JP6417783B2 - Data processing device - Google Patents

Description

  The present invention relates to a data processing apparatus.

  Conventionally, HDMI (registered trademark) (High Definition Multimedia Interface) standard is known as a standard for a communication interface for transmitting video and audio as digital signals, and a player compliant with the standard, for example, BD (Blu-ray (registered trademark)). Disc) Players, display devices (televisions) and the like are widely used. In addition, an AV system is also used in which an AV receiver for processing a video / audio signal obtained by a player is provided independently, and a reproduction signal from the player is processed and then supplied to a display device. The AV receiver receives video and audio signals output from the player, processes them for home theater, for example, and supplies them to a display device or the like.

  For example, Patent Document 1 discloses a system for supplying playback signals (image data and audio data) from a playback device such as an optical disk device to a television for playback, and uses an interface compliant with the HDMI (registered trademark) standard. What to do is disclosed. In this system, when reproduction is instructed by the user, output of image data and audio data is started in a format set in the optical disc apparatus. When the format of a received signal from the optical disc device changes, the television transmits the received format to the optical disc device. When the optical disc apparatus recognizes that the data format has changed based on the data about the reception format sent from the television, the output of the content data is stopped and the output of the content data is resumed after a predetermined time has elapsed. Implement recovery processing.

JP 2010-161529 A

  Here, when devices compatible with the HDMI (registered trademark) standard are connected, first, HDCP (High-bandwidth Digital Content Protection System) authentication is performed between the devices. For example, when a player and an AV receiver are connected, HDCP authentication is performed from the player to the AV receiver. When the HDCP authentication fails in the player, the output of the video / audio signal is temporarily stopped, and then the output of the video / audio signal is started, and the HDCP authentication is performed again.

  If the player cannot stably output a signal, the video / audio signal output stop / restart process is repeated, and the video / audio signal is not supplied to the television. If the player outputs a video / audio signal different from the format that can be played back on the TV, the AV receiver transmits the video / audio signal to the TV or stops outputting the video / audio signal. Even in this case, video and audio are not reproduced on the television. Note that, in Patent Document 1, originally, the process is performed when the video / audio signal is changed from the state in which the video / audio signal is appropriately supplied to the television, and does not correspond to an error at the time of connection of the device.

  An object of the present invention is to provide a data processing apparatus capable of eliminating a state in which a video / audio signal cannot be transmitted.

A data processing apparatus according to the present invention is a data processing apparatus having a receiver transmission / reception control unit for receiving and processing a digital reproduction signal from a player that reproduces data by having a player transmission control unit , When the player is connected and starts receiving the reproduction signal, if the reception state of the received reproduction signal is unstable or the received reproduction signal does not match a predetermined format, the receiver transmission / reception control unit Is characterized by giving a command to turn on the power again after turning off the power in the player to the player transmission control unit of the player.

A data processing apparatus according to the present invention is a data processing apparatus having a receiver transmission / reception control unit for receiving and processing a digital reproduction signal from a player that reproduces data by having a player transmission control unit , When the player is connected and starts receiving the reproduction signal, if the reception state of the received reproduction signal is unstable or the received reproduction signal does not match a predetermined format, the receiver transmission / reception control unit is relative to the player transmission control unit of the player, temporarily stop playback of the player, the reception state of then provides an instruction to start the reproduction, even though given this command, the reproduction signal received when the reproduced signal is the case or receiving unstable does not match the predetermined format, the receiver transceiver controller, the To said player transmitting control unit Reya, characterized in providing a command to turn on the power again after turning off the power in the player.

In the data processing apparatus according to the present invention, the receiver transmission / reception control unit may be configured to display a display unit that performs display based on the reproduction signal after the reproduction signal is not received from the player. , it is preferable to present the movies image signal for causing a warning message on the screen of the display unit.

In the data processing device according to the present invention, the reproduction signal is compliant with the HDMI (registered trademark) standard, and the video signal for outputting the command or the warning message on the screen of the display unit. Preferably comply with the HDMI (registered trademark) -CEC standard.

  According to the above configuration, when the player is connected to the data processing device, the playback function is restarted or the power is turned on when the playback signal from the player is unstable or does not match the predetermined format. A command to turn off is given. Thereby, a malfunction can be eliminated.

