JP2013201651A - Av amplifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a listener with more desirable sound by effectively utilizing a processor for acoustic processing incorporated in an AV amplifier.SOLUTION: A player 3 and an AV amplifier 4a, and the AV amplifier 4a and an AV amplifier 4b are connected by an HDMI cable 81. The AV amplifier 4a acquires data indicating the throughput of the AV amplifier 4b and a connection state of a speaker to the AV amplifier 4b or the like from the AV amplifier 4b, and on the basis of information indicated by the data, the throughput of the self machine, the connection state of the speaker to the self machine and the like, determines acoustic processing ZEa to be performed by the self machine and acoustic processing ZEb to be performed by the AV amplifier 4b to sound signals supplied from the player 3. The AV amplifier 4a generates control signals indicating the contents of the acoustic processing ZEb to be performed by the AV amplifier 4b and supplies them to the AV amplifier 4b according to the determination. The AV amplifier 4b performs the acoustic signals to the sound signals in parallel with the AV amplifier 4a according to the control signals supplied from the AV amplifier 4a.

Description

  The present invention relates to a technique for controlling the operation of a processor built in an amplifier of an acoustic system.

  One of the sound technologies widely adopted in sound equipment such as home theater systems is multi-channel surround technology. The multi-channel surround technology is a technology for controlling a sound image of a sound reproduced together with an image of video content using a plurality of speakers arranged around a listener.

  In recent years, the number of channels of audio content reproduced in a home theater system has been increasing. In addition to the trend of an increase in the number of channels of original sources of audio content, for example, a technology for generating and playing back 11.2 channel audio content by sound processing using 5.1 channel original sources has also appeared. Yes. When the number of channels becomes large in this way, the number of channels necessary for realizing multi-channel surround may exceed the number of channels that can be output by one existing AV amplifier.

  As a technique for solving the above problem, in Patent Document 1, in order to realize multi-channel surround with a number of channels exceeding the number of channels that can be output by one AV amplifier, a plurality of channels are provided to a plurality of AV amplifiers. A mechanism has been proposed for distributing the sound signals.

JP 2011-124925 A

  In a system that realizes multi-channel surround, the use of an intelligent AV amplifier equipped with a processor built for sound processing in the AV amplifier inserted between the content playback device and each speaker makes it more realistic A rich sound can be provided to the listener.

  When the mechanism proposed in Patent Document 1 described above is applied to these intelligent AV amplifiers, all sound processing is performed by the sound processing processor of the master AV amplifier, and the slave AV amplifier The processor for sound processing that has is not used.

  For this reason, as the number of sound signal channels increases, the processing load of the processor for acoustic processing in the AV amplifier increases, resulting in processing delay and possible acoustic processing limitations.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a more desirable sound to a listener by effectively utilizing a processor for acoustic processing incorporated in an AV amplifier.

  In order to solve the above-described problems, the present invention provides sound signal acquisition means for acquiring a sound signal indicating sound content, and signal processing for adding an acoustic effect to the sound signal acquired by the sound signal acquisition means. An own apparatus comprising: a processor that outputs to a first speaker; and a processor that acquires a sound signal indicating the sound content, performs signal processing to add an acoustic effect to the sound signal, and outputs the signal to the second speaker An AV amplifier provided with a transmission means for transmitting a control signal instructing the content of signal processing performed on the sound signal to another AV amplifier different from the above.

  The present invention also provides a sound signal acquisition means for acquiring a sound signal indicating the sound content, a signal processing for acquiring the sound signal indicating the sound content and adding a sound effect to the sound signal, and the first speaker. Receiving means for receiving a control signal instructing the content of signal processing to be performed on the sound signal acquired by the sound signal acquiring means from another AV amplifier different from the own apparatus provided with a processor that outputs to the sound signal; Provided is an AV amplifier comprising: a processor that performs signal processing for adding an acoustic effect according to the control signal received by the receiving means to the sound signal acquired by the signal acquiring means and outputs the processed signal to the second speaker. To do.

  According to these AV amplifiers, the contents of acoustic processing to be executed in the slave amplifier are instructed from the former AV amplifier functioning as a master amplifier to the latter AV amplifier functioning as a slave amplifier. A sound field according to one acoustic content is created using both of the processors included in each of the amplifiers. As a result, a more desirable sound field can be generated as compared with a case where acoustic processing is performed using only the processor of one AV amplifier.

