JP5867341B2 - Data transmission apparatus and data transmission program - Google Patents

Description

  The present invention relates to a data transmission apparatus and a data transmission program for transmitting video data and audio data through a digital transmission interface.

  In recent years, a data transmission / reception system including a BD (Blu-ray Disc) player compliant with the High Definition Multimedia Interface (HDMI) standard, an AV amplifier, and a display device has been used. The AV amplifier receives video data and audio data output from the BD player and transmits the data to the display device. The display device receives the video data and audio data from the AV amplifier and outputs them as video and audio.

  As a data transmission device of a data transmission / reception system, for example, Patent Document 1 discloses an EDID read determination unit that determines EDID (Extended Display Identification Data) information of a data reception device, and a type of the data reception device based on the determination result of EDID information. A data transmission device including a model discrimination unit for discrimination is disclosed. This data transmission device includes a TMDS switching unit that specifies an output method according to the type of the data receiving device among a plurality of TMDS (Transition Minimized Differential Signaling) signal output methods, and a TMDS that outputs a TMDS signal according to the specified output method. And an output unit.

JP 2009-71587 A

  By the way, when a connection confirmation voltage is supplied from the data transmission device to the data reception device in a state where the data transmission device and the data reception device are connected by the HDMI cable, the data reception device is connected to the data transmission device. A level hot plug output signal is output. When the data transmission device detects the high level of the hot plug output signal, the connection between the data transmission device and the data reception device is confirmed, and data transmission from the data transmission device to the data reception device is performed. However, there are various types of data receiving devices, and after the hot plug output signal is set to high level, video data and audio data are received from the data transmitting device within a predetermined time (for example, 3 seconds). There is a specification that repeats the process of setting the hot plug output signal to a low level when it cannot, and then returning it to a high level again after a predetermined time (for example, 4 seconds).

  When the data receiving device is such a specification product, if the data receiving device cannot receive video data and audio data within a predetermined time when the hot plug output signal is at a high level, the data receiving device Video data and audio data cannot be output at all. For this reason, for example, there is a possibility that a state in which no image is displayed on the display unit of the data receiving apparatus continues.

  An object of the present invention is to provide a data transmission apparatus that transmits data for reliably outputting data by data reception apparatuses of various specifications.

  A data transmission device according to the present invention is a data transmission device connected to a data reception device by a transmission interface, and the connection confirmation signal from the data reception device transitions between a high level and a low level. A count processing unit that counts the number of transitions from the high level to the low level or the number of transitions from the low level to the high level, and at least one of video data and audio data when the connection confirmation signal is at the high level A transmission processing unit that transmits a data signal including the data signal to the data receiving device, and the transmission processing unit transmits an alternative data signal instead of the data signal when the number of transitions is equal to or greater than a threshold value. It is characterized by transmitting to.

  The data transmission device according to the present invention further includes a verification processing unit that verifies whether the data reception device corresponds to a predetermined specification product based on device information from the data reception device, the transmission processing unit Preferably, the alternative data signal is transmitted when it is determined by the collation that the data receiving device corresponds to the predetermined specification product.

  In the data transmitting apparatus according to the present invention, it is preferable that the transmission interface is HDMI, and the connection confirmation signal is a hot plug output signal.

  A data transmission program according to the present invention is connected to a data reception device by a transmission interface, and a connection confirmation signal from the data reception device transitions between a high level and a low level to a data transmission device including a processor and a memory. A first procedure for storing, in the memory, a count value obtained by counting the number of transitions from the high level to the low level or the number of transitions from the low level to the high level when the processor confirms the connection confirmation signal; A second procedure in which the processor transmits a data signal including at least one of video data and audio data to the data receiving device at the high level; and the processor accesses the memory at a predetermined timing and performs the counting. When the value is read and the count value is equal to or greater than a threshold value, the data Alternative data signals instead of No., characterized in that to execute a third step of transmitting to said data receiving device.

