WO2013047728A1 - Content-data transmission system and content-data transmission method - Google Patents

Abstract

[Problem] To simplify the operation of transmitting content data and a clock signal in a system that transmits content data from a content playback device to an output device. Also, to prevent degradation in the sound quality or image quality of said content data. [Solution] A content-data transmission system provided with a content playback device and a content output device. The content playback device receives a clock signal by recognizing information indicating a clock signal transmitted from the content output device via a digital-audio transmission cable. The content playback device plays content data on the basis of said clock signal and transmits said content data to the content output device via a multimedia transmission cable. The content output device uses an output-device clock signal to generate the clock signal to transmit to the content playback device and transmits said clock signal to the content playback device via the digital-audio transmission cable. The content output device applies signal processing to the content data transmitted from the content playback device via the multimedia transmission cable and outputs said content data externally.

Description

Content data transmission system and content data transmission method

The present invention relates to a content data transmission system and a content data transmission method for transmitting content data between a content reproduction device (for example, an audio disc player, a video disc player) and a content output device.

Plays content data (video data, audio data, etc.) recorded on a recording medium such as DVD (Digital Versatile Disc), BD (Blu-ray Disc), or content data downloaded from a server or the like via a network A content reproduction device (for example, an audio disc player, a video disc player) and content data reproduced by the content reproduction device and transmitted as digital data are received, and the audio data is amplified from the received content data and output to a speaker. There is a content data transmission system including a content output device (for example, an amplifier) that outputs audio data and video data to a video display device such as a monitor or a display.

In recent years, in such a content data transmission system, digital data such as IEEE (Institute of Electrical and Electronic Engineers) 1394 interface or HDMI (High-Definition Multimedia Interface) is used to transmit content data from a content reproduction device to a content output device. An interface is used, and audio data and video data reproduced by the content reproduction device can be transmitted to the content output device as high-quality digital data.

In a system that transmits content data from a content reproduction device to a content output device using such a digital interface, the master clock generated inside the content output device and the master clock generated inside the content reproduction device are not synchronized. Therefore, jitter occurs in the content data (digital data) received by the content output device from the content playback device, and due to the influence of this jitter, the content output device cannot correctly demodulate the received digital data, Noise may occur in the audio signal output from the speaker, the audio signal may be interrupted, or the image quality of the video signal may deteriorate.

As a method of synchronizing the master clock of the content playback device and the content output device, the content output device generates a master clock synchronized with the audio data transmitted from the content playback device, and transmits from the content playback device using the master clock A method for demodulating the audio data (transmitting device clock control mode) is disclosed in Patent Document 1.

As another method, the content output apparatus detects whether or not the master clock generated in the content output apparatus is synchronized with the digital data transmitted from the content reproduction apparatus, and the generated master clock and audio are detected. Patent Document 2 discloses a method (receiving device clock control mode) in which correction information for correcting a synchronization error with data is generated and transmitted to a content reproduction device. In this method, the content reproduction apparatus adjusts the frequency of the master clock based on the correction information received from the content output apparatus, encodes audio data using the adjusted master clock, and transmits the encoded audio data to the content output apparatus.

JP-A-6-296173 JP 2003-32572 A

In the method disclosed in Patent Document 1, the amplification device generates a master clock synchronized with the master clock of the reproduction device and synchronizes the reproduction device and the master clock of the amplification device (transmission device clock control mode). In order to generate a master clock, a PLL (Phase Locked Loop) circuit using a clock oscillated by a VCO (Voltage Controlled Oscillator) circuit is used. In this VCO circuit, since the allowable range of clock synchronization is ± 1000 ppm (Parts Per Million) with respect to the center frequency of the clock, jitter is generated in the generated master clock. For this reason, when the audio data transmitted from the reproducing device is demodulated using the master clock generated by the VCO circuit in the amplifying device, jitter occurs in the audio data and the sound quality of the audio data output from the amplifying device is improved. There is a problem of deterioration. In addition, this leads to a problem that image quality deteriorates in the case of video data.

Patent Document 2 discloses a method for adjusting the master clock frequency of a reproduction device to synchronize the master clock of the reproduction device and the amplification device in synchronization with the master clock generated by the amplification device (receiver clock control mode) In the amplifying apparatus, adjustment is made so that the master clock of the reproducing apparatus is synchronized with the master clock of the amplifying apparatus. Since the audio data transmitted from the playback device is synchronized with the master clock of the amplification device, no jitter occurs in the audio data received from the playback device in the amplification device. For this reason, the amplification device can reproduce the audio data received from the reproduction device with high sound quality. However, since the master clock for audio transmission of the playback device is synchronized with the master clock of the amplification device, the video master clock and the audio master clock cannot be synchronized in the playback device, and the video data to be played back This causes a problem that the moving image stops for a moment or skips and plays back one frame image.

That is, in the conventional content data transmission system using a digital interface, when the master clock of the content playback device and the content output device is synchronized in the above-described receiver clock control mode, DVD-AUDIO or CD-DA (Compact Disc- When reproducing a recording medium on which only audio data (such as Digital Audio) is recorded, the content output device can reproduce the audio data received from the content reproduction device with high sound quality. However, when reproducing a recording medium on which audio data and video data such as DVD-VIDEO are recorded, there is a problem that a moving image of the reproduced video data stops for a moment or an image for one frame is skipped. appear.

On the other hand, when the master clock of the reproduction device and the amplification device is synchronized in the above-described transmission device clock control mode, the video of the reproduced video data stops momentarily when the recording medium on which the audio data and the video data are recorded is reproduced. It is possible to prevent the occurrence of problems such as playing or skipping an image for one frame. However, since the content output apparatus demodulates the audio data transmitted from the content reproduction apparatus using the master clock generated by the VCO circuit, there arises a problem that jitter occurs in the audio data and the sound quality deteriorates.

In this way, in a content data transmission system using a digital interface, a number of circuits can be used regardless of whether only audio data is transmitted from a content reproduction apparatus or both audio data and video data are transmitted. There is a problem in that it is added, complicated signal processing is performed, and the sound quality of audio data and the image quality of video data are deteriorated.