  In the AV amplifier functioning as a master amplifier, data acquisition means for acquiring data indicating the processing capability of a processor included in the other AV amplifier, and control for generating the control signal based on the data indicating the processing capability The structure of comprising a means may be employed.

  According to such an AV amplifier, even if the processing capability of the AV amplifier functioning as a slave amplifier varies depending on the model, a desirable sharing of acoustic processing according to the processing capability of the AV amplifier can be performed.

  In the AV amplifier functioning as a master amplifier, a configuration may be employed in which the data acquisition unit acquires data indicating the processing capability from the other AV amplifier.

  The AV amplifier functioning as a slave amplifier may include a transmission unit that transmits data indicating the processing capability of the processor included in the own AV amplifier to the other AV amplifier.

  According to these AV amplifiers, the AV amplifier functioning as a master amplifier is transmitted to the AV amplifier functioning as a master amplifier from the AV amplifier functioning as a slave amplifier. There is no need to store data indicating the corresponding processing capability in advance.

It is a figure which shows the structure of the acoustic system concerning 1st Embodiment of this invention. It is a figure which shows the structure of the acoustic system concerning 2nd Embodiment of this invention. It is a figure which shows the structure of the acoustic system concerning 3rd Embodiment of this invention. It is a figure which shows the structure of the acoustic system concerning 4th Embodiment of this invention.

Embodiments of the present invention will be described below with reference to the drawings.
<First Embodiment>
FIG. 1 is a diagram showing a configuration of an acoustic system 50 according to the first embodiment of the present invention. The sound system 50 according to the present embodiment is a system that allows the viewer LSN in the living room 90 to listen to the playback sound of the video content. The acoustic system 50 is installed and used in a living room 90 together with the television 91.

  As shown in FIG. 1, the acoustic system 50 according to the present embodiment includes a front center (under the TV 91), a front left, a front right, a front diagonal left, a front diagonal right, and a rear in a living room 90. Nine main speakers, speaker 1C, speaker 1L, speaker 1R, speaker 1LSF, speaker 1RSF, speaker 1LS, speaker 1RS, speaker 1LSB, which are arranged on each of diagonal left, rear diagonal right, rear left and rear right, speakers 1RSB and a speaker system with excellent sound emission capability in a lower frequency band than these main speakers, and a 9.1-channel speaker system including a subwoofer 1SW disposed at an arbitrary location in the living room 90. Hereinafter, these speakers are collectively referred to as a speaker group 1.

In addition, the symbol attached | subjected to said each speaker means the following, respectively.
C: Center
L: Left
R: Right
LSF: Left Surround-Front
RSF: Right Surround-Front
LS: Left Surround
RS: Right Surround
LSB: Left Surround-Back
RSB: Right Surround-Back
SW: Sub-Woofer

  In addition, the acoustic system 50 provides a sound effect to the sound signal input to the remote controller 2 operated by the viewer LSN, the player 3 that reproduces AV (Audio Visual) content recorded on the recording medium 80, and each. It includes an AV amplifier 4a and an AV amplifier 4b that incorporate a DSP (Digital Signal Processor) 11 that performs an additional acoustic process and outputs it.

  Among the speakers included in the speaker group 1, the speaker 1C, the speaker 1L, the speaker 1R, the speaker 1LS, the speaker 1RS, and the subwoofer 1SW are connected to the AV amplifier 4a. On the other hand, the speaker 1LSF, the speaker 1RSF, the speaker 1LSB, and the speaker 1RSB are connected to the AV amplifier 4b. All of the sound emission surfaces of these speakers are directed to the viewer LSN. Each speaker included in the speaker group 1 emits sound into the living room 90 in accordance with a sound signal output from the connected AV amplifier.

  The remote controller 2 transmits an operation signal WS for instructing the television 91, the AV amplifier 4a, and the AV amplifier 4b to reproduce / stop AV contents, switch various reproduction modes, and the like. In the present embodiment, the playback mode means the type of effect added to video and sound in the playback of AV content. In the audio system 50, for example, a cinema mode suitable for watching a daytime movie, a nighttime movie AV content can be played back in five different playback modes: a night cinema mode suitable for viewing, a television mode suitable for television viewing, a game mode suitable for game play, and a music mode suitable for listening to music content. Shall.