  In the data transmission program according to the present invention, a fourth procedure in which the processor collates whether or not the data receiving device corresponds to a predetermined specification product based on device information from the data receiving device, and It is preferable to execute a fifth procedure in which the processor transmits the substitute data signal when it is determined that the data receiving device corresponds to the predetermined specification product.

  In the data transmission program according to the present invention, it is preferable that the transmission interface is HDMI, and the connection confirmation signal is a hot plug output signal.

  According to the present invention, the data transmission device counts the number of transitions when the connection confirmation signal transits between the high level and the low level, and when the count value is equal to or greater than the threshold value, the video data and the audio data An alternative data signal in place of the data signal including at least one of the above is transmitted to the data receiving device. As a result, the data receiving device can reliably output the data.

1 is a block diagram showing an overall configuration of a data transmission / reception system including a data transmission device (AV amplifier) according to an embodiment of the present invention. It is a flowchart about the output control process of the hot plug output signal in the display apparatus which receives the data from the data transmitter (AV amplifier) of embodiment which concerns on this invention. It is a flowchart explaining the transmission process of the HDMI data signal in the data transmission device (AV amplifier) in the embodiment according to the present invention. An alternative TMDS data signal D _ALT or TMDS data signal D _TRUE received by a display device that receives data from a data transmission device (AV amplifier) according to an embodiment of the present invention, a hot plug output signal received by a BD player, It is a timing chart which shows the relationship with the output of a display part.

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

[overall structure]
FIG. 1 is a block diagram showing the overall configuration of a data transmission / reception system 8 including an AV amplifier (data transmission apparatus) 10 according to an embodiment of the present invention. The data transmission / reception system 8 includes a BD player 20 that supplies video data and audio data to the AV amplifier 10, an AV amplifier 10 that transmits video data and audio data supplied from the BD player 20 to the display device 30, and an AV amplifier 10 And a display device (data receiving device) 30 that receives video data and audio data transmitted from the computer, and these are connected via an HDMI cable. The BD player 20 is connected to the connector (input terminal) 11 of the AV amplifier 10 via the connector 21, and the display device 30 is connected to the connector (output terminal) 14 of the AV amplifier 10 via the connector 31.

[Configuration of AV Amplifier 10]
The AV amplifier 10 is a device compliant with the HDMI standard, and is a data transmission device that receives HDMI data from the BD player 20 and transmits the HDMI data to the display device 30. The AV amplifier 10 includes connectors 11 and 14, an amplifier transmission / reception control unit 12, and a connection confirmation power supply unit 13.

  The AV amplifier 10 includes hot plug lines 15a and 15b, DDC (Display Data Channel) lines 16a and 16b, TMDS lines 17a and 17b, and connection confirmation voltage lines 18a and 18b as HDMI lines.

  The hot plug lines 15a and 15b can be connected to the hot plug line 25 of the BD player 20 and the hot plug line 35 of the display device 30 via the hot plug line of the HDMI cable, respectively. The DDC lines 16a and 16b can be connected to the DDC line 26 of the BD player 20 and the DDC line 36 of the display device 30 via the DDC line of the HDMI cable, respectively. The TMDS lines 17a and 17b can be connected to the TMDS line 27 of the BD player 20 and the TMDS line 37 of the display device 30 via the TMDS line of the HDMI cable, respectively. The connection confirmation voltage lines 18a and 18b can be connected to the connection confirmation voltage line 28 of the BD player 20 and the connection confirmation voltage line 38 of the display device 30 via the connection confirmation voltage line of the HDMI cable, respectively. .

  The hot plug line 15 a is a line for transmitting a hot plug output signal (connection confirmation signal) from the AV amplifier 10 to the BD player 20. The hot plug line 15 b is a line for receiving a hot plug output signal (connection confirmation signal) from the display device 30 to the AV amplifier 10.

  The DDC line 16a is a line for transmitting device information (authentication information, EDID information) regarding the AV amplifier 10 and the display device 30. The DDC line 16b is a line for receiving device information (authentication information, EDID information) related to the display device 30. The DDC line normally includes a data line and a clock line, but only one line is shown for simplicity of explanation.

