 123. The hot plug block 130 includes a hot plug input / output attribute SW unit 131, a hot plug input unit 132, and a hot plug output unit 133. The DCC block 140 includes a DDC block input / output attribute SW unit 141, a DDC output unit 142, and a DDC input unit 143. The TDMS block 150 includes a TDMS input / output attribute SW unit 151, a TDMS output unit 152, a TDMS input unit 153, and a TMDS signal processing unit 154.

  The power source output unit 122, the hot plug input unit 132, the DDC output unit 142, the TDMS output unit 152, and the TMDS signal processing unit 154 allow the source / sink combined device 100 to function as a source device compliant with the HDMI standard. On the other hand, the power source input unit 123, the hot plug output unit 133, the DDC input unit 143, the TDMS input unit 153, and the TMDS signal processing unit 154 allow the source / sink combined device 100 to function as a sink device compliant with the HDMI standard.

  Switching of the source device function and the sink device function in the power supply block 120, hot plug 130, DDC block 140, and TDMS block 150 is performed by changing the power supply block input / output SW unit 121, hot plug input / output attribute SW unit 131, and DDC block input / output attribute SW. This is done by switching the switch in the unit 141 and the TDMS input / output attribute SW unit 151. As described above, the source device function unit and the sink device function unit in the source / sink combination device 100 share the connector 110 for connection to the external device 20.

  Next, the function of each block will be described. In the power supply block 120, the power output unit 122 supplies power to the hot plug input unit 132, the DDC output unit 142, and the TDMS output unit 152 when the source / sink combined device 100 realizes the source device function.

  On the other hand, when the source / sink combined device 100 realizes the sink device function, the power input unit 123 supplies power to the hot plug output unit 133, the DDC input unit 143, and the TDMS input unit 152. By providing the power output unit 122 and the power input unit 123 separately, it is possible to prevent a backflow of current from the sink side to the source side.

  The hot plug block 130 is used when determining whether the source / sink combination device 100 is connected to the HDMI cable 200. The hot plug input unit 132 is used when the source / sink combined device 100 functions as a source, and the hot plug output unit 133 is used when the source / sink combined device 100 functions as a sink.

  In the DDC block 140, when the source / sink combined device 100 functions as a source, EDID data related to a video format that can be displayed from the sink device 20snk connected to the HDMI cable 200 is transferred to the DDC output unit 142. It is stored in a memory (not shown). The DDC output unit 142 sets a video format based on a user instruction from the EDID stored in the memory.

  In a memory (not shown) of the DDC input unit 143, a video format that can be displayed when the source / sink combined device 100 functions as a sink is stored as EDID. The EDID stored in the memory is read by access from the source device 20src when the source / sink combination device 100 is connected to the source device 20src.

  In the TDMS block 150, the TDMS output unit 152 connects the video data and audio data converted into TDMS format data by the TDMS signal processing unit 154 to the HDMI cable 200 when the source / sink combined device 100 functions as a source. To the sink device 20snk.

  The TDMS input unit 153 receives TDMS video data and audio data transmitted from the source device 20 src connected to the HDMI cable 200 when the source / sink combination device 100 functions as a sink. The video data and audio data are transferred from the TDMS input unit 153 to the TMDS signal processing unit 154, and converted to video data and audio data before being subjected to TDMS processing by the TMDS signal processing unit 154. By providing the TDMS output unit 152 and the TDMS input unit 153 separately, the problem of impedance mismatch of the TDSM line 114 can be solved.

  Next, two monitor units 160 and 170 that monitor the connection state between the HDMI cable 200 and the external device 20 will be described. The power line monitor unit 160 repeatedly detects the voltage level VL1 of the power line 111 among a plurality of lines connected to the connector 110 at a predetermined time interval, and outputs a binary level signal (hereinafter, “power line level”). C1 is generated.