  The player 3 reads a signal PCD, which is an image signal encoded according to a predetermined standard, and a signal MCD, which is a 9.1-channel sound signal encoded according to the predetermined standard, from the recording medium 80, and these signal PCD and signal The MCD is output from the HDMI output terminal 9. HDMI (registered trademark) is an abbreviation for High-Definition Multimedia Interface, which is a standard of an input / output interface for AV signals.

The AV amplifier 4a acquires the signal PCD and the signal MCD output from the player 3, supplies the signal PCD to the television 91, and decodes the signal MCD using the DSP 11a in its own device (AV amplifier 4a). .1 channel (9 channels for main speaker and 1 channel for subwoofer) Sound signal MD _C , MD _L , MD _R , MD _LSF , MD _RSF , MD _LS , MD _RS , MD _LSB , MD _RSB , MD _SW Generate.

The AV amplifier 4a adds sound effects corresponding to the playback mode selected by the user to the MD _C , MD _L , MD _R , MD _LS , MD _RS , MD _SW among the above sound signals by the DSP 11a. Processing ZEa is performed to generate sound signals MD ′ _C , MD ′ _L , MD ′ _R , MD ′ _LS , MD ′ _RS , and MD ′ _SW . The AV amplifier 4a converts these sound signals into analog sound signals by a DA (Digital to Analog) converter (not shown), and then amplifies them to the speaker level by an amplifier (not shown), and the speaker 1C, speaker 1L, speaker 1R. , Supplied to the speaker 1LS, the speaker 1RS, and the subwoofer 1SW.

The AV amplifier 4a outputs the sound signals MD _LSF , MD _RSF , MD _LSB , and MD _RSB generated by decoding to the AV amplifier 4b. When the AV amplifier 4b acquires these sound signals from the AV amplifier 4a, the sound effect corresponding to the playback mode selected by the user is applied to these sound signals using the DSP 11b in the own apparatus (AV amplifier 4b). Is applied to generate sound signals MD ′ _LSF , MD ′ _RSF , MD ′ _LSB , and MD ′ _RSB . The AV amplifier 4b converts these sound signals into analog sound signals by a DA converter (not shown), amplifies them to the speaker level by an amplifier (not shown), and supplies them to the speakers 1LSF, 1RSF, 1LSB, and 1RSB. To do.

  The acoustic processing ZEb to be performed by the AV amplifier 4b is instructed to the AV amplifier 4b by the control signal OSb supplied from the AV amplifier 4a to the AV amplifier 4b. That is, the AV amplifier 4a functions as a master amplifier that instructs the AV amplifier 4b to perform processing, and the AV amplifier 4b functions as a slave amplifier that performs processing according to the instruction from the master amplifier.

  Details of the configuration of the AV amplifiers 4a and 4b are as follows. The housing 10a of the AV amplifier 4a is provided with a video output terminal 5a, audio output terminals 6a-i (i = 1 to 8), an HDMI input terminal 7a, and an HDMI output terminal 8a. Similarly, a video output terminal 5b, audio output terminals 6b-i (i = 1 to 8), an HDMI input terminal 7b, and an HDMI output terminal 8b are provided in the housing 10b of the AV amplifier 4b.

  The video output terminal 5a of the AV amplifier 4a is connected to the television 91. Audio output terminals 6a-1, 6a-2, 6a-3, 6a-4, 6a-5, and 6a-6 of the AV amplifier 4a are respectively a speaker 1C, a speaker 1L, a speaker 1R, a speaker 1LS, a speaker 1RS, and a subwoofer 1SW. Connected with. The audio output terminals 6b-1, 6b-2, 6b-3, and 6b-4 of the AV amplifier 4b are connected to the speaker 1LSF, the speaker 1RSF, the speaker 1LSB, and the speaker 1RSB, respectively.

  The HDMI input terminal 7a of the AV amplifier 4a is connected to the HDMI output terminal 9 of the player 3 by an HDMI cable 81a. The HDMI input terminal 7b of the AV amplifier 4b is connected to the HDMI output terminal 8a of the AV amplifier 4a by an HDMI cable 81b.