The TMDS line 17 a is a line that receives the TMDS data signal D _TRUE supplied from the BD player 20. The TMDS line 17 b is a line for transmitting the TMDS data signal D _TRUE or the alternative TMDS data D _ALT to the display device 30. Note that a TMDS line usually has a plurality of lines, but only one line is shown for simplicity of explanation.

  The connection confirmation voltage line 18 a is a line that receives the connection confirmation voltage supplied from the BD player 20. The connection confirmation voltage line 18 b is a line that supplies the connection confirmation voltage received from the connection confirmation power supply unit 13 to the display device 30.

The amplifier transmission / reception control unit 12 includes a processor 121, a program memory 123, and a working memory 125. In the amplifier transmission / reception control unit 12, when the data transmission program stored in the program memory 123 is executed on the processor 121, the processor 121 changes the level of the hot plug output signal output from the display device 30. The counted count value is stored in the working memory 125, the working memory 125 is accessed at a predetermined timing, the count value is read, and the count value is compared with the threshold value stored in advance in the program memory 123 so that the count value is equal to or greater than the threshold value. The alternative TMDS data signal D _ALT is transmitted to the display device 30 when the count value is equal to or greater than the threshold value. Note that the program memory 123 is a rewritable memory such as a flash ROM, and the data transmission program can be appropriately version-amplified by receiving program data transmitted from the outside. In order to execute the above-described functions in the processor 121, the processor 121 includes a count processing unit 122, a matching processing unit 124, a transmission processing unit 126, and a connection confirmation processing unit 128. The function of each processing unit will be described in detail.

  The count processing unit 122 determines whether the hot plug output signal output from the display device 30 has become a high level. When the count processing unit 122 determines that the hot plug output signal has become a high level, the count processing unit 122 counts the number of transitions when the hot plug output signal transitions from a high level to a low level, and calculates the count value as a working memory 125. To remember. The count processing unit 122 accesses the working memory 125 at a predetermined timing, reads the count value, and compares the value with the threshold value (three times) stored in the program memory 123 in advance, so that the count value is equal to or greater than the threshold value. Determine whether or not. Note that the number of transitions may be counted when the hot plug output signal transitions from a low level to a high level after transitioning from a high level to a low level.

The matching processing unit 124 acquires EDID information from the display device 30 and stores it in the working memory 125. The collation processing unit 124 accesses the working memory 125 at a predetermined timing, reads the EDID information, and collates whether or not the display device 30 corresponds to a predetermined specification product based on the EDID information. Here, the “predetermined specification product” refers to TMDS data from the AV amplifier 10 to the display device 30 within a predetermined time (3 seconds) after the hot plug output signal output from the display device 30 is set to a high level. When there is no signal D _TRUE , the hot plug output signal is set to the low level, and then the hot plug output signal is returned to the high level again after a predetermined time (4 seconds). This means a device with specifications that repeat level transitions.

The transmission processing unit 126 has a function of transmitting the TMDS data signal D _TRUE supplied from the BD player 20 to the display device 30. Further, the transmission processing unit 126 determines that the display device 30 corresponds to the predetermined specification product and the count value counted by the count processing unit 122 is greater than or equal to a threshold value (three times) by the collation of the collation processing unit 124. When it is done, the following transmission processing is performed. Specifically, the transmission processing unit 126 transmits the alternative TMDS data signal D _ALT to the display device 30 and receives the TMDS data signal D _TRUE supplied from the BD player 20, and then receives the TMDS data signal D _TRUE . It transmits to the display device 30. Here, the “alternative TMDS data signal D _ALT ” is a signal corresponding to a so-called blue back signal for displaying a blue background, and is generated in the amplifier transmission / reception control unit 12.