In addition, when using the above-described receiving device clock control mode and transmitting device clock control mode, it is necessary to check whether the content playback device and the content output device are compatible with these modes. Since it is necessary to confirm whether or not the mode is supported by mutual communication, the communication procedure is complicated, and it is necessary to add a circuit and a program.

Also, when these modes are selected, the user needs to change the settings of the content reproduction device and the content output device so as to correspond to the respective modes. This can be set relatively easily for users who are familiar with this mode, but it may be difficult for users who are not familiar with this mode. Furthermore, when setting the mode, both devices are operated and set, so that the operation is troublesome.

The present invention is a system for transmitting content data such as video data and audio data from a content reproduction device to a content output device using a digital interface, and does not require the addition of many circuits or complicated signal processing. It is an object of the present invention to transmit content data without deteriorating the sound quality of audio data and the image quality of video data while making it possible to simplify the operation of changing settings by a user.

A content data transmission system according to the present invention is a content data transmission system comprising a content reproduction device that reproduces content data and a content output device that performs signal processing on the content data that is reproduced and transmitted by the content reproduction device and outputs the content data. The content playback device receives a playback device reference operation clock generator for generating a reference operation clock signal and an operation clock signal transmitted from the content output device via a digital audio transmission cable, and synchronizes with the operation clock signal. A digital audio interface input / output unit that outputs the received reception clock signal and inputs / outputs audio data of the content data, and a reference operation clock generated by the playback device reference operation clock generation unit A reproduction device operation clock conversion unit that converts any of the reception operation clock signals output by the digital audio interface input / output unit into a reproduction device operation clock signal, and the content data that operates based on the reproduction device operation clock signal. A content generation unit that generates the signal, and a signal processing unit that performs signal processing on the content data generated by the content generation unit and inputs / outputs audio data of the content data to / from the digital audio interface input / output unit; A data output unit that operates based on the playback device operation clock signal and performs the signal processing and outputs the content data to the content output device via a multimedia transmission cable; and controls the entire content playback device and Playback device A playback device control unit for controlling a production clock signal, wherein the content output device includes an output device reference operation clock generation unit for generating a reference operation clock signal, and a reference operation generated by the output device reference operation clock generation unit A digital audio interface clock output unit that generates an operation clock signal to be transmitted to the content reproduction device based on a clock signal and transmits the operation clock signal to the content reproduction device via a digital audio interface transmission cable; and a digital audio interface from the content reproduction device A digital audio interface audio input unit for inputting an audio signal transmitted via a transmission cable, and a digital audio interface for transmitting an audio signal to be transmitted to the content reproduction device A digital audio interface audio output unit for outputting to the content reproduction device via a transmission cable, and content transmitted from the content reproduction device via the multimedia transmission cable that operates based on the output device reference operation clock signal A data input unit to which data is input, and content data input by the data input unit or audio data input by the digital audio interface audio input unit are subjected to signal processing and the digital audio interface of audio data of the content data A reproduction device signal processing unit that outputs to the output unit, and operates based on the reference operation clock signal generated by the output device reference operation clock generation unit, and operates as content data or audio. An output unit for outputting the audio data to the outside, and controlling the entire content output device and controlling the content playback device to transmit an operation clock signal synchronized with the output device reference operation clock signal from the digital audio interface clock output unit An output device control unit that, when the digital audio interface input / output unit receives an operation clock signal from the content output device, the playback device operation clock conversion unit inputs the digital audio interface. The playback device operation clock conversion unit is controlled to convert the playback device operation clock signal into the playback device operation clock signal using the reception operation clock signal output from the output unit, and the digital audio interface input / output unit is preliminarily received from the content output device. If the operation clock signal is not received within a predetermined time, the reproduction device operation clock conversion unit converts the reproduction device operation clock signal into the reproduction device operation clock signal using the reproduction device reference operation clock signal generated by the reproduction device reference operation clock generation unit. The reproduction apparatus operation clock conversion unit is controlled to do so.
Further, in the content data transmission system according to the present invention, when the digital audio interface clock output unit transmits the operation clock signal, the digital audio interface clock output unit adds information indicating that the operation clock signal is an operation clock signal and transmits the information to the content reproduction device. The digital audio interface input / output unit identifies information indicating the operation clock signal and receives the operation clock signal.

Further, the content data transmission method according to the present invention provides content data between a content reproduction device that reproduces content data and a content output device that performs signal processing on the content data reproduced and transmitted by the content reproduction device and outputs the content data. A method of transmitting content data from a content playback device to a content output device by connecting with a multimedia data transmission cable for transmission and a digital audio interface transmission cable for transmitting an operation clock signal. Generating an operation clock signal; generating an output device reference operation clock signal in the content output device; and reproducing the content from the content output device based on the output device reference operation clock signal Generating an operation clock signal synchronized with the output device reference operation clock signal for transmission to a device, adding information indicating the operation clock signal, and transmitting the operation clock signal to the content reproduction device via a digital audio interface transmission cable And identifying the information indicating the operation clock signal transmitted from the content output device via the digital audio interface transmission cable, and receiving the operation clock signal by the content reproduction device and synchronizing with the operation clock signal. A step of outputting a reproduction apparatus reception operation clock signal; a step of converting the reproduction apparatus reference operation clock signal into a reproduction apparatus operation clock signal using one of the reproduction apparatus reference operation clock signal and the reproduction apparatus reception operation clock signal; Work on the basis Reproducing content data, transmitting content data operated and reproduced based on the playback device operation clock signal to a content output device via a multimedia transmission cable, and based on the output device reference operation clock signal Content data that is operated and transmitted from the content reproduction device via a multimedia transmission cable is input to the content output device, and operates based on the output device reference operation clock signal and outputs the content data to the outside The step of converting into a playback device operation clock signal using either the playback device reference operation clock or the playback device reception operation clock signal, wherein the content playback device receives an operation clock signal from the content output device. Received The playback device receiving operation clock signal is converted into a playback device operation clock signal, and when the content playback device does not receive the operation clock signal from the content output device within a predetermined time, the playback device This is a method of converting into a reproduction apparatus operation clock signal using a reference operation clock signal.