As shown in the frame of FIG. 1, the HDMI cable 81a includes TMDS (Transition Minimized Differential Signaling) signal lines LN _{TMDS1 to} LN _TMDS12 (signal lines for transmitting image signals and sound signals according to TMDS), ARC (Audio Return Channel). Signal line LN _ARC (signal line that transmits signals in the opposite direction to TMDS), CEC (Consumer Electronics Control) signal line LN _CEC (signal line used to transmit commands between devices connected by HDMI cable), etc. It has a plurality of signal lines. The same applies to the HDMI cable 81b.

  A DSP 11a and a control unit 12a are accommodated in the housing 10a of the AV amplifier 4a. A DSP 11b and a control unit 12b are accommodated in the housing 10b of the AV amplifier 4b.

  The control unit 12a of the AV amplifier 4a controls the processing contents of the signal processing of the DSP 11a and controls the operation of the AV amplifier 4b through the supply of the control signal OSb. The control unit 12b of the AV amplifier 4b controls the processing contents of the signal processing of the DSP 11b according to the control signal OSb supplied from the AV amplifier 4a.

  Below, operation | movement of the acoustic system 50 provided with the above structures is demonstrated. In the following description, the player 3 is loaded with a recording medium 80 on which AV content including 9.1-channel audio content is recorded. The audio content is, for example, DTS (Digital Theater Systems) ( It shall be encoded according to (registered trademark).

  When the power is turned on, the control unit 12a of the AV amplifier 4a outputs a request signal requesting information indicating the processing capability of the AV amplifier 4b and the connection state of the speaker to the AV amplifier 4b. If the AV amplifier 4b does not return a response signal to the request signal because the power is not turned on or the like, the control unit 12a periodically outputs the request signal until the response signal is obtained.

  When the control unit 12b of the AV amplifier 4b receives the above request signal, the DSP 11b capability (processing speed, buffer capacity, processable sampling frequency, etc.), the speaker connected to the audio output terminals 6b-1 to 8b-8. A response signal indicating the presence / absence, the arrangement position of the connected speaker, and the like is generated and output to the AV amplifier 4a.

The request signal and the response signal are transmitted via the signal line LN _CEC of the HDMI cable 81b, for example.

After that, when the viewer LSN uses the remote controller 2 to instruct playback of AV content, the player 3 reads the metadata indicating the signal encoding method and the like from the recording medium 80, and sequentially reads the signal PCD and the signal MCD. the AV amplifier 4a, and outputs through a band of white space on the example signal line LN _TMDS1 ~LN _TMDS12 the HDMI cable 81a. The HDMI input terminal 7a of the AV amplifier 4a delivers metadata among those signals input from the player 3 to the control unit 12a, and sequentially delivers the signal PCD and the signal MCD to the DSP 11a. The DSP 11a decodes the signal PCD according to the instruction of the control unit 12a, and outputs the generated video signal from the video output terminal 5a. The video signal thus output is input to the television 91 and used for displaying video content.

Further, DSP11a is according to an instruction of the control section 12a, performs decoding processing ZD for signal MCD, the sound signal _{MD C, MD L, MD R} , MD LSF, MD RSF, MD LS, MD RS, MD LSB, MD RSB, MD Generate _SW . In addition, the DSP 11a delivers to the control unit 12a additional information indicating the channel configuration and the like of the audio content generated along with the sound signals by decoding.

  The control unit 12a of the AV amplifier 4a receives the metadata transmitted from the player 3 and the additional information delivered from the DSP 1a, the processing capability of the DSP 11a of the own device, the connection state of the speaker to the own device, and the AV amplifier 4b first. The distribution of processing between the AV amplifier 4a and the AV amplifier 4b is determined based on the processing capability of the AV amplifier 4b and the connection state of the speakers indicated by the received response signal. The control unit 12a generates a control signal OSb for instructing processing to the AV amplifier 4b according to the processing distribution determined as described above, and outputs the control signal OSb to the AV amplifier 4b.