  When the connection confirmation voltage is supplied from the BD player 20, the connection confirmation processing unit 128 operates the connection confirmation power supply unit 13, whereby the connection confirmation voltage is supplied to the connection confirmation voltage line 18b. . Further, when the connection confirmation processing unit 128 detects that the hot plug output signal from the display device 30 has transitioned from the low level to the high level, the connection confirmation processing unit 128 sets the hot plug output signal to the BD player 20 to the high level to perform hot plugging. Supply to line 15a.

  The connection confirmation power supply unit 13 is supplied with a commercial AC power supply (not shown), and supplies a connection confirmation voltage to the connection confirmation voltage line 18 b under the control of the connection confirmation processing unit 128 of the amplifier transmission / reception control unit 12.

[Configuration of BD Player 20]
The BD player 20 is a device that conforms to the HDMI standard. The BD player 20 includes a connector 21, a reproduction unit 22, a player transmission control unit 23, and a connection confirmation power supply unit 24. The AV amplifier 10 is connected to the connector 21 via an HDMI cable. Note that the display device 30 may be directly connected to the connector 21 via an HDMI cable.

  The BD player 20 includes a hot plug line 25, a DDC line 26, a TMDS line 27, and a connection confirmation voltage line 28 as HDMI lines.

  The playback unit 22 reads video data and audio data recorded on a BD disc (hereinafter simply referred to as a disc) from the disc under the control of the player transmission control unit 23, and supplies the video data and audio data to the player transmission control unit 23.

The player transmission control unit 23 converts the video data and audio data supplied from the reproduction unit 22 into a TMDS data signal D _TRUE and transmits it to the AV amplifier 10. When the HDMI cable is connected to the connector 21, the player transmission control unit 23 operates the connection confirmation power supply unit 24 so that the connection confirmation voltage line 28 is supplied to the connection confirmation voltage line 28. In addition, when detecting that the hot plug output signal from the AV amplifier 10 has transitioned from the low level to the high level, the player transmission control unit 23 controls the playback unit 22 to operate as described above.

  The connection confirmation power supply unit 24 is supplied with a commercial AC power supply (not shown), and supplies a connection confirmation voltage to the connection confirmation voltage line 28 under the control of the player transmission control unit 23.

[Configuration of Display Device 30]
The display device 30 is a device compliant with the HDMI standard, and is a data receiving device that receives HDMI data from the AV amplifier 10. The display device 30 includes a connector 31, a display reception control unit 32, a display unit 33, and an audio processing unit 34. The AV amplifier 10 is connected to the connector 31 via an HDMI cable. Note that the BD player 20 may be directly connected to the connector 31 via an HDMI cable. Here, the display device 30 will be described as being the predetermined specification product.

  The display device 30 includes a hot plug line 35, a DDC line 36, a TMDS line 37, and a connection confirmation voltage line 38 as HDMI lines.

The display reception control unit 32 includes an output processing unit 322 and a hot plug HL processing unit 324. The output processing unit 322 receives the TMDS data signal D _TRUE or the alternative TMDS data signal D _ALT supplied from the AV amplifier 10. The output processing unit 322 generates original video data from the received TMDS data signal D _TRUE or the alternative TMDS data signal D _ALT and supplies it to the display unit 33. The output processing unit 322 generates original audio data from the received TMDS data signal D _TRUE and supplies it to the audio processing unit 34.

When the connection check voltage is supplied from the AV amplifier 10, the hot plug HL processing unit 324 sets the hot plug output signal output to the AV amplifier 10 to a high level. Then, the hot plug HL processing unit 324 receives the TMDS data signal D _TRUE or the alternative TMDS data signal D _ALT from the AV amplifier 10 within a predetermined period (3 seconds) after setting the hot plug output signal to the high level. Otherwise, it has a function of repeatedly setting the hot plug output signal to the low level and then returning the hot plug output signal to the high level again after a predetermined period (4 seconds) has elapsed.

  The display unit 33 displays the supplied video data, and is an LCD, a PDP, or the like. The audio processing unit 34 performs decoding processing, D / A conversion processing, and amplification processing on the supplied audio data, and supplies it to a speaker (not shown).