According to the present invention, in the content data transmission system and the content data transmission method, it is possible to simplify the operation of changing the setting by the user without adding many circuits or complicated signal processing, and the content data, audio data, In addition, by transmitting the operation clock signal, it is possible to transmit high-quality content data while suppressing deterioration of sound quality of audio data and image quality of video data.

It is a block diagram which shows schematic structure of one Embodiment of the content data transmission system of this invention. It is a figure which shows the mode confirmation process in the content data transmission system of one Embodiment of this invention. It is a figure which shows the process which concerns on the content data transmission in the content data transmission system of one Embodiment of this invention.

FIG. 1 is a block diagram showing a schematic configuration of an embodiment of a content data transmission system 100 of the present invention.
The content data transmission system 100 includes a content reproduction device 200 and a content output device 300.
The content data is data such as video data, audio data, and a computer program. In this embodiment, the content data is described as data including video data and audio data.

Digital data is downloaded to the content playback device 200 from, for example, a disc playback device such as a DVD player or a BD player, a memory player that plays back content data stored in a semiconductor memory, or a server via a connected network. A network player is used.
The content reproduction apparatus 200 performs signal processing such as decoding on video data and audio data reproduced from a recording medium such as a disc, or video data and audio data acquired via a network, and outputs the result as digital data.

For the content output device 300, for example, an AV (Audio Visual) amplifier, an AV receiver, a network receiver, or the like is used. The content output device 300 amplifies an audio signal or performs signal processing for surround on video data or audio data input via a directly connected external device or network, and the video data is transmitted to a TV or monitor. The signal is converted into a displayable video signal, etc., and output.

The content reproduction device 200 and the content output device 300 are connected by a multimedia data transmission cable 400 and SPDIF transmission cables 500a, 500b, and 500c that are digital audio transmission cables. The content reproduction device 200 and the content output device 300 are connected by a multimedia data transmission cable 400 to transmit content data. In this embodiment, an HDMI cable is used as the multimedia transmission cable 400 for transmitting the content data. The data output unit of the content playback device 200 and the data input unit of the content output device 300 have an interface function compatible with HDMI, and by using an HDMI cable, between the content playback device 200 and the content output device 300 Device authentication and data transfer protection can be performed, and audio data and video data can be transmitted by a single cable.

Also, the content reproduction device 200 and the content output device 300 are connected by an SPDIF cable 500a that transmits an operation clock in order to transmit an operation clock signal. Further, the content reproduction device 200 and the content output device 300 are connected by SPDIF cables 500b and 500c in order to transmit SPDIF audio signals. The SPDIF input / output unit of the content playback device 200 and the SPDIF clock output unit, SPDIF audio input unit, and SPDIF audio output unit of the content output device 300 have an SPDIF interface function. The SPDIF interface is generally used for transmission of audio data, and can be used at low cost and without taking a complicated circuit configuration.

In this embodiment, when the operation clock signal is transmitted from the content output device 300 to the content reproduction device 200, the transmission clock of the SPDIF cable is based on the reference operation clock signal generated by the reference operation clock generation unit of the content output device 300. Using the operation clock signal, 0 data is transmitted as audio data. Thus, the content reproduction apparatus 200 does not need to perform processing such as decoding on unnecessary audio data, and can accurately receive the operation clock signal generated by the content output apparatus 300.

Next, the configuration of the content reproduction device 200 and the content output device according to the present embodiment will be described.
First, the content playback device 200 includes a playback device reference operation clock generation unit 210, an SPDIF input / output unit 220, a playback device operation clock conversion unit 230, a content generation unit 240, a playback device signal processing unit 250, a data output unit 260, and a playback device. A control unit 270 is provided.

The playback device reference operation clock generation unit 210 includes a crystal oscillator (not shown), and generates a reference operation clock signal that serves as a reference for the operation clock signal when each unit in the content playback device 200 operates. The reference operation clock signal is output to the playback device operation clock converter 230.

The SPDIF input / output unit 220 has a digital audio interface SPDIF format data input / output function, receives an operation clock signal transmitted from the SPDIF clock output unit 350 of the content output device 300 described later via the SODIF cable 500a, A built-in frequency converter (not shown) converts the frequency of the received operation clock signal to a predetermined frequency, and outputs the converted operation clock signal (received operation clock signal) to the playback device operation clock converter 230. To do. Specifically, when the SPDIF input / output unit 220 detects information indicating transmission of a 48 kHz operation clock signal recorded as channel status (Channnel Status) data in SPDIF format, the SPDIF input / output unit 220 detects 48 kHz from the content output device. The operation clock signal is received, the operation clock signal is converted into a 24 MHz operation clock signal by the built-in frequency converter, and the 24 MHz operation clock signal is output to the reproduction device operation clock conversion unit 230. The above-described channel status information is recorded when SPDIF transmission such as an operation clock signal is performed in the content output apparatus 300 of the transmission source.

The playback device operation clock converter 230 receives the reference operation clock signal generated by the playback device reference operation clock generation unit 210 or the reception operation clock signal received by the SPDIF input / output unit 220, and controls the playback device control described later. Based on the control of the unit 270, one of the operation clock signals is used to convert the operation clock signal to a predetermined frequency, and the converted operation clock signal is converted into the content generation unit 240, the signal processing unit 250, the data output unit 260, etc. Output to.

In addition, the reproduction apparatus operation clock conversion unit 230 includes a first frequency conversion unit (not shown), a second frequency conversion unit (not shown), and a signal switching unit (not shown). The first frequency converter is a frequency converter with a high input frequency gain that can handle signals with large frequency fluctuations. The second frequency converter is a frequency converter with a low input frequency gain that can convert an operation clock signal that corresponds to a signal with a relatively small frequency fluctuation and has a small error with respect to a predetermined frequency. . The signal switching unit includes a reference operation clock signal input from the reproduction device reference operation clock generation unit 210 to the reproduction device operation clock conversion unit 230 and a reception operation clock input from the SPDIF input / output unit 220 to the reproduction device operation clock conversion unit 230. This is a signal switcher that switches signals based on the control of a playback device control unit 270 described later.