DSP11a, in accordance with an instruction from the control unit 12a, among sound signal MD _C of the sound signal generated by the decoding process _{ZD, MD L, MD R,} MD LS, MD RS, with respect to MD _SW continues performs sound processing ZEA, sound Signals MD ' _C , MD' _L , MD ' _R , MD' _LS , MD ' _RS , and MD' _SW are generated. Each of the sound signals thus generated is converted into an analog signal and amplified, and then, through the audio output terminals 6a-1 to 6a-6, the speaker 1C, speaker 1L, speaker 1R, speaker 1LS, speaker 1RS, It is output to the subwoofer 1SW. As a result, sound is emitted from the speakers to the living room 90.

On the other hand, the DSP 11a follows the instructions of the control unit 12a, and the sound signals MD _LSF , MD _RSF , MD _LSB , MD _RSB among the sound signals generated by the decoding process ZD are sent from the HDMI output terminal 8a to the HDMI cable 81b. for example, output through a band of white space on the signal line LN _TMDS1 ~LN _TMDS12.

The HDMI input terminal 7b of the AV amplifier 4b delivers the sound signals MD _LSF , MD _RSF , MD _LSB , and MD _RSB input from the AV amplifier 4a to the DSP 11b. The control unit 12b instructs the DSP 11b to perform the acoustic processing ZEb according to the control signal OSb previously received from the AV amplifier 4a. Accordance with the instructions, DSP11b executes sound processing ZEb to sound signal _{MD LSF, MD RSF, MD LSB} , MD RSB, sound signal _{MD 'LSF, MD' RSF,} MD 'LSB, MD' generates the _RSB. The sound signals thus generated are converted into analog signals and amplified, and then output to the speakers 1LSF, 1RSF, 1LSB, and 1RSB via the audio output terminals 6b-1 to 6b-4. . As a result, sound is emitted from the speakers to the living room 90.

  As described above, in the audio system 50, the AV amplifier 4a and the AV amplifier 4b perform a linked operation to perform one audio content reproduction process. At this time, since the AV amplifier 4b functioning as a slave amplifier also performs sound processing on the sound signal in accordance with the instruction of the AV amplifier 4a functioning as the master amplifier, the load of sound processing is not concentrated on the DSP 11a, and the AV amplifier 4b The DSP 11b can be used effectively. As a result, for example, only the AV amplifier 4a can perform acoustic processing exceeding the processing capability, and a sound field with a richer presence can be created.

Second Embodiment
FIG. 2 is a diagram showing a configuration of an acoustic system 150 according to the second embodiment of the present invention. The acoustic system 150 is common to the acoustic system 50 in many respects. Therefore, the following description focuses on the differences between the acoustic system 150 and the acoustic system 50. Moreover, the code | symbol same as the code | symbol used in the acoustic system 50 is used for the component which the acoustic system 50 has among the structural parts with which the acoustic system 150 is provided.

  The acoustic system 50 employs a configuration in which the sound signal generated by the decoding process ZD in the DSP 11a is output as it is from the AV amplifier 4a to the AV amplifier 4b. On the other hand, in the sound system 150, a sound signal obtained by performing a part of sound processing in the DSP 11a with respect to the sound signal generated by the decoding process ZD in the DSP 11a is output from the AV amplifier 4a to the AV amplifier 4b. .

  As an example of such a configuration, the sound after mixing processing is performed in the DSP 11a to create a sound field according to the 5.1 channel signal MCD using a 9.1 channel stereo system. A case where a signal is supplied from the AV amplifier 4a to the AV amplifier 4b will be described.

In the reproduction of AV content, the DSP 11a performs a decoding process ZD on the signal MCD input from the player 3 in accordance with an instruction from the control unit 12a to perform 5.1 channel sound signals, that is, sound signals MD _C , MD _L , MD _R , MD _LS , MD _RS , MD _SW are generated. The DSP 11a subsequently performs acoustic processing ZEa on these sound signals, and as in the sound system 50, the sound signals MD ′ _C , MD ′ _L , MD ′ _R , MD ′ _LS , MD ′ _RS , MD ′ _SW Is output to the speaker 1C, the speaker 1L, the speaker 1R, the speaker 1LS, the speaker 1RS, and the subwoofer 1SW.