1 is a block diagram showing an overall configuration of a data transmission / reception system including a data processing apparatus according to an embodiment of the present invention. 5 is a flowchart illustrating a procedure for detecting that HDCP authentication is NG in a state where a TMDS signal is unstable in the embodiment according to the present invention. 5 is a flowchart illustrating a procedure for detecting a case where a video signal of TMDS data does not match EDID in the embodiment according to the present invention. 5 is a flowchart illustrating a procedure for detecting a case where an audio signal of TMDS data does not match EDID in the embodiment according to the present invention. In the embodiment according to the present invention, this processing is executed first when it is determined by the procedure shown in FIGS. In the embodiment according to the present invention, the processing is executed when it is determined that the countermeasure processing for the trouble in transmission should be performed by the procedure shown in FIGS. It is processing. In the embodiment according to the present invention, the processing is executed when it is determined that the countermeasure processing for the trouble in transmission should be performed by the procedure shown in FIGS. It is processing.

  Embodiments according to the present invention will be described below in detail with reference to the drawings. Also, in the following, corresponding elements in all drawings are denoted by the same reference numerals, and redundant description is omitted.

[overall structure]
FIG. 1 is a block diagram showing an overall configuration of a data transmission / reception system 8 including an AV receiver (data processing apparatus) 10 according to an embodiment of the present invention. The AV receiver 10 may be built in the display device 30 that is an output device. As described above, the data transmission / reception system 8 includes the player 20, the AV receiver 10, and the display device 30. The player 20 reproduces AV data (video data and audio data) recorded on various media and outputs it as a reproduction signal. The AV receiver 10 performs various processes on the video data and audio data supplied from the player 20, converts them into signals suitable for output in a home theater, for example, and transmits them to the display device 30. The display device 30 receives the video data and audio data transmitted from the AV receiver 10 and outputs video and audio based on the video data and audio data. The player 20 is connected to the connector (input terminal) 11 of the AV receiver 10 via the connector 21, and the display device 30 is connected to the connector (output terminal) 14 of the AV receiver 10 via the connector 31.

[Configuration of Player 20]
The player 20 is a device compliant with the HDMI (registered trademark) standard, and includes a connector 21, a reproduction unit 22, a player transmission control unit 23, and a connection confirmation power supply unit 24b. The player 20 is basically a reproduction device that reproduces a video / audio signal from a medium such as a CD, DVD, BD, solid-state memory, or hard disk and outputs a reproduction signal. The reproduction unit 22 receives a signal recorded on the medium. It has a function to read and output. The AV receiver 10 is connected to the connector 21 via an HDMI (registered trademark) cable. In particular, when the function of the AV receiver 10 is built in the display device 30, the connector 21 may be directly connected to the display device 30 via an HDMI (registered trademark) cable.

  The 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 (registered trademark) lines. Here, TMDS is an abbreviation for Transition Minimized Differential Signaling. TMDS is an industry group of graphics-related equipment among transmission methods used for transmitting digital video signals between a display and a video card. This is a method standardized by VESA (Video Electronics Standards Association).

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

  The player transmission control unit 23 performs HDCP authentication for investigating whether the AV receiver 10 is a device compliant with the HDMI (registered trademark) standard. That is, its own HDCP information is provided to the AV receiver 10 via the DDC line 16a, and authentication is performed according to the response information from the AV receiver 10. If this authentication is OK, the player transmission control unit 23 continues to transmit the TMDS data signal based on the video data and audio data supplied from the reproduction unit 22 to the AV receiver 10. If the authentication is NG, HDCP authentication information is provided to the AV receiver 10 again after a predetermined time has elapsed.

  When the HDMI (registered trademark) cable is connected to the connector 21, the player transmission control unit 23 operates the connection confirmation power supply unit 24 b so that the connection confirmation voltage line 28 is supplied to the connection confirmation voltage line 28. In addition, the player transmission control unit 23 controls the playback unit 22 to operate when it is detected that the hot plug output signal from the AV receiver 10 has transitioned from the low level to the high level.

  When the player transmission control unit 23 receives a command for stopping and restarting playback from the AV receiver 10, the player transmission control unit 23 stops the playback operation by the playback unit 22, and then restarts the playback function to perform player transmission control. Data transmission to the unit 23 is resumed. Further, when the player transmission control unit 23 receives a restart instruction for turning off and on the power from the AV receiver 10, the player transmission control unit 23 turns off the main power supply unit 24a and then turns on the main power supply unit 24a again to perform HDCP authentication. , And initial processing such as acquisition of Extended Display Identification Data (EDID) information indicating the reception capability (corresponding resolution, audio format, etc.) of the display device 30 is executed again. The operation command of the player 20 from the AV receiver 10 is a command based on the HDMI (registered trademark) -CEC (HDMI (registered trademark) -Consumer Electronic Control) standard.

