JP4258569B1 - Hot plug signal input / output device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a hot plug signal from being supplied to a source device side hot plug line when a 5V power source line is not electrically connected to a source device side 5V power source line.
When a 5V power supply line 17a is not electrically connected to a 5V power supply line of a DVD player 20, an output control means 19 applies a 5V power supply voltage supplied from a DDC line 26 to a DDC line 16a by resistors R1 and R2a. The divided voltage is supplied to the collector of the transistor Q1a, and the transistor Q1a is turned off. Since no control signal is input to the 5V power supply unit 12, the 5V power supply voltage is prevented from being supplied from the 5V power supply unit 12 to the 5V power supply line 37 of the display device 30. As a result, the hot plug signal is prevented from being output to the DVD player 20.
[Selection] Figure 2

Description

  The present invention relates to a hot plug signal input / output device that receives a hot plug signal from a sink device and outputs the hot plug signal to a source device.

  2. Description of the Related Art Recently, a source device that supplies content data (hereinafter referred to as HDMI data) such as video data and audio data, and a content receiving device such as a sink device or a repeater device that receives HDMI data supplied from the source device. AV systems are widely used. There is also an HDMI switcher that selects and receives one HDMI data from HDMI data supplied from a plurality of source devices and supplies the selected HDMI data to a sink device.

  The source device is, for example, a DVD player, a Blu-ray disc player, an HDDVD (High Definition DVD) player, or the like. The sink device is, for example, an LCD (Liquid Crystal Display), a PDP (Plasma Display Panel), a projector, or the like. The repeater device or the HDMI switcher is, for example, an AV amplifier or an AV receiver. These devices comply with the HDMI standard and are connected to each other via an HDMI cable.

  FIG. 7 is a block diagram for explaining a conventional AV amplifier (HDMI switcher) 50. The AV amplifier 50 includes an HDMI switch 11, a 5V power supply unit 12, and connectors 13 and 14. For example, a DVD player 20 is connected to the connector 13 via an HDMI cable. For example, a display device 30 is connected to the connector 14 via an HDMI cable.

  The AV amplifier 50 mainly includes hot plug lines 15a and 15c, DDC lines 16a and 16c, and 5V power supply lines 17a and 17c as HDMI lines. The hot plug line 15a is a line for outputting a hot plug signal for notifying that the AV amplifier 50 is connected to the DVD player 20 via the HDMI cable to the DVD player 20. That is, in the DVD player 20, if the hot plug signal supplied from the AV amplifier 50 is at a low level, the AV amplifier 50 is not active (a state in which HDMI data can be received and processed) or the AV amplifier 50 is connected. If the hot plug signal is at a high level, it is determined that the AV amplifier 50 is connected (for example, Patent Document 1 below).

  The DDC lines 16a and 16b are lines for the DVD player 20 to acquire and authenticate information (EDID, authentication information, etc.) regarding the AV amplifier 50 (and the display device 30). The 5V power supply lines 17a and 17b are connected to the DDC lines 16a and 16b and supply a 5V power supply voltage.

  FIG. 3 is a block diagram showing the DVD player 20. The DVD player 20 includes an HDMI transmission unit 21, a control unit 22, a playback unit 23, and a connector 24. The DVD player 20 has a hot plug line 25, a DDC line 26, and a 5V power line 27. For example, the AV amplifier 10 is connected to the connector 24 via an HDMI cable.

  FIG. 4 is a block diagram showing the display device 30. The display device 30 includes an HDMI receiving unit 31, a control unit 32, and a connector 33. The display device 30 includes a hot plug line 35, a DDC line 36, and a 5V power supply line 37. For example, an AV amplifier 50 is connected to the connector 33 via an HDMI cable.

  With reference to FIG. 3, FIG. 4 and FIG. 7, a description will be given of hot plug signals that are input and output when each device is connected via an HDMI cable. When the DVD player 20 is connected to the AV amplifier 50 via the HDMI cable, the 5V power supply voltage is supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 50, and the HDMI switch 11 is supplied with the 5V power supply voltage. Is supplied. As a result, the HDMI switch 11 supplies a control signal for permitting voltage output to the 5V power supply unit 12, so that the 5V power supply unit 12 supplies a 5V power supply voltage to the 5V power supply line 17c.

  When the display device 30 is connected to the AV amplifier 50 via the HDMI cable, the 5V power supply voltage is supplied from the 5V power supply line 17 c of the AV amplifier 50 to the 5V power supply line 37 of the display device 30. The voltage supplied to the 5V power line 37 is supplied as a high level hot plug signal to the hot plug line 15c of the AV amplifier 50 via the hot plug line 35. The high level hot plug signal supplied to the hot plug line 15c is output to the hot plug line 25 of the DVD player 20 via the HDMI switch 11 and the hot plug line 15a. The HDMI transmission unit 21 of the DVD player 20 can detect a high level hot plug signal and recognize that the AV amplifier 50 (and the display device 30) is connected.

  However, the AV amplifier 50 has the following problems. Among the terminals of the HDMI cable connector, the terminal of the 5V power supply line is shorter than the other terminals. Therefore, when the connector 24 of the DVD player 20 is connected to the connector 13 of the AV amplifier 50 via the HDMI cable. When the connection between the HDMI cable and the connector 13 or 24 is insufficient (or the connection operation is being performed by the user), only the 5V power line is not conductive (electrically connected) in each line. Can happen. That is, the hot plug line 15a of the AV amplifier 50 is connected to the hot plug line 25 of the DVD player 20, the DDC line 16a of the AV amplifier 50 is connected to the DDC line 26 of the DVD player 20, and the 5V power supply line 17a of the AV amplifier 50 is connected. However, there is a possibility that the 5V power line 27 of the DVD player 20 is not electrically connected.