In parallel with the above processing, the DSP 11a performs acoustic processing ZE'a using the sound signals MD _L , MD _R , MD _LS , MD _RS to generate sound signals MD _LSF , MD _RSF , MD _LSB , MD _RSB To do. Specifically, the DSP 11a generates a sound signal MD _LSF by performing level adjustment processing and delay processing on the sound signals MD _L and MD _LS in the sound processing ZE′a and then mixing the sound signals. Similarly, DSP11a generates a sound signal MD _RSF by mixing these sound signals after the level adjustment process and delay processing to the sound signal MD _R and MD _RS. The DSP 11a performs level adjustment processing with different level ratios and delay processing with different delay times on the sound signals MD _LS and MD _RS, and then mixes the sound signals to generate the sound signals MD _LSB and MD _RSB . Generate.

The DSP 11a outputs sound signals MD _LSF , MD _RSF , MD _LSB , MD _RSB generated by the acoustic processing ZE′a to the AV amplifier 4b. DSP11b the AV amplifier 4b Upon receiving these sound signals, executes the sound processing ZEb to those of the sound signal in accordance with an instruction from the control unit 12b, the sound signal _{MD 'LSF, MD' RSF,} MD 'LSB, MD' RSB Is generated. The DSP 11b outputs the sound signal thus generated to the speaker 1LSF, the speaker 1RSF, the speaker 1LSB, and the speaker 1RSB in the same manner as in the acoustic system 50.

  As shown in the acoustic system 150 described above, in the acoustic system according to the present invention, the sound signal supplied from the master amplifier to the slave amplifier may be subjected to acoustic processing in the master amplifier.

<Third Embodiment>
FIG. 3 is a diagram showing a configuration of an acoustic system 250 according to the third embodiment of the present invention. The acoustic system 250 is in common with the acoustic system 150 in many respects. Therefore, the following description focuses on the differences between the acoustic system 250 and the acoustic system 150. Moreover, the code | symbol same as the code | symbol used in the acoustic system 150 is used for the component which the acoustic system 150 has among the structural parts with which the acoustic system 250 is provided.

  In the acoustic system 150, the signal MCD output from the player 3 to the AV amplifier 4a is supplied to the AV amplifier 4b after being subjected to decoding processing ZD and acoustic processing ZE'a in the AV amplifier 4a. On the other hand, in the acoustic system 250, the AV amplifier 4b receives the signal MCD input from the player 3 to the AV amplifier 4a as it is from the AV amplifier 4a.

  Therefore, in the audio system 250, in parallel with the decoding process ZD in the AV amplifier 4a (hereinafter referred to as “decoding process ZDa”), the AV amplifier 4b also performs the same decoding process ZD (hereinafter referred to as “decoding process ZDb”). Is called).

  More specifically, the HDMI input terminal 7a of the AV amplifier 4a hands over the signal MCD input from the player 3 to the DSP 11a and hands over a copy thereof to the HDMI output terminal 8a.

The DSP 11a that has received the signal MCD performs decoding processing ZDa and acoustic processing ZEa on the signal MCD to generate sound signals MD ′ _C , MD ′ _L , MD ′ _R , MD ′ _LS , MD ′ _RS , MD ′ _SW , They are output to speaker 1C, speaker 1L, speaker 1R, speaker 1LS, speaker 1RS, and subwoofer 1SW.

Further, the HDMI output terminal 8a of the AV amplifier 4a outputs the signal MCD delivered from the HDMI input terminal 7a to the AV amplifier 4b via the signal line LN _TMDS1 of the HDMI cable 81b, for example. When the DSP 11b of the AV amplifier 4b receives the signal MCD via the HDMI input terminal 7b, the DSP 11b sequentially executes the decoding process ZDb and the acoustic process ZEb on the signal MCD, and the sound signals MD ′ _LSF , MD ′ _RSF , MD ′ _LSB , MD ' _RSB is generated. Note that the acoustic processing ZEb may include, for example, processing similar to the acoustic processing ZE′a executed by the DSP 11a in the acoustic system 150.

  As shown in the acoustic system 250 described above, in the acoustic system according to the present invention, the sound signal supplied from the master amplifier to the slave amplifier may not be subjected to any processing in the master amplifier.