  When the external device 40 to which the connector 110 is connected via the HDMI cable 200 is the source device 20src, the voltage level VL1 of the power line 111 indicates a high level (5V). On the other hand, when the connected external device 40 is the sink device 20snk, or is not connected or connected but not energized and operating, the voltage level VL1 is set to the Low level ( 0V). The power supply line level C1 takes a value of High or Low corresponding to the voltage level VL1.

  The TDMS line monitor unit 170 repeatedly detects a voltage level VL2 of a TDMS line (specifically, a TDMS_CLK line) 114 included in the connector 110 at a predetermined time interval, and outputs a binary level signal (hereinafter referred to as “TDMS line level”). ]) C2 is generated. When the connector 110 is connected to the sink device via the HDMI cable 200, the voltage level VL2 of the TDMS line 114 indicates the high level (3.3V).

  On the other hand, the voltage level VL2 when the connector 110 is connected to the source device via the HDMI cable 200 or not connected to another device indicates the low level (0 V). The TDMS line level C2 takes either High or Low value corresponding to the voltage level VL2.

  The operation of the HDMI attribute switching processing unit 180 will be described below with reference to FIG. The HDMI attribute switching processing unit 180 determines the function J of the external device connected to the connector 110 shared for connection with the source device and the sink device, based on the power supply line level C1 and the TDMS line level C2. Note that “function” refers to any of the four states of an external device: “not connected”, “abnormal”, “sink”, and “source”.

  “No connection” means a state in which an external device is not connected or is not energized even though it is connected. When both the power supply line level C1 and the TDMS line level C2 are Low, it is determined as “not connected”.

  “Abnormal” means a state in which an external device is connected but is not normal. When both the power supply line level C1 and the TDMS line level C2 are High, it is determined as “abnormal”.

  “Sink” refers to a state where a sink, that is, an external device on the input side is connected. Needless to say, the external device is not in an abnormal state and is energized. When the power line level C1 is Low and the TDMS line level C2 is High, it is determined as “sink”.

  “Source” refers to a state in which an external device on the output side is connected. Needless to say, the external device is not in an abnormal state and is energized. When the power supply line level C1 is High and the TDMS line level C2 is Low, it is determined as “source”.

  The HDMI attribute switching processing unit 180 further determines the operation mode M of the source / sink combined device 100 based on the determination result of the external device function attribute described above. The “operation mode” refers to which of the functions of “standby”, “error processing”, “source”, and “sink” the source / sink combined device 100 operates.

  “Standby” refers to processing in which the source / sink combination device 100 is energized and waits for connection of an external device. When it is determined that the function attribute of the external device is “not connected”, the “standby” mode is determined.

  “Evacuation” refers to a process of stopping the operation of the source / sink combined device 100 or disconnecting the electrical connection with the external device so as not to be affected by the external device in an abnormal state. When it is determined that the function attribute of the external device is “abnormal”, the “evacuation” mode is determined.

  “Source” refers to processing for executing a source function built in the source / sink combination device 100. When the function attribute of the external device is determined to be “sink”, the “source” mode is determined.

  “Sink” refers to processing for executing a sink function built in the source / sink combination device 100. When the function attribute of the external device is determined as “source”, the “sink” mode is determined.

  Further, the HDMI attribute switching processing unit 180 corresponds to the determined operation mode for each of the power supply block 120, the DDC block 130, the hot plug block 140, and the TDMS block 150 based on the above-described operation mode determination. Control signals Sc1, Sc2, Sc3, and Sc4 for instructing realization of the function attribute are output.

  Specifically, when the “standby” mode is determined, the control signals Sc1 to Sc4 are set so that the power supply block 120, the hot plug block 130, the DCC block 140, and the TDMS block 150 have high impedance. It controls each of the input / output SW unit 121, the DDC block input / output attribute SW unit 131, the hot plug input / output attribute SW unit 131, and the TMDS block input / output attribute SW unit 151.

  When the “save” mode is determined, the control signals Sc1 to Sc4 are controlled in the same manner as when the “standby” mode is determined. This protects the DDC block 130, the hot plug block 140, and the TDMS block 150 from abnormal voltages and prevents malfunction. In addition, it is also desirable to shut off the power supply of the source / sink combination device 100 itself.