Specifically, in the playback device operation clock conversion unit 230, the signal switching unit is a 24 MHz reception operation clock that the SPDIF input / output unit 220 receives, generates, and outputs a 48 kHz clock based on the control of the playback device control unit 270. The input source is switched to either the signal or the 24 MHz reference operation clock signal generated by the reproduction apparatus reference operation clock generation unit 210. The first frequency converter converts the input 24 MHz operation clock signal into a 13.5 MHz operation clock signal, and outputs the 13.5 MHz operation clock signal to the second frequency converter. The second frequency converter further converts the 13.5 MHz operation clock signal into a 27 MHz operation clock signal and outputs the converted signal to the content generation unit 240, the playback device signal processing unit 250, the data output unit 260, and the like. The first frequency converter converts the input 24 MHz operation clock signal into a 27 MHz operation clock signal, and outputs the 27 MHz operation clock signal to the second frequency converter. The second frequency converter The 27 MHz operation clock may be further converted into a 27 MHz operation clock signal.

The 24 MHz operation clock signal input from the SPDIF input / output unit 220 is a reception operation clock signal generated based on the 48 kHz operation clock signal transmitted by the SPDIF cable 500a, and the frequency variation with respect to the reference frequency. A big signal. For this reason, first, the first frequency converter having a high input frequency gain is converted into an operation clock signal having a narrow frequency fluctuation range with respect to the reference frequency. That is, the 24 MHz operation clock signal is converted into an operation clock signal having a frequency range of 13.5 MHz ± 5%. After that, the operation clock signal output from the first frequency converter in the frequency range of 13.5 MHz ± 5% is more accurately narrowed with respect to the predetermined frequency by the second frequency converter with a low input frequency gain. Converted to a high operating clock signal. In other words, the operation clock signal in the frequency range of 13.5 MHz ± 5% is converted into the operation clock signal in the frequency range of 27 KHz ± 0.5%, and the operation clock signal is output to the content generator 240, the playback device signal processor 250, and the data output Is output to the unit 260 and the like. The content generation unit 240, the playback device signal processing unit 250, the data output unit 260, and the like operate in synchronization with an operation clock signal having a small error with respect to a predetermined frequency. For this reason, the content generation unit 240, the playback device signal processing unit 250, the data output unit 260, and the like operate without synchronization error.

Also, the SPDIF input / output unit 220 converts the audio data from the playback device signal processing unit 250 into the SPDIF format, and transmits it to the SPDIF audio input unit 360 of the content output device 300 described later via the SODIF cable 500b. When the SPDIF input / output unit 220 detects that the SPDIF cable is connected and does not detect the input signal, the SPDIF input / output unit 220 determines that the SPDIF audio input unit 360 is connected to the SPDIF audio input unit. Perform output operation to 360.
Further, the SPDIF input / output unit 220 receives and encodes an SPDIF audio signal transmitted from the SPDIF audio output unit 370 of the content output device 300 (to be described later) via the SODIF cable 500c, and outputs the encoded signal to the playback device signal processing unit 250. When the SPDIF input / output unit 220 detects that the SPDIF cable is connected and detects an input signal, the SPDIF input / output unit 220 checks the information recorded in the channel status, and if there is no information indicating that the operation clock signal is transmitted, It is determined that the SPDIF audio signal is input, and an output operation to the playback device signal processing unit 250 is performed.

The content generation unit 240 reads the content data recorded on the disc and the content data stored in the semiconductor memory, and outputs the content data to the playback device signal processing unit 250. Further, the content generation unit 240 includes a network connection unit (not shown), acquires content data by downloading or streaming content data recorded on a server or the like via the network, and the content data Is output to the playback device signal processing unit 250.

The playback device signal processing unit 250 performs decoding processing and various signal processing on the content data generated by the content generation unit 240. For example, decoding processing is performed on audio data and video data, multi-channel processing is performed on audio data, and processing such as 3D conversion is performed on video data.

The data output unit 260 is connected between the content reproduction device 200 and the content output device 300 to transmit the content data output from the reproduction device signal processing unit 250 from the content reproduction device 200 to the content output device 300. The data is converted into a data format that can be transmitted by the multimedia data transmission cable 400. In this embodiment, the content reproduction device 200 and the content output device 300 are connected by an HDMI cable 400 as a multimedia data transmission cable. The data output unit 260 has an HDMI interface function, converts it into a data format suitable for data transmission of the HDMI interface, and transmits content data to the content output device 300 via the HDMI cable 400.

The playback device control unit 270 controls the entire content playback device 200. Based on the operation clock signal received from the content output device 300, the playback device control unit 270 converts the frequency of the operation clock signal in the playback device operation clock conversion unit 230, and based on the operation clock signal, the content generation unit 240, It is possible to control the transmission of content data to the content output device 300 by operating the playback device signal processing unit 250, the data output unit 260, and the like.

Further, the playback device control unit 270 detects whether or not an operation clock signal can be received from the content output device 300 based on power on / off, setting by the user, connection of the HDMI cable 400, and the like. When the operation clock signal can be received, the signal switching unit of the playback device operation clock conversion unit 230 is controlled, and the operation clock signal is generated based on the reception operation clock signal received by the SPDIF input / output unit 220. Control to work. Further, when it is detected whether or not the operation clock signal can be received from the content output device 300, and it is not detected that the operation clock signal has been received from the content output device 300, the signal switching unit of the playback device operation clock conversion unit 230 is set. And generating an operation clock signal based on the reference operation clock signal output from the playback device reference operation clock generation unit 210 and controlling each unit in the apparatus to operate.

Next, the content output device 300 includes a data input unit 310, an output device signal processing unit 320, an output unit 330, an output device reference operation clock generation unit 340, an SPDIF clock output unit 350, an SPDIF audio input unit 360, and an SPDIF audio output unit. 370 and an output device control unit 380.

The data input unit 310 receives content data transmitted from the content reproduction device 200 via the HDMI cable 400. The data input unit 310 outputs the received content data to the output device signal processing unit 320.