  Next, operations of the AV amplifier 10 and the display device 30 of the data transmission / reception system 8 having the above configuration will be described. First, the operation of the display device 30 will be described with reference to FIG. FIG. 2 is a flowchart of the hot plug output signal output control process in the display device 30. Each process is executed by the function of the hot plug HL processing unit 324 of the display reception control unit 32. First, the hot plug HL processing unit 324 of the display reception control unit 32 determines whether or not a power supply (not shown) of the display device 30 is turned on (S2). If it is determined that the power of the display device 30 is not turned on, the process proceeds to END processing.

  If it is determined in S2 that the power of the display device 30 is ON, it is determined whether or not there is a connection confirmation voltage supplied from the AV amplifier 10 (S4). If it is determined that the connection confirmation voltage is not supplied from the AV amplifier 10, the process proceeds to END processing.

If it is determined in S4 that the connection confirmation voltage is supplied from the AV amplifier 10, the hot plug output signal output from the display device 30 is set to the high level (S6). Thereafter, it is determined whether the TMDS data signal D _TRUE or the alternative TMDS data signal D _ALT transmitted from the AV amplifier 10 is received within 3 seconds (S8).

In S8, if it can not receive the TMDS data signals D _TRUE or alternatively TMDS data signal D _ALT from the AV amplifier 10, and a hot plug output signal to a low level, after four seconds back to high again (S10), then The process of S8 is performed again. If the TMDS data signal D _TRUE or the alternative TMDS data signal D _ALT can be received from the AV amplifier 10, the process proceeds to the END process while the hot plug output signal is maintained at the high level. Here, the reason why the transition of the level of the hot plug output signal output from the display device 30 is repeated as described above will be described. As described above, it is possible to confirm that the display device 30 is connected when the AV amplifier 10 detects the transition of the hot plug output signal from the low level to the high level. However, the AV amplifier 10 may not be able to detect the above transition once, and the AV amplifier 10 can be reliably detected by repeating the transition from the low level to the high level of the hot plug output signal many times. It is.

  Next, the operation of the AV amplifier 10 will be described with reference to FIG. FIG. 3 is a flowchart for explaining HDMI data transmission / reception processing of the AV amplifier 10. First, when the data transmission program stored in the program memory 123 is activated on the processor 121, the processor 121 determines whether or not the hot plug output signal from the display device 30 has become a high level (S20). . If it is determined that the hot plug output signal from the display device 30 is not at the high level, the process returns to S20 again. This step is executed by the function of the count processing unit 122.

  If it is determined in S20 that the hot plug output signal from the display device 30 has become high level, the EDID information of the display device 30 is acquired (S22), and then the hot plug output signal transitions from high level to low level. It is determined whether or not (S24). If it is determined that the hot plug output signal has not changed from the high level to the low level, the process returns to S24 again. This process is executed by the functions of the count processing unit 122 and the verification processing unit 124.

  If it is determined in S24 that the hot plug output signal has transitioned from a high level to a low level, the count value of the number of transitions of the hot plug output signal is incremented by 1, and the count value and EDID information are stored in the working memory 125. Then, the count value and EDID information are read out from the working memory 125 at a predetermined timing, and it is determined whether or not the count value is 3 times or more (S28). If it is determined that the count value is not three times or more, the process returns to S22 again. These processes are executed by the functions of the count processing unit 122 and the verification processing unit 124.

  In S28, when it is determined that the count value is 3 times or more, all the acquired EDID information is the same, and the EDID information is stored in the program memory 125 in advance to the predetermined specification product. It is checked whether or not it is applicable (S30). When it is determined that all the acquired EDID information is not the same or the EDID information is not the predetermined specification product, the process proceeds to END processing. This process is executed by the function of the verification processing unit 124.