  Since this state is a state in which the AV amplifier 50 and the DVD player 20 are not connected, a high level hot plug signal is output from the hot plug line 15a of the AV amplifier 50 to the hot plug line 25 of the DVD player 20. Must not. However, although the 5V power supply voltage is not supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 50, the 5V power supply voltage of the DVD player 20 is connected to the AV amplifier via the resistor R21 and DDC line 50 DDC lines 16a are supplied. The 5V power supply voltage supplied to the DDC line 16a of the AV amplifier 50 is supplied to the HDMI switch 11 via the resistor R1. As a result, since the HDMI switch 11 supplies a control signal to the 5V power supply unit 12, the 5V power supply unit 12 supplies a 5V power supply voltage to the 5V power supply line 17 c and supplies a 5V power supply voltage to the 5V power supply line 37 of the display device 30. Is done. Accordingly, the voltage supplied to the 5V power supply line 37 is supplied as a high level hot plug signal to the hot plug line 15c of the AV amplifier 50 via the hot plug line 35, and via the HDMI switch 11 and the hot plug line 15a. And output to the hot plug line 25 of the DVD player 20.

  As a result, the DVD player 20 erroneously detects that the AV amplifier 50 is connected when a high-level hot plug signal is supplied even though the AV amplifier 50 is not connected. If a high-level hot plug signal is erroneously detected, the HDMI transmission unit 21 of the DVD player 20 tries to authenticate by reading the authentication information from the AV amplifier 50 or the display device 30, but malfunctions such as failure of authentication. Furthermore, even if a normal high-level hop lag signal is supplied from the AV amplifier 50 to the hot plug line 35 of the DVD player 20 thereafter, the DVD player 20 cannot perform an operation corresponding thereto. This is because when the inversion of the hot plug signal from the low level to the high level is detected, the DVD player executes each process, but the high level hot plug is based on the voltage supplied via the DDC line 16a. This is because if the signal is erroneously detected, it cannot be detected that the hot plug signal is subsequently inverted to a low level.

Patent No. 3952077 [Prior Application 1] Japanese Patent Application No. 2007-317658

  The present invention has been made to solve the above-described conventional problems. The object of the present invention is to connect a hot plug line with a source device side hot plug line and a DDC line with a source device side DDC line so that a 5V power source is provided. To provide a hot plug signal output device that prevents a hot plug signal from being supplied to a source device side hot plug line when the line is not connected to a source device side 5V power supply line.

A hot plug signal input / output device according to a preferred embodiment of the present invention receives a hot plug signal from a sink device having a sink device side hot plug line, a sink device side data communication line, and a sink device side power supply voltage line, A hot plug signal is output to a source device having a device side hot plug line, a source device side data communication line, and a source device side power supply voltage line. The hot plug signal input / output device is connected to the source device side hot plug line and the sink device side hot plug line, and to the source device side data communication line and the sink device side data communication line. A possible data communication line; a power supply voltage line connected to the data communication line and connectable to the source device side power supply voltage line and the sink device side power supply voltage line; and the sink device side via the power supply voltage line A power supply section for supplying a power supply voltage to the power supply voltage line and an output control means are provided. In the output control means, the hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is connected to the source device side power supply voltage line. Is not supplied from the source device side power supply voltage line to the power supply voltage line, and voltage is supplied from the source device side data communication line to the data communication line. Detecting and preventing supply of power supply voltage from the power supply unit to the sink device side power supply voltage line. In the output control means, the hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is connected to the source device side power supply voltage line. , It is detected that a voltage is supplied from the source device side power supply voltage line to the power supply voltage line, and the power supply voltage is supplied from the power supply unit to the sink device side power supply voltage line. Allow that.

  When the hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is not connected to the source device side power supply voltage line, the source device side data Based on the voltage supplied from the communication line to the data communication line, the power supply unit is prevented from supplying the power supply voltage to the sink device side power supply voltage line via the power supply voltage line. Therefore, the sink device is prevented from outputting a hot plug signal to the hot plug line based on the power supply voltage supplied to the sink device side power supply voltage line, and the hot plug signal input / output device is supplied from the sink device. The signal is prevented from being output to the source device hot plug line. As a result, the source device is prevented from erroneously detecting the hot plug signal.

  In a preferred embodiment, the power supply voltage line is connected to the data communication line via a first resistor, and the output control means is a switch that controls the power supply unit with a first electrode connected to the power supply unit. And a second resistor connected to the second electrode of the switch element, and no voltage is supplied from the source device side power supply voltage line to the power source voltage line, and the source device side data communication line When the voltage is supplied to the data communication line from the voltage, the voltage supplied to the data communication line is divided by the first resistor and the second resistor is supplied to the second electrode, When the switch element is turned off, the supply voltage is prevented from being supplied from the power supply unit to the sink device side power supply voltage line, and the source device When a voltage is supplied from the power supply voltage line to the power supply voltage line, the voltage supplied to the power supply voltage line is supplied to the second electrode, and the switch element is turned on, whereby the power supply is performed. The power supply voltage is permitted to be supplied from the unit to the sink device side power supply voltage line.

  When the hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is not connected to the source device side power supply voltage line, the source device side data The voltage supplied from the communication line to the data communication line is divided by the first resistor and the second resistor and supplied to the second electrode of the switch element, and the switch element is turned off. When the switch element is turned off, the power supply unit can be controlled so that the power supply voltage is not supplied to the sink device side power supply voltage line.

  In a preferred embodiment, a plurality of the hot plug lines, the data communication lines, and the power supply voltage lines are provided, and the output control means includes the switch element and the second resistor for each of the plurality of power supply voltage lines. A selection unit that selects one of the hot plug line, the data communication line, and the power supply voltage line from a plurality of the hot plug line, the data communication line, and the power supply voltage line; Control means for supplying a control signal capable of controlling the switch element to an on state to a control electrode of only the switch element connected to the power supply voltage line.

  Since no control signal is supplied to the control electrode of the switch element connected to the power supply voltage line not selected by the selection means, even if the source device side power supply voltage line and the power supply voltage line are conductive, the switch element Does not turn on. Therefore, it is possible to prevent a hot plug signal from being output to a source device connected to a hot plug line, a data communication line, and a power supply voltage line that are not selected by the selection unit.