  A commercial AC power supply (not shown) is supplied to the main power supply unit (power supply) 24 a and supplies necessary power (for example, DC power) to each component of the player 20. The connection confirmation power supply unit 24 b generates a constant voltage of 5 V and supplies it to the player transmission control unit 23. The player transmission control unit 23 supplies 5V from the connection confirmation power supply unit 24b to the connection confirmation voltage line 28 as a connection confirmation voltage.

[Configuration of AV Receiver 10]
The AV receiver 10 is a device compliant with the HDMI (registered trademark) standard, receives data (HDMI (registered trademark) data) compliant with the HDMI (registered trademark) from the player 20, performs various processing on the data, and displays the display. The data processing device transmits HDMI (registered trademark) data to the device 30. The AV receiver 10 includes connectors 11 and 14, a receiver transmission / reception control unit 12, and a connection confirmation power supply unit 13.

  The AV receiver 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 (registered trademark) lines. .

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

  The hot plug line 15 a is a line for transmitting a hot plug output signal (connection confirmation signal) from the AV receiver 10 to the 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 receiver 10.

  The DDC line 16a is a line for transmitting and receiving a DDC signal (HDCP authentication information, EDID information) which is device information regarding the AV receiver 10 and the display device 30. The DDC line 16b is a line for transmitting and receiving a DDC signal (HDCP 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 17a is a line that receives a TMDS data signal supplied from the player 20. The TMDS line 17 b is a line for transmitting a TMDS data signal 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 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 receiver transmission / reception control unit 12 provides the display device 30 with the HDCP authentication information for investigating whether or not the display device 30 is a device compliant with the HDMI (registered trademark) standard via the DDC line 16b. Authentication is performed according to response information from the device 30. If this authentication is OK, the receiver transmission / reception control unit 12 transmits the TMDS data received from the player 20 to the display device 30. If the authentication is NG, the HDCP authentication information is provided to the display device 30 again after a predetermined time. As described above, the HDMI (registered trademark) authentication is performed in the upstream apparatus.

  When the TMDS signal from the player 20 is unstable or the TMDS data signal does not match the EDID information, the receiver transmission / reception control unit 12 gives the player 20 a command to restart the playback function. Such a command is a command based on the HDMI (registered trademark) -CEC standard. Note that the TMDS signal is in an unstable state, for example, the HDMI (registered trademark) authentication ends abnormally, and the player 20 temporarily stops transmission of the TMDS data signal and then starts transmission again. This is a state in which reception is unstable. Such a state also includes a case where the signal output from the player 20 does not match the EDID information. Hereinafter, such a state is referred to as “transmission defect”, and a method for identifying the transmission defect and a countermeasure for the problem will be described later.

  The receiver transmission / reception control unit 12 turns off the main power supply 24a after turning off the main power supply unit 24a of the player 20 in the case where the transmission problem is not resolved despite giving the above-mentioned command for restarting the playback function of the player. A restart command for turning on the unit 24a again is given. Further, the receiver transmission / reception control unit 12 gives a warning display video signal for outputting a warning message on the screen of the display device 30 to the display device 30 when the above-mentioned problem is not solved after the restart command is issued. . Then, the user performs a predetermined operation in response to such a warning message, and returns to the normal operation when it is estimated that the problem has been solved.

[Configuration of Display Device 30]
The display device 30 is a device compliant with the HDMI (registered trademark) standard, and is a device that receives HDMI (registered trademark) data from the AV receiver 10 and reproduces video and audio. 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 connector 31 is connected to the AV receiver 10 via an HDMI (registered trademark) cable. Note that the player 20 may be directly connected to the connector 31 via an HDMI (registered trademark) 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 (registered trademark) 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 supplied from the AV receiver 10. The output processing unit 322 generates original video data from the received TMDS data signal and supplies it to the display unit 33. The output processing unit 322 generates original audio data from the received TMDS data signal and supplies it to the audio processing unit 34. Further, when receiving the warning display video signal from the AV receiver 10, the output processing unit 322 supplies the warning display video signal to the display unit 33 and displays a warning message on the display unit 33.

  When the connection confirmation voltage is supplied from the AV receiver 10, the hot plug HL processing unit 324 sets the hot plug output signal output to the AV receiver 10 to a high level.