The output device signal processing unit 320 performs signal processing on the content data input to the content output device 300 by the data input unit 310 and outputs it to the output unit 330. Further, the output device signal processing unit 320 performs signal processing on the audio data input to the content output device 300 by the SPDIF audio input unit 360 described later, and outputs the audio data to the output unit 330. Here, the signal processing applied to the content data includes, for example, surround conversion processing applied to audio data, OSD (On-Screen Display) signal superimposition processing applied to video data, and the like. Further, the output device signal processing unit 320 outputs audio data of the content data subjected to signal processing to the SPDIF audio output unit 370.

The output unit 330 includes an amplifying unit (not shown) that amplifies audio data, a video encoder (not shown) that converts video data into a video signal format for display on a television or monitor, and the like. The content data that has undergone signal processing by the processing unit 320 is divided into video data and audio data, which are output to the outside of the content output device 300, respectively. In the case of audio data, it is output to a speaker or the like connected to an output terminal via a connection cable or the like via an amplifier. In the case of video data, it is output to a television or monitor connected to the output terminal via a video encoder via a connection cable or the like.

The output device reference operation clock generator 340 includes a crystal oscillator (not shown) and generates a reference operation clock signal. In the present embodiment, the reference operation clock signal serves as a reference for the operation clock signal of the content output apparatus 300 and also serves as a reference for the operation clock signal transmitted to the content reproduction apparatus 200. Specifically, the output device reference operation clock generation unit 340 generates a 24 MHz reference operation clock signal and outputs the reference operation clock signal to the data input unit 310, the output device signal processing unit 320, the output unit 330, and the like. .

The SPDIF clock output unit 350 has a digital audio interface SPDIF format data output function, converts the reference operation clock signal generated by the output device reference operation clock generation unit 340 into a predetermined frequency, and outputs a 48 kHz operation clock as the channel status. Information (data pattern or the like) indicating that the signal is transmitted is recorded and converted into the SPDIF format, and the operation clock signal is transmitted to the content reproduction device 200 via the SPDIF cable 500a. In the present embodiment, the 24 MHz reference operation clock signal generated by the output device reference operation clock generation unit 340 is converted into an operation clock signal having a frequency of 48 kHz and transmitted to the content reproduction apparatus 200 via the SPDIF cable 500a.
The SPDIF audio input unit 360 has a digital audio interface SPDIF format data input function, inputs an SPDIF format audio signal transmitted from the content playback device 200 through the SPDIF cable 500b, encodes it from the SPDIF format, and outputs it. The signal is output to the signal processor 320.
The SPDIF audio output unit 370 has a digital audio interface SPDIF format data output function, and the audio data of the content data that has been subjected to signal processing by the output device signal processing unit 320, particularly the channel status information (data pattern, etc.). ) Are converted to the SPDIF format without being recorded, and transmitted to the content playback apparatus 200 via the SPDIF cable 500c. Here, the information indicating that the data is audio data may be recorded in the channel status.

The output device control unit 380 controls the entire content output device 300. The output device control unit 380 performs control to convert the reference operation clock signal generated by the output device reference operation clock generation unit 340 from the SPDIF clock output unit 350 to the SPDIF format and transmit it to the content reproduction device 200 via the SPDIF cable 500a. At the same time, the content data transmitted from the content reproduction apparatus 200 is received, subjected to signal processing, and then output from the output unit 330 to the outside. Further, the output device control unit 380 receives the audio data transmitted in the SPDIF format from the content reproduction device 200, performs signal processing, and then outputs the audio data from the output unit 330 to the outside. Control is performed to transmit the audio data from the processing unit 320 to the content reproduction device 200 in the SPDIF format.

Transmission of operation clock signal from SPDIF clock output unit 350 through SPDIF cable 500a, transmission of SPDIF audio signal through SPDIF cable 500b to SPDIF audio input unit 360, and SPDIF audio signal from SPDIF audio output unit 370 through SPDIF cable 500c. Since transmission is not performed at the same time, but is performed by switching, SPDIF cables 500a, 500b, 500c are configured as one SPDIF cable, SPDIF clock output unit 350, SPDIF audio input unit 360, SPDIF audio output unit The connection with the 370 can be switched.

Next, operations of the content output device 200 and the content reproduction device 300 according to the present embodiment will be described.
Since both devices operate in the output device clock operation mode in which the content reproduction device 200 operates in accordance with the operation clock signal generated by the content output device 300, it is confirmed whether or not each device can support the output device clock operation mode. There is a need to.

The output device clock operation mode cannot be operated unless both the content reproduction device 200 and the content output device 300 are compatible, and the user can set on / off of the output device clock operation mode. In the default settings of the content playback device 200 and the content output device 300, the output device clock operation mode is in the off state. In the present embodiment, an operation for automatically setting ON / OFF in the output device clock operation mode will be described. Note that this operation mode may be confirmed when the power of the content reproduction apparatus or the content output apparatus is turned on.

The content playback device 200 and the content output device 300 are connected to each other with the HDMI cable 400, and the HDMI cable 400 is connected between the two devices when the power of each device is turned on or after the power is turned on. In such a case, the playback device control unit 270 or the output device control unit 380 performs a mode confirmation process via the HDMI interface based on detection of power-on and connection of the HDMI cable 400.

The mode confirmation process will be described. Here, a case will be described as an example where HDMI cable 400 is connected and HDMI interface function CEC (Consumer Electronics Control) is used as a communication method during mode confirmation processing.
FIG. 2 is a diagram showing a mode confirmation process in the content data transmission system according to the embodiment of the present invention.
When the HDMI cable 400 is connected between the content playback device 200 and the content output device 300, the playback device control unit 270 of the content playback device 200 detects that the HDMI cable 400 is connected and executes a mode confirmation process. . The output device control unit 380 of the content output device 300 also detects that the HDMI cable 400 is connected.

In the content playback device 200, the playback device control unit 270 transmits the device information of the content playback device 200 to the content output device 300 via the HDMI cable 400 using the HDMI interface function of the data output unit 260. The device information is information (for example, manufacturer name, model number, etc.) for specifying its own device. Here, the transmission of the device information of the content reproduction device 200 is executed when the HDMI cable 400 is connected regardless of the CEC communication setting.