  In a preferred embodiment, the power supply voltage line is connected to the data communication line via a first resistor, and the output control means is a switch that controls the power supply unit with a first electrode connected to the power supply unit. And a second resistor connected to the control electrode of the switch element and the power supply voltage line, and no voltage is supplied from the source device side power supply voltage line to the power supply voltage line, and the source When a voltage is supplied from the device-side data communication line to the data communication line, a voltage obtained by dividing the voltage supplied to the data communication line by the first resistor and the second resistor is applied to the control electrode. When the switch element is turned off, the power supply voltage is supplied from the power supply unit to the power supply voltage line on the sink device side. When the voltage is supplied from the source device side power supply voltage line to the power supply voltage line, the voltage supplied to the power supply voltage line is supplied to the control electrode, and the switch element is turned on. Thus, the power supply voltage is permitted to be supplied from the power supply unit to the sink device side power supply voltage line.

  When the hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is not connected to the source device side power supply voltage line, the source device side data The voltage supplied from the communication line to the data communication line is divided by the first resistor and the second resistor and supplied to the control electrode of the switch element, and the switch element is turned off. When the switch element is turned off, the power supply unit can be controlled so that the power supply voltage is not supplied to the sink device side power supply voltage line.

  When the hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is not connected to the source device side power supply voltage line, the source device side data Based on the voltage supplied from the communication line to the data communication line, the power supply unit is prevented from supplying the power supply voltage to the sink device side power supply voltage line via the power supply voltage line. Therefore, the sink device is prevented from outputting a hot plug signal to the hot plug line based on the power supply voltage supplied to the sink device side power supply voltage line, and the hot plug signal input / output device is supplied from the sink device. The signal is prevented from being output to the source device hot plug line. As a result, the source device is prevented from erroneously detecting the hot plug signal.

  Hereinafter, a content transmission / reception apparatus having a function as a hot plug signal input / output apparatus according to a preferred embodiment of the present invention will be described. The content transmission / reception device receives content data (video data and / or audio data compliant with the HDMI standard, hereinafter referred to as HDMI data) from a source device such as a DVD player or a Blu-ray disc player, and displays a display device or projector. A device that transmits HDMI data to a sink device such as an AV amplifier, an AV receiver, or the like. The content transmitting / receiving device is an HDMI switcher or a pass-through device. Hereinafter, a case where the content transmitting / receiving apparatus is the AV amplifier 10 will be described as an example.

[overall structure]
FIG. 1 is a block diagram showing the overall configuration of the AV system. The AV system includes an AV amplifier (HDMI switcher) 10, DVD players 20A and 20B, and a display device 30, which are connected via an HDMI cable. The DVD player 20A is connected to a connector (input terminal) 13a of the AV amplifier 10, the DVD player 20B is connected to a connector (input terminal) 13b of the AV amplifier 10, and the display device 30 is a connector (output terminal) 14 of the AV amplifier 10. It is connected to the. The HDMI switch 11 selects one HDMI data from the HDMI data supplied from the DVD players 20 </ b> A and 20 </ b> B and supplies the selected HDMI data to the display device 30.

[Configuration of AV Amplifier (HDMI Switcher) 10]
FIG. 2 is a block diagram illustrating the AV amplifier 10. The AV amplifier 10 is a device compliant with the HDMI (High-Definition Multimedia Interface) standard. The AV amplifier 10 includes an HDMI switch 11, a 5V power supply unit 12, a plurality of connectors 13 (for example, connectors 13 a and 13 b), a connector 14, a control unit 18, and output control means 19.

  The AV amplifier 10 includes hot plug lines 15a to 15c, DDC lines (data communication lines) 16a to 16c, TMDS lines (not shown), and 5V power supply lines (power supply voltage lines) 17a to 17c as HDMI lines. Have. The hot plug lines 15a and 15b can be connected to the hot plug line 25 of the DVD player 20 via the hot plug line of the HDMI cable. The hot plug line 15c can be connected to the hot plug line 35 of the display device 30 via the hot plug line of the HDMI cable. The DDC lines 16a and 16b can be connected to the DDC line 35 of the DVD player 20 via the DDC line of the HDMI cable. The DDC line 16c can be connected to the DDC line 36 of the display device 30 via the DDC line of the HDMI cable. The 5V power supply lines 17a and 17b can be connected to the 5V power supply line 27 of the DVD player 20 via the 5V power supply line of the HDMI cable. The 5V power supply line 17c can be connected to the 5V power supply line 37 of the display device 30 via the 5V power supply line of the HDMI cable.

  The hot plug lines 15 a and 15 b are lines for outputting a hot plug signal for notifying the DVD player 20 from the AV amplifier 10 that the AV amplifier 10 is connected to the DVD player 20. If the hot plug signal from the AV amplifier 10 is at a low level, the DVD player 20 determines that the AV amplifier 10 is not active (a state in which HDMI data can be received and processed) or that the AV amplifier 10 is not connected. If the hot plug signal is at a high level, it is determined that the AV amplifier 10 is connected. The hot plug line 15 c is a line that receives a hot plug signal for notifying the AV amplifier 10 from the display apparatus 30 that the display apparatus 30 is connected to the AV amplifier 10.

DDC (Display Data
Channel) lines 16 a and 16 b are lines for the DVD player 20 to acquire information (authentication information, EDID (Extended Display Identification Data)) regarding the AV amplifier 10 and / or the display device 30 from the AV amplifier 10. The DDC line 16 c is a line for the AV amplifier 10 to acquire information (authentication information, EDID) related to the display device 30 from the display device 30. Incidentally, although there are usually a data line and a clock line as the DDC line, only one line is described for the sake of simplicity of explanation.

TMDS (Transition
The Minimized Differential Signaling) line is a line for transmitting HDMI data from the DVD player 20 to the AV amplifier 10 and from the AV amplifier 10 to the display device 30.