  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). Accordingly, video is output from the LCD or the like, and audio is output from the audio speaker.

  Next, the operation of the data transmission / reception system 8 configured as described above will be described. FIG. 2 is a flowchart showing a procedure for detecting that the HDCP authentication is NG while the TMDS signal is unstable. First, the AV receiver 10 determines whether or not the connection confirmation voltage (5 V) supplied from the player 20 has been received (S2). If NO in step S2, the process proceeds to END processing.

  If YES in step S2, if the hot plug output signal from the display device 30 is H, the hot plug output signal to the player 20 is changed from L to H (S4). Thus, the player 20 recognizes the connection with the AV receiver 10 and transmits TMDS data. Therefore, the AV receiver 10 thereafter determines whether or not TMDS data from the player 20 has been received (S6). If it is determined NO in step S6, the process returns to step S6 again after a predetermined time has elapsed.

If YES is determined in step S6, it is determined whether HDCP authentication from the player 20 has been started (S8). Player 20, when starting the HDMI (registered trademark) authentication, since supplying the information to the AV receiver 10, allows the determination of the S 8 by the information. If it is determined NO in step S8, after a predetermined time has elapsed, the process returns to step S8 again.

  If YES is determined in step S8, it is determined whether TMDS data from the player 20 is continuously received (S10). If YES is determined in step S10, TMDS data can be normally received, and the process proceeds to END processing.

  If NO in step S10, it is determined that HDCP authentication may have failed, and the counter is incremented (S12), and it is determined whether the count value exceeds a predetermined threshold (S14). If NO in step S14, the process returns to step S6 and the above determination is repeated. If YES is determined in step S14, it is determined that HDCP authentication has failed, and a countermeasure process for a malfunction described later is executed.

  FIG. 3 is a flowchart showing a procedure for detecting a case where the video signal of TMDS data does not match the EDID information. First, it is determined whether TMDS data from the player 20 is received (S20). If it is determined NO in step S20, it is determined that the player 20 is not connected, and the process returns to step S20 again.

  If YES is determined in the process of S20, it is determined whether or not the resolution of the video signal of the TMDS data matches the resolution included in the EDID information (S22). If it is determined NO in step S22, a countermeasure process for a malfunction described later is executed on the assumption that the video signal of the TMDS data does not correspond to the EDID information. That is, the countermeasure processing for the malfunction is performed on the assumption that the connected player 20 does not output a corresponding signal.

  FIG. 4 is a flowchart showing a procedure for detecting a case where the audio signal of TMDS data does not match the EDID information when the AV receiver 10 is in the standby state. First, it is determined whether or not the AV receiver 10 is in a standby through state (S30). If it is determined NO in step S30, the process proceeds to END processing.

  If it is determined YES in step S30, it is determined whether TMDS data from the player 20 is received (S32). If it is determined NO in step S32, after a predetermined time has elapsed, the process returns to S32.

  If YES is determined in the step S32, it is determined whether or not an audio signal is included in the TMDS data (S34). If it is determined NO in step S34, the process proceeds to END processing.

  If YES is determined in the step S34, it is determined whether or not the audio signal of the TMDS data matches the audio signal included in the EDID information (S36). If it is determined NO in step S36, it is determined that the audio signal does not correspond to EDID information, and a countermeasure process for a malfunction described later is executed. Thus, in the standby through state, the AV receiver 10 maintains the standby through state without receiving normal TMDS data and does not supply a signal to the display device 30.

  FIG. 5 is a countermeasure process for a defect that is first executed when it is determined that a countermeasure process for a malfunction in transmission should be performed according to the procedure shown in FIGS. First, the AV receiver 10 transmits a command for stopping reproduction to the player 20 (S40), and starts a timer (S42).

  After the step of S42, it is determined whether or not the timer value exceeds a predetermined threshold (S44). If the timer value does not exceed the predetermined threshold, the process returns to S44 again.

  If it is determined YES in step S44, the player 20 should have stopped playing and a predetermined time has elapsed, and a playback start command is transmitted to the player 20 (S46). As a result, the player 20 resumes playback from the media and starts retransmitting TMDS data to the AV receiver 10.

  As described above, according to the data transmission / reception system 8 including the AV receiver 10, when the TMDS signal does not change from an unstable state or when the TMDS data does not match the EDID information, a command to restart the reproduction function is given. Thus, since the TMDS signal is returned to the initial state and transmitted again, the possibility of shifting to a stable state is increased.