If it is determined in S30 that all the acquired EDID information is the same and the EDID information is the predetermined specification product, an alternative TMDS data signal _DALT is transmitted (S32). Thereafter, the hot plug output signal to the BD player 20 is set to the high level, and the alternative TMDS data signal D _ALT is continuously transmitted until the TMDS data signal D _TRUE is supplied from the BD player 20, and the TMDS data signal D _TRUE is supplied. When it arrives, the TMDS data signal D _TRUE is transmitted to the display device 30. After S32, END processing is performed. These steps are executed by the function of the transmission processing unit 126.

The operation when the data transmission program is executed as described above will be described with reference to FIG. FIG. 4 is a timing chart showing the relationship between the alternative TMDS data signal D _ALT or TMDS data signal D _TRUE , the hot plug output signal, and the output of the display unit 33. Here, the time required from when the AV amplifier 10 detects the high level of the hot plug output signal until the TMDS data signal D _TRUE supplied from the BD player 20 is transmitted to the display device 30 is t seconds (t seconds). > 3 seconds), and in the following description, t seconds is assumed to be 5 seconds. In FIG. 4, the high level or low level of the hot plug output signal is displayed corresponding to the high level or low level signal, respectively, and the alternative TMDS data signal D _ALT or TMDS data signal D _TRUE is Each signal is a high level signal when data is being transmitted, and is a low level signal when data is not being transmitted.

As described above, since the time t seconds required from when the AV amplifier 10 detects the high level of the hot plug output signal until the TMDS data signal D _TRUE is transmitted to the display device 30 is 5 seconds, the hot plug output The signal becomes low level. When the AV amplifier 10 detects this low level, the transmission of the TMDS data signal D _TRUE is stopped. Therefore, when the data transmission program is not executed, a state in which no video is displayed from the display unit 33 of the display device 30 continues.

However, when the data transmission program is executed, the transition from the high level to the low level of the hot plug output signal output from the display device 30 is detected three times, and the collation processing unit 124 causes the display device 30 to If it is determined that the product has the predetermined specification, an alternative TMDS data signal D _ALT is transmitted to the display device 30 as shown in FIG. Thereby, when the hot plug output signal from the display device 30 subsequently becomes high level, the blue back signal is displayed on the display unit 33 of the display device 30. Further, when the TMDS data signals D _TRUE from the BD player 20 supplied thereto, for transmitting TMDS data signals D _TRUE to the display device 30, TMDS data on the display unit 33 of the display device 30 instead of the blue back signal An image included in the signal D _TRUE is displayed. Thus, by using the AV amplifier 10 of the present embodiment, video data can be reliably displayed even when the display device 30 is the predetermined specification product. Further, according to the AV amplifier 10 of the present embodiment, it is determined whether or not the display device 30 is a predetermined specification product based on both the level transition of the hot plug output signal and the EDID information. The determination result can be made more accurate.

  The present invention is not limited to the above-described embodiments and modifications, and various improvements and modifications can be made within the matters described in the claims of the present application and their equivalent scope.

  For example, the amplifier transmission / reception control unit 12 has been described as determining whether the display device 30 is the predetermined specification product based on the count value of the number of transitions and the EDID information, but only the count value of the number of transitions You may judge based on. At this time, it is preferable to more accurately determine whether or not the product is a predetermined specification product by setting an appropriate threshold value to be compared with the count value. For example, the display device 30 may be determined to have a predetermined specification even when the transition from the high level to the low level of the hot plug output signal is performed once, but the cause may be that the HDMI cable is disconnected or the like. In this case, since the hot plug output signal may transition from the high level to the low level, it is preferable to determine that the product has a predetermined specification when the predetermined threshold value is, for example, 3 times.

  The device that supplies data to the AV amplifier 10 has been described as being a BD player. However, other devices may of course be used, such as a DVD (Digital Versatile Disc) player or a CD (Compact Disc) player. Also good.