  The 5V power supply lines 17a and 17b are supplied with the 5V power supply voltage from the 5V power supply line 27 of the DVD player 20. The 5V power supply lines 17a and 17b are connected to the DDC lines 16a and 16b via the resistors R1a and R1b, respectively, and supply a 5V power supply voltage thereto. The 5V power supply line 17 c is supplied with the 5V power supply voltage from the 5V power supply unit 12 and supplies the 5V power supply voltage to the 5V power supply line 37 of the display device 30.

  The HDMI switch 11 receives the HDMI data transmitted from the DVD players 20A and 20B connected to the connectors 13a and 13b, selects one HDMI data from the received HDMI data, and transmits it to the display device 30. To do. In other words, the HDMI switch 11 selects one connector 13, the hot plug line 15, the DC line 16, and the 5V power supply line 17 from the plurality of connectors 13, the hot plug line 15, the DC line 16, and the 5V power supply line 17. To do. Which HDMI data is selected is switched by a command from the control unit 18 based on a user operation.

  The 5V power supply unit 12 is supplied with a commercial AC power supply (not shown), and supplies a 5V power supply voltage to the 5V power supply line 37 of the display device 30 via the 5V power supply line 17c. The 5V power supply unit 12 has a control signal input terminal 12a. When a high level control signal is input to the control signal input unit 12a from output control means 19 (transistors Q1a and Q1b) described later, the 5V power supply line The 5V power supply voltage is output to 17 and no 5V power supply voltage is output to the 5V power supply line 17 when a high-level control signal is not input to the control signal input unit 12a. That is, whether or not the 5V power supply unit 12 outputs the 5V power supply voltage is controlled by the output control means 19.

  When a 5V power supply voltage is supplied from the 5V power supply unit 12 to the 5V power supply line 37 of the display device 30, a high level hot plug signal is supplied from the hot plug line 35 of the display device 30 to the hot plug line 15c. If the 5V power supply voltage is not supplied from the power supply unit 12 to the 5V power supply line 37 of the display device 30, a high level hot plug signal is not supplied from the hot plug line 35 of the display device 30 to the hot plug line 15c.

  The control unit 18 controls each unit of the AV amplifier 10 and is a microcomputer, a CPU, or the like. Details of the control unit 18 and the output control means 19 will be described later.

[Configuration of DVD Player 20]
FIG. 3 is a block diagram illustrating the DVD player 20. The DVD player 20 is a device conforming to the HDMI standard and is called a source device. The DVD player 20 includes an HDMI transmission unit 21, a control unit 22, a playback unit 23, and a connector 24. For example, the AV amplifier 10 is connected to the connector 24 via an HDMI cable.

  The DVD player 20 includes a hot plug line (source device side hot plug line) 25, a DDC line (source device side data communication line) 26, and a 5 V power supply line (source device side power supply voltage line) 27. The 5V power supply line 27 is connected to the DDC line 26 via the resistor R21, and the hot plug line 25 is connected to the ground potential via the resistor R22. The 5V power supply line 27 is supplied with a 5V power supply voltage from a power supply circuit (not shown), and the 5V power supply voltage is supplied to the DDC line 26 via the resistor R21.

  The playback unit 23 reads video data and audio data recorded on a DVD disc (hereinafter simply referred to as a disc) from the disc, and supplies the read video data and audio data to the HDMI transmission unit 21. The HDMI transmission unit 21 converts the video data and audio data supplied from the reproduction unit 23 into HDMI data, and transmits the HDMI data to the AV amplifier 10 via the connector 24.

[Configuration of Display Device 30]
FIG. 4 is a block diagram illustrating the display device 30. The display device 30 is a device conforming to the HDMI standard and is called a sink device. The display device 30 includes an HDMI receiving unit 31, a control unit 32, a connector 33, a display unit 34, and an audio processing unit 38. For example, the AV amplifier 10 is connected to the connector 33 via an HDMI cable.

  The display device 30 includes a hot plug line (sink device side hot plug line) 35, a DDC line (sink device side data communication line) 36, and a 5 V power supply line (sink device side power supply voltage line) 37. The 5V power supply line 37 is connected to the DDC line 36 via a resistor R31. The 5V power supply line 37 is supplied with the 5V power supply voltage from the 5V power supply line 17c of the AV amplifier 10, and the 5V power supply voltage is supplied to the DDC line 36 via the resistor R31. The 5V power supply voltage supplied to the 5V power supply line 37 is output as a high level hot plug signal to the AV amplifier 10 via the hot plug line 35.

  The HDMI receiving unit 31 receives the HDMI data transmitted from the AV amplifier 10. The HDMI receiving unit 31 generates original video data (video data before HDMI conversion) from the received HDMI data and supplies the generated video data to the display unit 34. The HDMI receiving unit 11 generates original audio data from the received HDMI data and supplies it to the audio processing unit 38.

  The display unit 34 displays the supplied video data, and is an LCD, a PDP, or the like. The audio processing unit 38 performs decoding processing, D / A conversion processing, and amplification processing on the supplied audio data, and supplies it to a speaker (not shown).

[Configuration of Output Control Unit 19]
Hereinafter, the output control means 19 will be described in detail with reference to FIG. Although only the portion corresponding to the connector 13a will be described here, the same applies to the portion corresponding to the connector 13b.

  In the output control means 19, the hot plug line 15 a of the AV amplifier 10 is electrically connected (electrically connected) to the hot plug line 25 of the DVD player 20, and the DDC line 16 a of the AV amplifier 10 is electrically connected to the DDC line 26 of the DVD player 20. In the state where the 5V power supply line 17a of the AV amplifier 10 is not conductive to the 5V power supply line 27 of the DVD player 20, a voltage is supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 10. In other words, it is detected that a voltage is supplied from the DDC line 26 of the DVD player 20 to the DDC line 16a of the AV amplifier 10, and the 5V power supply voltage from the 5V power supply unit 12 is displayed via the 5V power supply line 17c. To prevent the 5V power line 37 from being supplied. That. That is, the output control means 19 controls the 5V power supply unit 12 so that a high level hot plug signal is input from the hot plug line 37 of the display device 30 and output to the hot plug line 27 of the DVD player 10. Is prohibited.