The content output device 300 receives device information from the content reproduction device 200 by the data input unit 310 via the HDMI cable 400. When the device information from the content playback device 200 received here refers to a table stored in an internal memory (not shown) of the content output device 300, and the content playback device 200 is a device of a predetermined manufacturer Regardless of the CEC communication settings of the content output device 300, the internal CEC communication settings are temporarily enabled. The output device control unit 380 transmits the device information of the content output device 300 to the content reproduction device 200 via the HDMI cable 400 by using the CEC function of the HDMI interface function of the data input unit 310.

On the other hand, in the content playback device 200, when the data output unit 260 receives the device information from the content output device 300, the playback device control unit 270 refers to the table stored in the internal memory of the playback device control unit 270, It is confirmed whether the content output device 300 is a device of a predetermined manufacturer.

When the content output device 300 is a device of a predetermined manufacturer, the content playback device 200 uses the CEC function of the HDMI interface function to determine whether the content playback device 200 itself supports the output device clock operation mode. The output device 300 is notified. At the same time, the content output device 300 confirms the notification content from the content playback device 200 and at the same time notifies the content playback device 200 using the CEC function of the HDMI interface function whether it is compatible with the output device clock operation mode. .

When the content reproduction apparatus 200 confirms that the content output apparatus 300 is compatible with the output apparatus clock operation mode, the content reproduction apparatus 200 transmits an operation start request in this mode to the content output apparatus 300. The content output device 300 switches the setting to the output device clock operation mode based on a request from the content reproduction device 200. When the operation mode is switched, the content output device 300 invalidates the temporarily enabled internal CEC communication setting.

Here, in order to obtain device information, in addition to the method of exchanging with each other using the CEC function of the HDMI interface function in the HDMI cable 400, the device information of the content playback device 200 is transmitted by PACKET information on HDMI, and the content A method of transmitting the device information of the output device 300 using EDID information is also possible. In addition, it is also possible to confirm whether the output device clock operation mode is supported by transmitting the SPDIF output channel bit status information of the content output device 300 and transmitting the device information of the content reproduction device 200 using HDMI PACKET information. Is possible.

When the content reproduction device 200 receives information indicating that the operation starts in the output device clock operation mode from the content output device 300, the mode setting of the content reproduction device 200 also changes to the output device clock operation mode. Here, the mode confirmation process ends. As the mode confirmation process ends, the content playback device 200 and the content output device 300 move to the operation in the output device clock operation mode.

Next, content data transmission processing between the content reproduction device 200 and the content output device 300 will be described.
FIG. 3 is a diagram showing processing related to content data transmission in the content data transmission system according to the embodiment of the present invention.

When the mode confirmation process shown in FIG. 2 is completed, the content reproduction device 200 and the content output device 300 are set in a state in which they can operate in the output device clock operation mode (S1). When the output device clock operation mode becomes operable, the content output device 300 transmits to the content playback device 200 that the operation clock signal is transmitted via the HDMI cable 400, and the SPDIF clock output unit 350 outputs Based on the reference operation clock signal generated from the device reference operation clock generator 340, a 48 kHz operation clock signal is generated, and information indicating that the 48 kHz operation clock signal is transmitted is recorded in the SPDIF channel status data, and the SPDIF format is recorded. Then, the transmission of the operation clock signal to the SPDIF input / output unit 220 is started via the SPDIF cable 500a, and the operation clock signal is transmitted to the content reproduction device 200 (S2).

When the SPDIF input / output unit 220 detects information indicating that a 48 kHz operation clock signal is transmitted based on channel status data received via the SPDIF cable 500a (YES in S3), the SPDIF input / output unit 220 receives 48 kHz from the content output device. Reception of the operation clock signal is started (S4). Here, when information indicating that the operation clock signal is transmitted is not detected (No in S3), the SPDIF input / output unit 220 operates as reception of an audio signal (S14).
The playback device control unit 270 of the content playback device 200 checks whether the SPDIF input / output unit 220 has received a 48 kHz operation clock signal from the content output device 300 (S5), and receives the operation clock signal (in S5). YES), a 24 MHz reception operation clock signal is generated based on the received operation clock signal, and is output to the playback device operation clock converter 230 (S6). If the operation clock signal can be received within the predetermined elapsed time (NO at S5, NO at S15) (YES at S5), the reception operation clock signal is received based on the received operation clock signal (S5). It is generated and output to the playback device operation clock converter 230 (S6).

The playback device operation clock conversion unit 230 generates a 27 MHz operation clock signal (playback device operation clock signal) synchronized based on the 24 MHz reception operation clock signal, and generates a content generation unit 240, a playback device signal processing unit 250, and a data output The data is output to the unit 260 (S7).

Here, (S5), the SPDIF input / output unit 220 receives the operation clock signal from the content output device 300 within a predetermined time after starting the operation in the output device clock operation mode due to the malfunction of the SPDIF cable 500a, etc. Is not received (NO in S5, YES in S15), the playback device control unit 270 switches the output device clock operation mode and plays back based on the reference operation clock signal generated by the playback device reference operation clock generation unit 210. A device operation clock signal is generated (S16), and the device is controlled to operate. Here, the predetermined time of S15 is, for example, about 5 seconds.

When the playback device control unit 270 cannot receive the operation clock signal from the content output device 300 within a predetermined time, the playback device operation clock signal generated based on the reference operation clock signal in the content playback device 200 is used. Since control is performed so as to operate, it is possible to prevent content data from being output from the content reproduction apparatus 200 for a long time. As a result, even if an operation clock signal transmission error occurs between the content playback device 200 and the content output device 300, the user can transfer the content data to the content output device 300 without having to make a complicated setting change. Can be heard or watched through.

In addition, when the setting is switched from the output device clock operation mode due to an operation clock signal transmission error or the like as described above, the playback device control unit 270 sets the mode on the display unit (not shown) of the content playback device 200. Is displayed and the user is notified. By this display / notification, the user can recognize that it is operating instead of the output device clock operation mode. In addition, if the SPDIF cable 500a has a disconnection or a connection failure, the user can be made aware.