  Although HDMI is exemplified as the transmission interface, other transmission methods may be used. For example, a DVI (Digital Visual Interface) standard transmission method may be used. Moreover, although demonstrated above as what connects apparatuses using a cable, it is good also as what connects apparatuses by radio | wireless by using a wireless transmission system.

In the AV amplifier 10, when the display device 30 is determined to be the predetermined specification product, the TMDS data signal D _TRUE is transmitted, and then the hot plug output signal from the display device 30 becomes high level. The hot plug output signal to the BD player 20 has been described as being high level, but the hot plug output signal to the BD player 20 may be set to high level immediately after the transmission of the TMDS data signal D _TRUE is started. Thereby, the switching from the blue back signal to the video included in the TMDS data signal D _TRUE can be accelerated.

  In the above description, the AV amplifier 10 is described as the data transmission device according to the embodiment of the present invention. However, when the BD player 20 and the display device 30 are directly connected using an HDMI cable, the BD player 20 is connected to the present invention. It is good also as a data transmission device of an embodiment concerning.

  8 Data transmission / reception system, 10 AV amplifier, 11, 14 connector, 12 Amplifier transmission / reception control unit, 13 Connection confirmation power supply unit, 15a, 15b Hot plug line, 16a, 16b DDC line, 17a, 17b TMDS line, 18a, 18b connection Confirmation voltage line, 20 BD player, 21 connector, 22 playback section, 23 player transmission control section, 24 connection confirmation power supply section, 25 hot plug line, 26 DDC line, 27 TMDS line, 28 connection confirmation voltage line, 30 Display device, 31 connector, 32 display reception control unit, 33 display unit, 34 audio processing unit, 35 hot plug line, 36 DDC line, 37 TMDS line, 38 connection confirmation voltage line, 121 processor, 122 count processing Unit, 123 program memory, 124 collation processing unit, 125 working memory, 126 transmission processing unit, 128 connection confirmation processing unit, 322 output processing unit, 324 hot plug HL processing unit.

Claims (6)

A data transmission device connected to a data reception device by a transmission interface,
Count that counts the number of transitions from the high level to the low level or the number of transitions from the low level to the high level when the connection confirmation signal from the data receiving apparatus transitions between a high level and a low level A processing unit;
A transmission processing unit for transmitting a data signal including at least one of video data and audio data to the data receiving device when the connection confirmation signal is at the high level;
With
The transmission processing unit transmits a substitute data signal instead of the data signal to the data receiving device when the number of transitions is equal to or greater than a threshold value. The data transmission device according to claim 1,
Based on the device information from the data receiving device, further comprising a verification processing unit for verifying whether the data receiving device corresponds to a predetermined specification product,
The transmission processing unit transmits the alternative data signal when it is determined by the collation that the data receiving device corresponds to the predetermined specification product. In the data transmission device according to claim 1 or 2,
The transmission interface is HDMI,
The data transmission device, wherein the connection confirmation signal is a hot plug output signal. Connected to the data receiving device by the transmission interface, the data transmitting device including the processor and the memory,
The processor determines the number of transitions from the high level to the low level or the number of transitions from the low level to the high level when the connection confirmation signal from the data receiving apparatus transitions between a high level and a low level. A first procedure for storing the counted value in the memory;
A second procedure in which the processor transmits a data signal including at least one of video data and audio data to the data receiving device when the connection confirmation signal is at the high level;
A third procedure in which the processor accesses the memory at a predetermined timing, reads the count value, and transmits an alternative data signal instead of the data signal to the data receiving device when the count value is equal to or greater than a threshold value. When,
Data transmission program for executing In the data transmission program according to claim 4,
A fourth procedure in which the processor checks whether or not the data receiving device corresponds to a predetermined specification product based on device information from the data receiving device;
A fifth procedure in which the processor transmits the substitute data signal when it is determined by the verification that the data receiving device corresponds to the predetermined specification product;
Data transmission program for executing In the data transmission program according to claim 4 or 5,
The transmission interface is HDMI,
The data transmission program, wherein the connection confirmation signal is a hot plug output signal.

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