  The output control means 19 also connects the hot plug line 15a of the AV amplifier 10 to the hot plug line 25 of the DVD player 20, and connects the DDC line 16a of the AV amplifier 10 to the DDC line 26 of the DVD player 20, In the state in which the 10V 5V power line 17a is conducted to the 5V power line 27 of the DVD player 20, it is detected that the voltage is supplied from the 5V power line 27 of the DVD player 20 to the 5V power line 17a of the AV amplifier 10. The 5V power supply voltage from the 5V power supply unit 12 is allowed to be supplied to the 5V power supply line 37 of the display device 30 via the 5V power supply line 17c. That is, the output control means 19 controls the 5V power supply unit 12 so that a high level hot plug signal is input from the hot plug line 37 of the display device 30 and output to the hot plug line 27 of the DVD player 10. Allow.

  The output control means 19 has a switch element (for example, transistor) Q1a and resistors R2a and R3a. The transistor Q1a switches whether to supply a high-level control signal to the control signal input terminal 12a of the 5V power supply unit 12. That is, the 5V power supply voltage is not supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 10, and the 5V power supply voltage is supplied from the DDC line 26 of the DVD player 20 to the DDC line 16a of the AV amplifier 10. Control is performed so that the 5V power supply voltage is not output from the 5V power supply unit 12 by turning off the transistor Q1a when being supplied. On the other hand, when the 5V power supply voltage is supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 10, the transistor Q1a is turned on, so that the 5V power supply voltage is supplied from the 5V power supply unit 12. Control to output.

  The collector of the transistor Q1a is connected to the 5V power supply line 17a, connected to the DDC line 16a through the resistor R1a, and connected to the ground potential through the resistor R2a. The emitter of the transistor Q1a is connected to the control signal input terminal 12a of the 5V power supply unit 12, and is connected to the ground potential via the resistor R3a. A high-level control signal from the control unit 18 is input to the base of the transistor Q1a. That is, when the connector 13a or 13b to which the HDMI data received by the HDMI switch 11 is input by a user operation through an operation unit (not shown), the control unit 18 selects a transistor connected to the selected connector 13 A high level (for example, about 3.3 V) control signal (which enables the transistor to be turned on) is output to the base of Q1a or Q1b.

  The resistor R2a supplies the 5V power supply voltage supplied from the 5V power supply line 27 of the DVD player 20 to the collector of the transistor Q1a as it is, and the resistor R2a supplies the resistor R1a to the 5V power supply voltage supplied from the DDC line 26 of the DVD player 20. At the same time, the 5V power supply voltage is divided to supply 5V × R2a / (R1a + R2a) to the collector of the transistor Q1a. For example, when the resistance R1a is 47 kΩ and the resistance R2a is 4.7 kΩ, about 0.45 V is supplied to the collector of the transistor Q1a out of the 5V power supply voltage supplied from the DDC line 26 of the DVD player 20.

  Therefore, when a high level control signal is supplied from the control unit 18 to the base and the 5V power supply voltage from the 5V power supply line is supplied to the collector, the transistor Q1a is turned on. On the other hand, when a high-level control signal is not supplied from the control unit 18 to the base, or when a voltage obtained by dividing the 5V power supply voltage from the DDC line by the resistors R1a and R2a is supplied to the collector, the transistor Q1a is turned on. Turns off.

  The resistor R3a is a resistor that generates a control signal (voltage) that is supplied to the control signal input terminal of the 5V power supply unit 12 by passing a current between the collector and the emitter when the transistor Q1a is turned on.

[Operation of AV Amplifier 10]
The operation of the AV amplifier 10 having the above configuration will be described focusing on the connector 13a, but the same applies to the connector 13b.

(1) The connector 13a is selected in the HDMI switch 11, the hot plug line 15a of the AV amplifier 10 is electrically connected to the hot plug line 25 of the DVD player 20, and the DDC line 16a of the AV amplifier 10 is connected to the DDC line 26 of the DVD player 20. A case where the 5V power supply line 17a of the AV amplifier 10 is not connected to the 5V power supply line 27 of the DVD player 20 when conducting.

  Since the 5V power supply line 17a of the AV amplifier 10 is not electrically connected to the 5V power supply line 27 of the DVD player 20, the 5V power supply voltage is not supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 10.

  On the other hand, since the DDC line 16a of the AV amplifier 10 is electrically connected to the DDC line 26 of the DVD player 20, the 5V power supply voltage is supplied from the DDC line 26 of the DVD player 20 to the DDC line 16a of the AV amplifier 10. Since the five power supply voltages are divided by the resistors R1a and R2a, the divided voltage (for example, 0.45 V) is supplied to the collector of the transistor Q1a.

  Since the connector 13a is selected by the HDMI switch 11, a high level control signal (for example, 3.3V) is supplied from the control unit 18 to the base of the transistor Q1a. As a result, when the voltage supplied to the collector is as small as 0.45 V, the transistor Q1a is turned off, so that no current flows from the collector to the emitter of the transistor Q1a, and the control signal input terminal of the 5V power supply unit 12 A high level control signal is not input to 12a. Accordingly, the 5V power supply unit 12 does not supply the 5V power supply voltage to the 5V power supply line 37 of the display device 30 via the 5V power supply line 17c. Accordingly, since a high level hot plug signal is not input from the hot plug line 35 of the display device 30 to the hot plug line 15c, a high level hot plug signal is output from the hot plug line 15a to the hot plug line 27 of the DVD player 20. Is prevented.