The content generation unit 240 operates with the operation clock signal supplied from the playback device operation clock conversion unit 230, reads the content data from the loaded disc, or downloads the content data via the network, and plays back the playback device signal. The data is output to the processing unit 250 (S8).

The playback device signal processing unit 250 also operates with the operation clock signal supplied from the playback device operation clock conversion unit 230, performs predetermined signal processing on the content data input from the content generation unit 240, and outputs it to the data output unit 260 ( S9).

The data output unit 260 also operates with the operation clock signal supplied from the playback device operation clock conversion unit 230, converts the content data input from the playback device signal processing unit 250 into a predetermined signal format, and transmits the content via the HDMI cable 400. Data is transmitted to the content output device 300 (S10).

In the content output device 300, the data input unit 310 receives the content data output from the content reproduction device 200 (S11), converts the signal format to a predetermined format, and then outputs the signal format to the output device signal processing unit 320 ( S12). Here, each unit of the content output device 300 (the data input unit 310, the output device signal processing unit 320, and the output unit 330 in FIG. 1) operates based on the operation clock signal generated by the output device reference operation clock generation unit 340. .

The output device signal processing unit 320 performs predetermined signal processing on the content data output from the data input unit 310 and outputs it to the output unit 330 (S12). The output unit 330 performs signal processing such as amplifying the audio data or performing video encoding processing on the video data, and then outputs them to the external device as a video signal and an audio signal, respectively (S13).

As described above, the content data transmission system 100 according to the present embodiment automatically operates when the power of each of the content reproduction device 200 and the content output device 300 is turned on or when the HDMI cable 400 is connected. If it is confirmed that the output device clock operation mode is supported and both devices are compatible with this mode, it is automatically set to the output device clock operation mode and operates in that mode. . With this operation, every time the power is turned on or every time the HDMI cable 400 is connected, the user does not need to set the mode and takes time and effort. Further, since the setting is automatically performed, the user does not make a mistake in the setting. Furthermore, the content reproduction device 200 operates based on the operation clock signal of the content output device 300, and the content data reproduced by the content reproduction device 200 is operated in the output device clock operation mode in which the content output device 300 outputs both. Jitter between devices is reduced, data transmission is not adversely affected, and content data can be transmitted.

Further, the content data transmission system 100 of the present embodiment transmits a signal indicating that the content output device 300 is compatible with the output device clock operation mode, and after receiving the signal, a predetermined time (for example, If the SPDIF input / output unit 220 does not receive an operation clock signal after 5 seconds, etc., the output device clock operation mode is stopped, the signal switching unit of the reproduction device operation clock conversion unit 230 is switched, and the reproduction device A reproduction device operation clock signal is generated based on the reference operation clock signal generated by the reference operation clock generation unit 210, and the operation is performed based on the reproduction device operation clock signal. As a result, even if an output error of the operation clock signal from the content output device 300, cable disconnection, cable connection error, etc. occur, the content data cannot be reproduced and the content can be reproduced in a short time. Content data can be reproduced in the device 200.

The content data transmission system 100 according to the present embodiment has been described with respect to the configuration in which the content output device 200 and the content playback device 300 perform the mode check process in order to check whether the output device clock operation mode can be supported. In order to confirm the reliability of the clock signal input to the SPDIF input / output unit 220 without performing such mode confirmation processing, data indicating that the signal is from the content output device 300 is added to the operation clock signal. Only when the data indicating that the signal is output from the content output device 300 is superimposed on the operation clock signal that is superimposed and received on the content reproduction device 200 side, the operation may be performed in the output device clock operation mode. For example, when the SPDIF clock output unit 350 transmits an operation clock to the SPDIF input / output unit 220, the output device control unit 380 is configured to transmit a predetermined biphase signal superimposed on the operation clock signal. 350, the playback device control unit 270 determines whether or not a predetermined biphase signal is superimposed on the operation clock received by the SPDIF input / output unit 220, and the biphase signal is superimposed on the operation clock. In this case, control is performed to operate in the output device clock operation mode, and when the biphase signal is not superimposed, the signal switching unit of the reproduction device operation clock conversion unit 230 is switched, and the reproduction device reference operation clock generation unit 210 is generated. The reproduction apparatus operation clock signal may be generated based on the reference operation clock signal thus performed, and control may be performed so as to operate based on the reproduction apparatus operation clock signal. Thereby, the circuit configuration necessary for the mode confirmation process can be omitted, and the time necessary for the mode confirmation process can be shortened. Also, in the unlikely event that the HDMI cable 400 is connected to a device that is not the content output device 300, an operation clock signal transmitted from a device that is not the content output device 300 is received, and jitter may occur in the audio data to be played back. It is possible to prevent the sound quality and image quality from being deteriorated.

In the content data transmission system 100 of the present embodiment, the SPDIF clock output unit 350 transmits a 48 KHz operation clock signal to the SPDIF input / output unit 220, generates a 27 MHz operation clock signal from the 48 KHz operation clock signal, This 27 MHz operation clock signal is configured to generate a 48 MHz operation clock signal that is a 48 KHz operation clock signal and a 22 MHz operation clock signal that is a 44.1 KHz operation clock signal. It is good also as a structure which can be switched and transmitted. For example, the SPDIF clock output unit 350 is configured to transmit a 48 kHz operation clock signal and a 44.1 kHz operation clock signal, and the SPDIF input / output unit 220 operates based on the received operation clock frequency. To do. Thus, for example, when reproducing content data including video data recorded on a recording medium such as a DVD or BD, it can be switched to operate with an operation clock signal of 48 kHz, and a recording medium such as a CD When playing back content data that does not contain video data recorded on the video, it can be switched to operate with an operation clock signal of 44.1 kHz, so any one of a plurality of operation clocks can be selected depending on the content data to be played back. The operation clock can be selected and operated.

The content data transmission system 100 of the present embodiment has been described using frequency values such as 24 MHz, 13.5 MHz, 27 MHz, 48 kHz, 44.1 kHz, etc. as the frequency value of the operation clock signal. If it plays, it is good also as a transmission system using the value of other arbitrary frequencies.