When the “source” mode is determined, the control signal Sc1 switches the input / output attribute of the power supply block 120 to the output. That is, the power block input / output SW unit 121 is controlled to connect the power output unit 122 to the connector 110.
The control signal Sc2 switches the input / output attribute of the hot plug block 130 to the output. That is, the hot plug input / output attribute SW unit 131 is controlled to connect the DDC output unit 132 to the connector 110.
The control signal Sc3 switches the input / output attribute of the DCC block 140 to input. That is, the DDC block input / output attribute SW unit 141 is controlled to connect the DDC input unit 143 to the connector 110.
The control signal Sc4 switches the input / output attribute of the TDMS block 150 to the output. That is, the TDMS input / output attribute SW unit 151 is controlled to connect the TDMS output unit 152 to the connector 110.

When the “sink” mode is determined, the control signal Sc1 switches the input / output attribute of the power supply block 120 to the output. That is, the power block input / output SW unit 121 is controlled to connect the power output unit 122 to the connector 110.
The control signal Sc2 switches the input / output attribute of the hot plug block 130 to the output. That is, the hot plug input / output attribute SW unit 131 is controlled to connect the DDC output unit 132 to the connector 110.
The control signal Sc3 switches the input / output attribute of the DCC block 140 to input. That is, the DDC block input / output attribute SW unit 141 is controlled to connect the DDC input unit 143 to the connector 110.
The control signal Sc4 switches the input / output attribute of the TDMS block 150 to the output. That is, the TDMS input / output attribute SW unit 151 is controlled to connect the TDMS output unit 152 to the connector 110.

  Note that information necessary for determination of the external device function J and determination of the operation mode M shown in FIG. 2 and control signals Sc for various blocks are stored in a ROM (not shown) built in the HDMI attribute switching processing unit 180. The CPU (not shown) reads necessary information from the ROM, makes determinations and decisions, and sends out control signals. That is, the HDMI attribute switching processing unit 180 realizes the functions of the function determination unit, operation mode determination unit, and operation control unit of the present invention.

  Hereinafter, the function switching operation of the source / sink combined device 100 by the HDMI attribute switching processing unit 180 in the source / sink combined device 100 will be described more specifically with reference to the flowchart shown in FIG. When the power source is turned on and the operation of the source / sink combined device 100 is started, the power line level C1 and the TDMS line level output at predetermined time intervals from the voltage line monitor unit 160 and the TDMS line monitor unit 170, respectively. Based on C2, the operation by the HDMI attribute switching processing unit 180 described below starts.

  First, in step S2, the HDMI attribute switching processing unit 180 determines whether or not the power supply line level C1 is High. If No, that is, if the power supply line level C1 is determined to be Low, the control proceeds to the next step S4. If Yes, that is, if it is determined that the power supply line level C1 is High, the control proceeds to Step S10.

  In step S4, it is determined whether or not the TDMS line level C2 is High. If No, that is, if the TDMS line level C2 is determined to be Low, the control proceeds to the next step S6. If Yes, that is, if it is determined that the TDMS line level C2 is High, the control proceeds to Step S16.

  In step S6, since both the power supply line level C1 and the TDMS line level C2 are low, it is determined that the external device 20 is “not connected” as described with reference to FIG. In step S8, the control signals Sc1 to Sc4 are output, and the source / sink combination device 100 is set to the standby mode. And control returns to above-mentioned step S2.

  In step S10, it is determined whether or not the TDMS line level C2 is High. If Yes, that is, if it is determined that the TDMS line level C2 is High, the control proceeds to Step S12. If it is determined No, the control proceeds to step S20.

  In step S12, since both the power supply line level C1 and the TDMS line level C2 are high, the external device 20 is determined to be “abnormal” as described with reference to FIG. In step S14, the control signals Sc1 to Sc4 are output, and the source / sink combination device 100 is set to the “evacuation” mode.