(2) The connector 13a is not selected by the HDMI switch 11, the hot plug line 15a of the AV amplifier 10 is electrically connected to the hot plug line 25 of the DVD player 20, and the DDC line 16a of the AV amplifier 10 is connected to the DDC of the DVD player 20. The case where the 5V power supply line 17a of the AV amplifier 10 is electrically connected to the 5V power supply line 27 of the DVD player 20 and is conductive with the line 26.

  Since the 5V power supply line 17a of the AV amplifier 10 is electrically connected to the 5V power supply line 27 of the DVD player 20, the 5V power supply voltage is supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 10. The 5V power supply voltage is supplied as it is to the collector of the transistor Q1a without being divided by the resistors R1a and R2a.

  Since the connector 13a is not selected by the HDMI switch 11, a high level control signal (for example, 3.3V) is not supplied from the control unit 18 to the base of the transistor Q1a. As a result, the base-emitter voltage becomes less than the conduction start voltage and the transistor Q1a is turned off, so that no current flows from the collector of the transistor 1a to the emitter, and the control signal input terminal 12a of the 5V power supply unit 12 is connected. No high level control signal is input. Accordingly, the 5V power supply unit 12 does not supply the 5V power supply voltage to the 5V power supply line 37 of the display device 30 via the 5V power supply line 17c. Accordingly, since a high level hot plug signal is not input from the hot plug line 35 of the display device 30 to the hot plug line 15c, a high level hot plug signal is output from the hot plug line 15a to the hot plug line 27 of the DVD player 20. Is prevented. As a result, a high level hot plug signal is not output to the DVD player 20 connected to the connector 13 not selected by the HDMI switch 11.

(3) The connector 13a is not selected by the HDMI switch 11, the hot plug line 15a of the AV amplifier 10 is electrically connected to the hot plug line 25 of the DVD player 20, and the DDC line 16a of the AV amplifier 10 is connected to the DDC of the DVD player 20. The case where the 5V power supply line 17a of the AV amplifier 10 is not connected to the 5V power supply line 27 of the DVD player 20 because it is electrically connected to the line 26.

  Since the 5V power supply line 17a of the AV amplifier 10 is not electrically connected to the 5V power supply line 27 of the DVD player 20, the 5V power supply voltage is not supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 10.

  On the other hand, since the DDC line 16a of the AV amplifier 10 is electrically connected to the DDC line 26 of the DVD player 20, the 5V power supply voltage is supplied from the DDC line 26 of the DVD player 20 to the DDC line 16a of the AV amplifier 10. Since the five power supply voltages are divided by the resistors R1a and R2a, the divided voltage (for example, 0.45 V) is supplied to the collector of the transistor Q1a.

  Since the connector 13a is not selected by the HDMI switch 11, a high level control signal (for example, 3.3V) is not supplied from the control unit 18 to the base of the transistor Q1a. As a result, the transistor Q1a is turned off, so that no current flows from the collector to the emitter of the transistor Q1a, and no high-level control signal is input to the control signal input terminal 12a of the 5V power supply unit 12. Accordingly, the 5V power supply unit 12 does not supply the 5V power supply voltage to the 5V power supply line 37 of the display device 30 via the 5V power supply line 17c. Accordingly, since a high level hot plug signal is not input from the hot plug line 35 of the display device 30 to the hot plug line 15c, a high level hot plug signal is output from the hot plug line 15a to the hot plug line 27 of the DVD player 20. Is prevented.

(4) The connector 13a is selected by the HDMI switch 11, the hot plug line 15a of the AV amplifier 10 is electrically connected to the hot plug line 25 of the DVD player 20, and the DDC line 16a of the AV amplifier 10 is connected to the DDC line 26 of the DVD player 20. The case where the 5V power line 17a of the AV amplifier 10 is electrically connected to the 5V power line 27 of the DVD player 20.

  Since the 5V power supply line 17a of the AV amplifier 10 is electrically connected to the 5V power supply line 27 of the DVD player 20, the 5V power supply voltage is supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 10. The 5V power supply voltage is supplied as it is to the collector of the transistor Q1a without being divided by the resistors R1a and R2a.

  Since the connector 13a is selected by the HDMI switch 11, a high level control signal (for example, 3.3V) is supplied from the control unit 18 to the base of the transistor Q1a. As a result, the 5V power supply voltage is supplied to the collector, the base-emitter voltage becomes equal to or higher than the conduction start voltage, and the transistor Q1a is turned on, so that a current flows from the collector to the emitter of the transistor Q1a. A high level control signal is input to the control signal input terminal 12 a of the unit 12. The 5V power supply unit 12 supplies a 5V power supply voltage to the 5V power supply line 37 of the display device 30 through the 5V power supply line 17c.

  In the display device 30, the 5V power supply voltage supplied to the 5V power supply line 37 is output as a high level hot plug signal to the hot plug line 15 c of the AV amplifier 10 via the hot plug line 35. The high level hot plug signal input to the hot plug line 15c is output to the hot plug line 25 of the DVD player 20 via the HDMI switch 11 and the hot plug line 15a. The HDMI transmission unit 21 of the DVD player 20 can detect that the AV amplifier 10 and the display device 30 are connected by detecting a high-level hot plug signal input to the hot plug line 25.

  As described above, according to this example, when the 5V power supply lines 17a and 27 are not conductive, the transistor Q1a is turned off, so that the 5V power supply voltage from the 5V power supply unit 12 is 5V power supply of the display device 30. Since the output to the line 37 is blocked, the high level hot plug signal is blocked from being output to the hot plug line 25 of the DVD player 20.

[Other Embodiments]
FIG. 5 is a block diagram showing the overall configuration of an AV system according to another embodiment. The AV amplifier 10B has only one connector 13, and the HDMI switch 11 transmits the HDMI data received from the DVD player 20A to the display device 30. That is, the AV amplifier 10B is a pass-through device.