The present invention can be used in a content data transmission system including a content playback device that plays back content data and a content output device that outputs the content data by performing signal processing or amplification.

100 ... Content data transmission system 200 ... Content playback device 210 ... Playback device reference operation clock generator 220 ... Digital audio interface (SPDIF) input / output unit 230 ... Playback device operation clock converter 240 ... Content generator 250 ... Reproducing device signal processor 260 ... Data output unit 270 ... Reproducing device controller 300 ... Content output device 310 ... Data input unit 320 ... Output device Signal processing unit 330 ・ ・ ・ Output unit 340 ・ ・ ・ Output device reference operation clock generation unit 350 ・ ・ ・ Digital audio interface (SPDIF) clock output unit 360 ・ ・ ・ Digital audio interface (SPDIF) audio input unit 370 ・ ・ ・Digital audio interface (SPDIF) audio output unit 380 ・ ・ ・ Output device control unit 400 ・ ・ ・ Multimedia data transmission Cable 500a, 500b, 500c ・ ・ ・ Digital audio transmission cable (SPDIF cable)

Claims (3)

1. In a content data transmission system comprising a content reproduction device that reproduces content data and a content output device that performs signal processing on the content data that is reproduced and transmitted by the content reproduction device, the content reproduction device includes a reference operation clock A playback device reference operation clock generator for generating a signal, an operation clock signal transmitted from the content output device via a digital audio interface transmission cable, and a reception operation clock signal synchronized with the operation clock signal. A digital audio interface input / output unit for inputting / outputting audio data of content data, a reference operation clock generated by the playback device reference operation clock generation unit, and the digital audio interface A playback device operation clock conversion unit that converts one of the reception operation clock signals output by the source input / output unit into a playback device operation clock signal, and operates based on the playback device operation clock signal to generate content data A content generation unit that performs signal processing on the content data generated by the content generation unit and inputs / outputs audio data of the content data to / from the digital audio interface input / output unit; A data output unit that operates based on the operation clock signal of the playback device and outputs the processed signal data to the content output device via a multimedia transmission cable; and controls the entire content playback device and the playback Playback to control device operating clock signal An output device reference operation clock generator for generating a reference operation clock signal, and the content output device based on the reference operation clock signal generated by the output device reference operation clock generator. A digital audio interface clock output unit that generates an operation clock signal to be transmitted to the playback device and transmits the operation clock signal to the content playback device via the digital audio interface transmission cable; and is transmitted from the content playback device via the digital audio interface transmission cable. A digital audio interface audio input unit for inputting an audio signal to be transmitted, and an audio signal to be transmitted to the content reproduction device via the digital audio interface transmission cable. A digital audio interface audio output unit for outputting to the audio playback device, and data to which content data transmitted from the content playback device via the multimedia transmission cable is input based on the output device reference operation clock signal. The input unit and the content data input by the data input unit or the audio data input by the digital audio interface audio input unit are subjected to signal processing, and the audio data of the content data is output to the digital audio interface output unit. A reproduction apparatus signal processing section to be performed, and an output apparatus that operates based on the reference operation clock signal generated by the output apparatus reference operation clock generation section and outputs content data or audio data to the outside. And an output device control unit that controls the entire content output device and controls the content playback device to transmit an operation clock signal synchronized with the output device reference operation clock signal from the digital audio interface clock output unit. The playback device control unit receives the output of the playback device operation clock conversion unit from the digital audio interface input / output unit when the digital audio interface input / output unit receives an operation clock signal from the content output device. The reproduction apparatus operation clock conversion unit is controlled to convert the operation clock signal into a reproduction apparatus operation clock signal, and the digital audio interface input / output unit receives an operation clock signal from the content output apparatus within a predetermined time. The reproduction apparatus operation clock conversion unit converts the reproduction apparatus operation clock signal into a reproduction apparatus operation clock signal using the reproduction apparatus reference operation clock signal generated by the reproduction apparatus reference operation clock generation unit. Content data transmission system characterized by controlling a section.
2. 2. The content data transmission system according to claim 1, wherein the digital audio interface clock output unit adds information indicating an operation clock signal to the content reproduction apparatus when transmitting the operation clock signal. The digital audio interface input / output unit identifies information indicating the operation clock signal and performs an operation clock signal reception operation.
3. A multimedia data transmission cable and an operation clock signal for transmitting content data between a content reproduction device for reproducing content data and a content output device for performing signal processing on the content data reproduced and transmitted by the content reproduction device A method of transmitting content data from a content playback device to a content output device by connecting with a digital audio interface transmission cable for transmission, and generating a playback device reference operation clock signal in the content playback device; and the content output Generating an output device reference operation clock signal in the device, and outputting the output device reference operation clock signal from the content output device to the content playback device based on the output device reference operation clock signal A step of generating a synchronized operation clock signal and adding information indicating that the operation clock signal is an operation clock signal to the content reproduction device via the digital audio interface transmission cable; and a digital audio interface transmission cable from the content output device. Identifying the information indicating that the operation clock signal has been transmitted through the content reproduction device, receiving the operation clock signal, and outputting the reproduction device reception operation clock signal synchronized with the operation clock signal; Converting to a playback device operation clock signal using any one of the playback device reference operation clock and the playback device reception operation clock signal, operating based on the playback device operation clock signal, and reproducing content data; Playback device Transmitting content data operated and reproduced based on a clock signal to a content output device via a multimedia transmission cable; and operating from the output device reference operation clock signal to the multimedia transmission cable from the content reproduction device. Content data transmitted through the content output device is input to the content output device, and the content device operates based on the output device reference operation clock signal and outputs the content data to the outside. The step of converting into a playback device operation clock signal using either the clock or the playback device reception operation clock signal is performed when the content playback device receives the operation clock signal from the content output device. Playback using signals When the content playback device does not receive the operation clock signal from the content output device within a predetermined time, the playback device reference clock signal is used as the playback device operation clock signal. A content data transmission method comprising converting the content data.

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