  In step S16, since the power supply line level C1 is Low and the TDMS line level C2 is High, the external device 20 is determined to be “sink” as described with reference to FIG. In step S18, the control signals Sc1 to Sc4 are output, and the source / sink combination device 100 is set to the “source” mode.

  Then, the DDC output unit 132 reads the EDID from the connected sink device 20snk and confirms the supported video format. The TDMS block unit 152 performs HDCP encryption processing on the video signal and audio signal output from the TMDS signal processing unit, and outputs a TMDS signal from the HDMI connector 110 to the HDMI cable 200. Through the above steps, the source / sink combined device 100 exhibits a function as a source device compliant with the HDMI standard.

  In step S20, since the power supply line level C1 is High and the TDMS line level C2 is Low, the external device 20 is determined to be “source” as described with reference to FIG. In step S22, the control signals Sc1 to Sc4 are output, and the source / sink combination device 100 is set to the “sink” mode.

  Then, the connected source device 20src reads the EDID related to the video format supported by itself from the DDC input unit 143. The TDMS input unit 153 decrypts the encrypted TMDS signal transferred from the source device 20 src and transfers the decrypted TMDS signal to the TMDS signal processing unit 154. The TMDS signal processing unit 154 decodes video data and audio data from the transferred TMDS signal. By going through the above steps, the source / sink combined device 100 exhibits a function as a sink device compliant with the HDMI standard.

The operation of the HDMI attribute switching processing unit 180 will be specifically described below in the case where the external device 20 connected to the source / sink combination device 100 is in the following five states.
State 1: The external device 20 is not connected to the source / sink combination device 100, or is connected but not energized.
State 2: The connected external device 20 is abnormal.
State 3: A normal sink device 20snk is connected.
State 4: A normal source device 20src is connected.
State 5: Connection with the external device 20 in State 2 is disconnected.
State 6: Connection with the external device 20 in State 3 is disconnected.
State 7: The connection with the external device 20 in the state 4 is disconnected.
State 8: Connection with the external devices in state 5, state 6, and state 7 is restored.

  In state 1 (not connected), the source / sink combined device 100 is set to the standby mode by the processing in step S2 (No), step S4 (No), step S6, and step S8. Then, while repeating the processing of the flowchart of FIG. 3, the source / sink combination device 100 waits for the external device 20 to be connected.

  In state 2 (abnormal), the source / sink combined device 100 is set to the error processing mode by the processing in step S2 (Yes), step S10 (Yes), step S12, and step S14. Then, while repeating the processing of the flowchart of FIG. 3, the source / sink combination device 100 waits for the abnormality of the external device 20 to recover.

  In the state 3 (sink), the source / sink combination device 100 is set to the source mode by the processing in step S2 (No), step S4 (Yes), step S16, and step S18. Then, the source / sink combined device 100 monitors the state of the external device 20 while repeating the processing of the flowchart of FIG. Then, if the state of the external device 20 changes, it resets its own operation mode accordingly.

  In the state 4 (source), the source / sink combined device 100 is set to the sink mode by the processing in step S2 (Yes), step S10 (No), step S20, and step S22. Then, the source / sink combined device 100 monitors the state of the external device 20 while repeating the processing of the flowchart of FIG. Then, if the state of the external device 20 changes, it resets its own operation mode accordingly.

  In the state 5, the state 6, and the state 7, when the connection with the external device 20 in each state is disconnected, the process of the state 1 described above is executed.

  In the state 8, when the connection with the external device 20 in each state is recovered, any of the processes of the state 2, the state 3, and the state 4 is executed according to the state of the external device 20.

  As described above, the attributes of the source device and the sink device can be automatically switched using a single HDMI connector and without user operation. As a result, it is possible to reduce costs by reducing the number of necessary parts, reduce the size of the device, and reduce the user's effort to change the HDMI attribute (sink device / source device).

  The source / sink combination device according to the present invention can be widely used for AV devices that are applied to the HDMI standard.