  FIG. 6 is a block diagram showing the AV amplifier 10B. The output control means 19b has a transistor Q2 and resistors 5 and R6. The collector of the transistor Q2 is connected to the HDMI switch 11, and a high level control signal (voltage) for controlling the 5V power supply unit 12 is supplied from the HDMI switch 11. The emitter of the transistor Q2 is connected to the control signal input terminal 12a of the 5V power supply unit 12, and is connected to the ground potential via the resistor R6. The base of the transistor Q2 is connected to the 5V power supply line 17a, is connected to the DDC line 16a via the resistor R1, and is connected to the ground potential via the resistor R5.

  The resistor R5 supplies the 5V power supply voltage supplied from the 5V power supply line 27 of the DVD player 20 to the base of the transistor Q2 as it is. The resistor R5 supplies the resistor R1 for the 5V power supply voltage supplied from the DDC line 26 of the DVD player 20. At the same time, the 5V power supply voltage is divided to supply 5V × R5 / (R1 + R5) to the base of the transistor Q2. For example, when the resistance R1 is 47 kΩ and the resistance R5 is 4.7 kΩ, about 0.45 V is supplied to the base of the transistor Q2 out of the 5 V power supply voltage supplied from the DDC line 26 of the DVD player 20.

  Therefore, when the 5V voltage from the 5V power supply line is supplied to the base, the base-emitter voltage becomes equal to or higher than the conduction start voltage, and the transistor Q2 is turned on. On the other hand, when a voltage obtained by dividing the 5V voltage from the DDC line by the resistors R1 and R5 is supplied to the base, the base-emitter voltage becomes less than the conduction start voltage, and the transistor Q2 is turned off.

[Operation of AV Amplifier 10B]
(1) The hot plug line 15a of the AV amplifier 10 is electrically connected to the hot plug line 25 of the DVD player 20, the DDC line 16a of the AV amplifier 10 is electrically connected to the DDC line 26 of the DVD player 20, and the 5V power supply line of the AV amplifier 10 The case where 17a is not electrically connected to the 5V power line 27 of the DVD player 20.

  Since the 5V power supply line 17a of the AV amplifier 10 is not electrically connected to the 5V power supply line 27 of the DVD player 20, the 5V power supply voltage is not supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 10.

  On the other hand, since the DDC line 16a of the AV amplifier 10 is electrically connected to the DDC line 26 of the DVD player 20, the 5V power supply voltage is supplied from the DDC line 26 of the DVD player 20 to the DDC line 16a of the AV amplifier 10. Since the five power supply voltages are divided by the resistors R1 and R5, the divided voltage (for example, 0.45 V) is supplied to the base of the transistor Q2. As a result, the transistor Q2 is turned off, so that no current flows from the collector to the emitter of the transistor Q2, and no high-level control signal is input to the control signal input terminal 12a of the 5V power supply unit 12. Accordingly, the 5V power supply unit 12 does not supply the 5V power supply voltage to the 5V power supply line 37 of the display device 30 via the 5V power supply line 17c. Accordingly, since a high level hot plug signal is not input from the hot plug line 35 of the display device 30 to the hot plug line 15c, a high level hot plug signal is output from the hot plug line 15a to the hot plug line 27 of the DVD player 20. Is prevented.

(2) The hot plug line 15a of the AV amplifier 10 is electrically connected to the hot plug line 25 of the DVD player 20, the DDC line 16a of the AV amplifier 10 is electrically connected to the DDC line 26 of the DVD player 20, and the 5V power supply line of the AV amplifier 10 The case where 17a is electrically connected to the 5V power supply line 27 of the DVD player 20.

  Since the 5V power supply line 17a of the AV amplifier 10 is electrically connected to the 5V power supply line 27 of the DVD player 20, the 5V power supply voltage is supplied from the 5V power supply line 27 of the DVD player 20 to the 5V power supply line 17a of the AV amplifier 10. The 5V power supply voltage is supplied to the collector of the transistor Q2 without being divided by the resistors R1 and R5.

  As a result, since the transistor Q2 is turned on, a current flows from the collector to the emitter of the transistor Q2, and a high-level control signal is input to the control signal input terminal 12a of the 5V power supply unit 12. The 5V power supply unit 12 supplies a 5V power supply voltage to the 5V power supply line 37 of the display device 30 through the 5V power supply line 17c.

  In the display device 30, the 5V power supply voltage supplied to the 5V power supply line is output as a high level hot plug signal to the hot plug line 15 c of the AV amplifier 10 via the hot plug line 35. The high level hot plug signal input to the hot plug line 15c is output to the hot plug line 25 of the DVD player 20 via the HDMI switch 11 and the hot plug line 15a. The HDMI transmission unit 21 of the DVD player 20 can detect that the AV amplifier 10 and the display device 30 are connected by detecting a high-level hot plug signal input to the hot plug line 25.

  As described above, according to this example, when the 5V power supply lines 17a and 27 are not conductive, the transistor Q2 is turned off, so that the 5V power supply voltage from the 5V power supply unit 12 is supplied to the 5V power supply of the display device 30. Since the output to the line 37 is blocked, the high level hot plug signal is blocked from being output to the hot plug line 25 of the DVD player 20.

  As mentioned above, although preferable embodiment of this invention was described, this invention is not limited to these embodiment. For example, the hot plug signal output configuration from the hot plug line 35 of the display device 30 is not limited to the above, and the 5V power supply voltage supplied to the 5V power supply line 37 is once supplied to the HDMI receiving unit 31 to execute each process. Thereafter, a high level hot plug signal may be output from the control unit 32 to the hot plug line 15 c of the AV amplifier 10 via the hot plug line 35. The number of connectors of the AV amplifier 10 is not limited to the above, and for example, three connectors 13 and two connectors 14 may be used. The switch element is not limited to a transistor, and may be a MOSFET or the like. In addition to the HDMI switch, the AV amplifier 10 may include an HDMI receiving unit and an HDMI transmitting unit. In this case, audio data included in the HDMI data can be amplified by the AV amplifier 10 and output to the speaker. The AV amplifier 10 may receive audio data from the DVD player 20 via an optical digital cable or the like in addition to the HDMI cable. Further, the present invention is not limited to the HDMI standard device, and can be applied to any device such as the DVI standard that is compatible with the HDMI standard.