  FIG. 6 is a process executed when it is determined that a countermeasure for a malfunction in transmission should be performed by the procedure shown in FIGS. 2 to 4 in spite of the case where the process of FIG. 5 is performed. . Note that this processing may be performed without performing the above-described processing. If the problem is not resolved, first, a command for turning off the main power supply unit 24a is transmitted to the player 20 (S50), and a timer is started (S52).

  After the step S52, it is determined whether or not the timer value has exceeded a predetermined threshold (S54). If the timer value does not exceed the predetermined threshold, the process returns to S54 again.

  If YES is determined in step S54, a command for turning on the main power supply 24a is transmitted to the player 20 again (S56). As a result, the player 20 is restarted and all the basic processes are redone. That is, HDCP authentication is performed again, and EDID information is also acquired.

  As described above, according to the data transmission / reception system 8, even when the playback function is restarted, the TMDS signal does not change from an unstable state or the TMDS data does not match the EDID information. Then, the player 20 is turned off and then turned on, so-called restart is executed. As a result, there is a higher possibility that TMDS data matching the EDID information is transmitted by shifting the TMDS signal to a stable state or rereading the EDID information.

  FIG. 7 is a process to be executed when it is determined that a countermeasure for a malfunction in transmission should be performed by the procedure shown in FIGS. 2 to 4 in spite of the case where the process of FIG. 6 is performed. . This process may also be executed regardless of the processes in FIGS. When a problem occurs, the hot plug output signal output to the player 20 is first switched from H to L (S60). Thereby, reception of the TMDS signal from the player 20 is stopped.

  After the process of S60, a warning display video signal is transmitted from the AV receiver 10 to the display device 30 (S62). As a result, a warning message is displayed on the display device 30 (S64).

  After the process of S64, it is displayed together with the warning message, and it is determined whether or not the user has selected “Yes” indicating the intention when grasping the warning content (S66). If NO is determined in step S66, the process returns to S66 again.

  If YES is determined in step S66, the hot plug output signal output to the player 20 is returned from L to H (S68).

  As described above, according to the data transmission / reception system 8, the warning message is displayed to the display device 30 when there is no change in the state even though the reproduction function is restarted and the restart command is issued by switching the power off and on. Is displayed. Thereby, the user can review the setting of the player 20 and the like. Then, the setting is changed, and when the user selects “Yes”, the reception of the signal from the player 20 is resumed. Such processing increases the possibility of avoiding the above-described state.

  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, although HDMI (registered trademark) 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.

  8 Data transmission / reception system, 10 AV receiver, 11, 14 connector, 12 Receiver 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 player, 21 connector, 22 playback section, 23 player transmission control section, 24a main power supply section, 24b 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, 322 output processing unit, 324 Hot plug HL processing unit.

Claims (4)

A data processing apparatus having a receiver transmission / reception control unit that receives a digital reproduction signal from a player that reproduces data by having a player transmission control unit and processes the data.
When the player is connected and the reception of the reproduction signal is started, the receiver transmission / reception control is performed when the reception state of the received reproduction signal is unstable or the received reproduction signal does not match a predetermined format. The data processing device is characterized in that the unit gives a command to turn on the power again after turning off the power in the player to the player transmission control unit of the player. A data processing apparatus having a receiver transmission / reception control unit that receives a digital reproduction signal from a player that reproduces data by having a player transmission control unit and processes the data.
When the player is connected and the reception of the reproduction signal is started, the receiver transmission / reception control is performed when the reception state of the received reproduction signal is unstable or the received reproduction signal does not match a predetermined format. The unit gives a command to temporarily stop playback in the player and then start playback to the player transmission control unit of the player,
In spite of giving this command, when the reception state of the received reproduction signal is unstable or when the received reproduction signal does not match a predetermined format, the receiver transmission / reception control unit A data processing apparatus characterized by giving a command to turn on the power again after turning off the power in the player to the player transmission control unit. The data processing apparatus according to claim 1 or 2,
The receiver transmission / reception control unit sets a warning message on the screen of the display unit to a display device having a display unit that displays based on the reproduction signal after the reproduction signal is not received from the player. A data processing apparatus characterized by providing a video signal for output. The data processing apparatus according to claim 3, wherein
The reproduction signal conforms to the HDMI (registered trademark) standard, and the video signal for outputting the command or the warning message on the screen of the display unit conforms to the HDMI (registered trademark) -CEC standard. A data processing apparatus characterized by that.

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