1 is a functional block diagram showing a configuration of a source / sink combination device according to an embodiment of the present invention. Explanatory drawing showing the determination content by the HDMI attribute switching process part of FIG. The flowchart showing operation | movement of the HDMI attribute switching process part of FIG. Block diagram showing possible source / sink combination configuration 4 is an explanatory diagram of an AV system in which an external sink device is connected to the source / sink combination device shown in FIG.

Explanation of symbols

10, 100 Combined source / sink device 110 HDMI connector 111 Power supply line 120 Power supply block 121 Power supply block input / output SW section 122 Power supply output section 123 Power input section 130 Hot plug 131 Hot plug input / output attribute SW section 132 Hot plug input section 133 Hot Plug output unit 140 DDC block 141 DDC block input / output attribute SW unit 142 DDC output unit 143 DDC input unit 150 TMDS block 151 TDMS input / output attribute SW unit 152 TDMS output unit 153 TDMS input unit 154 TDMS signal processing unit 160 Voltage line monitor unit 170 TMDS line monitor unit 180 HDMI attribute switching processing unit 200 HDMI cable

Claims (17)

A source / sink combined device compliant with the HDMI standard, comprising a first functional means for realizing a function as a source device and a second functional means for realizing a function as a sink device,
A connector for connecting any one of the first functional means and the second functional means and an external device compliant with the HDMI standard;
First voltage level monitoring means for detecting the voltage level of the power line of the connector;
Second voltage level monitoring means for detecting the voltage level of the TMDS_CLK line of the connector;
A source / sink combination device comprising: function determination means for determining the function of the external device based on the two detected voltage levels.   2. The source / sink combination device according to claim 1, further comprising an operation mode determination unit that determines operations of the first function unit and the second function unit based on the determined function.   The combined source / sink device according to claim 2, further comprising operation control means for controlling the first functional means and the second functional means based on the determined operation. The first voltage level monitoring means generates a binary first level signal based on the detected power level of the power line,
2. The second repression level monitoring means generates a binary second level signal based on the detected voltage level of the TMDS_CLK line. A source / sink combination device according to any one of the above.   5. The source / sink combination device according to claim 4, wherein when the first level signal is Low and the second level signal is Low, the function determination unit determines that the external device is not connected. .   6. The source / sink combination device according to claim 5, wherein the operation mode determination unit determines to put the first function unit and the second function unit into a standby mode.   7. The source / sink combination device according to claim 6, wherein the operation control unit sets the first functional unit and the second functional unit to high impedance.   5. The source / sink combination apparatus according to claim 4, wherein when the first level signal is High and the second level signal is High, the function determination unit determines that the external apparatus is abnormal.   9. The source / sink combination device according to claim 8, wherein the operation mode determination unit determines to set the first function unit and the second function unit to a save mode.   10. The source / sink combination device according to claim 9, wherein the operation control unit sets the first functional unit and the second functional unit to high impedance.   5. The source / sink combination device according to claim 4, wherein when the first level signal is Low and the second level signal is High, the function determination unit determines that the external device is a sink.   12. The source / sink combination device according to claim 11, wherein the operation mode determination means determines that the first function means and the second function means are set to a source mode.   13. The source / sink combination device according to claim 12, wherein the operation control unit enables the first function unit.   5. The source / sink combination device according to claim 4, wherein when the first level signal is High and the second level signal is Low, the function determination unit determines that the external device is a source.   15. The source / sink combination device according to claim 14, wherein the operation mode determination unit determines to set the first function unit and the second function unit to a sink mode.   16. The source / sink combination device according to claim 15, wherein the operation control unit enables the second functional unit. A source / sink combined device compliant with the HDMI standard, comprising a first functional means for realizing a function as a source device and a second functional means for realizing a function as a sink device,
A connector for connecting any one of the first functional means and the second functional means and an external device compliant with the HDMI standard;
First voltage level monitoring means for detecting the voltage level of the power line of the connector;
Second voltage level monitoring means for detecting the voltage level of the TMDS_CLK line of the connector;
A source / sink combined device comprising operation control means for controlling the first functional means and the second functional means based on the two detected voltage levels.

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