  The present invention can be suitably employed for an AV amplifier or the like that conforms to the HDMI standard, for example.

1 is a block diagram illustrating an AV system according to a preferred embodiment of the present invention. 1 is a block diagram showing an AV amplifier 10 according to a preferred embodiment of the present invention. 2 is a block diagram showing a DVD player 20. FIG. 4 is a block diagram showing a display device 30. FIG. FIG. 2 is a block diagram illustrating an AV system according to another preferred embodiment of the present invention. FIG. 6 is a block diagram showing an AV amplifier 10B according to another preferred embodiment of the present invention. FIG. 10 is a block diagram showing a conventional AV amplifier 50.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 AV amplifier 11 HDMI switch 12 5V power supply part 13 Connector 14 Connector 15a-15c Hot plug line 16a-16c DDC line 17a-17c 5V power supply line 18 Control part 19 Output control means

Claims (3)

A hot plug signal is input from a sink device having a sink device side hot plug line, a sink device side data communication line, and a sink device side power supply voltage line, and a source device side hot plug line, a source device side data communication line, and a source device A hot plug signal input / output device for outputting a hot plug signal to a source device having a side power supply voltage line,
A hot plug line connectable to the source device side hot plug line and the sink device side hot plug line;
A data communication line connectable to the source device side data communication line and the sink device side data communication line;
A power supply voltage line connected to the data communication line and connectable to the source device side power supply voltage line and the sink device side power supply voltage line;
A power supply unit for supplying a power supply voltage to the sink device side power supply voltage line via the power supply voltage line;
The hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is not connected to the source device side power supply voltage line. Detecting that the voltage is not supplied from the source device side power supply voltage line to the power supply voltage line, and the voltage is supplied from the source device side data communication line to the data communication line; The power supply voltage is prevented from being supplied to the sink device side power supply voltage line from the unit,
The hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is connected to the source device side power supply voltage line. , Output control for detecting that a voltage is supplied from the source device side power supply voltage line to the power supply voltage line and permitting a power supply voltage to be supplied from the power supply unit to the sink device side power supply voltage line and means,
The power supply voltage line is connected to the data communication line via a first resistor;
The output control means includes a switch element that controls the power supply unit with the first electrode connected to the power supply unit, and a second resistor connected to the second electrode of the switch element,
When no voltage is supplied from the source device side power supply voltage line to the power supply voltage line and voltage is supplied from the source device side data communication line to the data communication line, the voltage is supplied to the data communication line. When the voltage obtained by dividing the voltage by the first resistor and the second resistor is supplied to the second electrode and the switch element is turned off, the power supply unit supplies the sink device-side power supply voltage line. Prevents the supply voltage from being supplied to
When a voltage is supplied from the source device side power supply voltage line to the power supply voltage line, the voltage supplied to the power supply voltage line is supplied to the second electrode, and the switch element is turned on. A hot plug signal input / output device that permits a power supply voltage to be supplied from the power supply unit to the sink device side power supply voltage line . A plurality of the hot plug lines, the data communication lines, and the power supply voltage lines, respectively,
The output control means includes the switch element and the second resistor for each of the plurality of power supply voltage lines,
Selecting means for selecting one of the hot plug line, the data communication line, and the power supply voltage line from a plurality of the hot plug lines, the data communication line, and the power supply voltage line;
The control unit according to claim 1 , further comprising: a control unit that supplies a control signal that can control the switch element to an on state to a control electrode of only the switch element that is connected to the power supply voltage line selected by the selection unit. The hot plug signal input / output device as described. A hot plug signal is input from a sink device having a sink device side hot plug line, a sink device side data communication line, and a sink device side power supply voltage line, and a source device side hot plug line, a source device side data communication line, and a source device A hot plug signal input / output device for outputting a hot plug signal to a source device having a side power supply voltage line,
A hot plug line connectable to the source device side hot plug line and the sink device side hot plug line;
A data communication line connectable to the source device side data communication line and the sink device side data communication line;
A power supply voltage line connected to the data communication line and connectable to the source device side power supply voltage line and the sink device side power supply voltage line;
A power supply unit for supplying a power supply voltage to the sink device side power supply voltage line via the power supply voltage line;
The hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is not connected to the source device side power supply voltage line. Detecting that the voltage is not supplied from the source device side power supply voltage line to the power supply voltage line, and the voltage is supplied from the source device side data communication line to the data communication line; The power supply voltage is prevented from being supplied to the sink device side power supply voltage line from the unit,
The hot plug line is connected to the source device side hot plug line, the data communication line is connected to the source device side data communication line, and the power supply voltage line is connected to the source device side power supply voltage line. , Output control for detecting that a voltage is supplied from the source device side power supply voltage line to the power supply voltage line and permitting a power supply voltage to be supplied from the power supply unit to the sink device side power supply voltage line and means,
The power supply voltage line is connected to the data communication line via a first resistor;
The output control means includes a switch element having a first electrode connected to the power supply unit and controlling the power supply unit, and a second resistor connected to the control electrode of the switch element and the power supply voltage line. And
When no voltage is supplied from the source device side power supply voltage line to the power supply voltage line and voltage is supplied from the source device side data communication line to the data communication line, the voltage is supplied to the data communication line. The voltage obtained by dividing the voltage by the first resistor and the second resistor is supplied to the control electrode, and the switch element is turned off, so that the power supply unit supplies the sink device side power supply voltage line. Prevents the supply voltage from being supplied,
When a voltage is supplied from the source device side power supply voltage line to the power supply voltage line, the voltage supplied to the power supply voltage line is supplied to the control electrode, and the switch element is turned on, A hot plug signal input / output device that permits a power supply voltage to be supplied from the power supply unit to the sink device side power supply voltage line .

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