<Fourth embodiment>
FIG. 4 is a diagram showing a configuration of an acoustic system 350 according to the fourth embodiment of the present invention. The acoustic system 350 is in common with the acoustic system 250 in many respects. Therefore, the following description focuses on the differences between the acoustic system 350 and the acoustic system 250. Moreover, the same code | symbol as the code | symbol used in the acoustic system 250 is used for the component which the acoustic system 250 has among the structural parts with which the acoustic system 350 is provided.

  In the acoustic system 250, the AV amplifier 4b receives the signal MCD output from the player 3 via the AV amplifier 4a. On the other hand, in the acoustic system 350, the AV amplifier 4b is directly supplied with the signal MCD from the player 3 without passing through the AV amplifier 4a.

  Therefore, in the sound system 350, the player 3 includes an HDMI output terminal 9 'in addition to the HDMI output terminal 9, and the AV amplifier 4b includes an HDMI input terminal 7'b in addition to the HDMI input terminal 7b. The HDMI output terminal 9 'of the player 3 and the HDMI input terminal 7'b of the AV amplifier 4b are connected to each other via an HDMI cable 81c.

  In reproducing AV content, the player 3 outputs the signal PCD and the signal MCD from the HDMI output terminal 9 to the AV amplifier 4a, and outputs the signal MCD from the HDMI output terminal 9 'to the AV amplifier 4b. When receiving the signal MCD input from the player 3, the HDMI input terminal 7'b of the AV amplifier 4b delivers it to the DSP 11b.

  As described above, the AV amplifier 4 a and the AV amplifier 4 b that have received the signal MCD from the player 3 perform the same processing as in the acoustic system 250.

  Note that the timing at which the AV amplifier 4a and the AV amplifier 4b receive the signal MCD from the player 3 in the acoustic system 350 cannot be accurately known. Therefore, the AV amplifier 4a and the AV amplifier 4b exchange signals via the HDMI cable 81b in order to synchronize processing.

More specifically, the AV amplifier 4a outputs a timing signal to the AV amplifier 4b using, for example, a vacant band of the signal line LN _TMDS1 to the signal line LN _TMDS12 of the HDMI cable 81b. The AV amplifier 4b adjusts the processing timing of the DSP 11b according to the timing signal. AV amplifier 4b as a response signal to the timing signal from the AV amplifier 4a a response signal showing the timing of processing in the own device, and outputs to the AV amplifier 4a using LN _ARC e.g. HDMI cable 81b. By such synchronization processing, a shift between the sound emitted from the speaker connected to the AV amplifier 4a and the sound emitted from the speaker connected to the AV amplifier 4b is avoided.

  As shown in the acoustic system 350 described above, in the acoustic system according to the present invention, the sound signal processed by the slave amplifier may not be supplied from the master amplifier.

<Modification>
Although specific examples of the present invention have been described as the first to fourth embodiments, these embodiments can be variously modified within the scope of the technical idea of the present invention. Examples of these modifications are described below.

  In the above-described embodiment, the signal MCD output from the player 3 is a 9.1-channel or 5.1-channel sound signal. However, the sound signal channel used for reproduction in the sound system according to the present invention. The number may be any number of channels. Further, the number of channels of the speaker system used in the above-described embodiment is not limited to 9.1 channels, and speaker systems having other various channel numbers can be employed in the present invention.

Further, the types of signal lines used for inputting / outputting various signals between the player 3, the AV amplifier 4a and the AV amplifier 4b shown in the above-described embodiment are merely examples, and other signals can be used as long as a sufficient transmission speed is obtained. Different types of signal lines may be used. For example, the request signal, response signal, for input and output signals such as control signals OSb, instead of using the signal line LN _CEC of the signal line in the HDMI cable, the signal line LN _ARC and signal lines LN _TMDS1 ~ signal line LN _TMDS12 Of these, an available band may be used.

  In the above-described embodiment, the player 3, the AV amplifier 4a, and the AV amplifier 4b are connected by an HDMI cable. However, the audio signal transmission method between these acoustic devices conforms to the HDMI standard. However, the transmission method according to another standard may be adopted.

Also, the sharing of processing between the AV amplifier 4a and the AV amplifier 4b can be variously changed according to the processing capability of the AV amplifier 4a and the AV amplifier 4b, the connection state of the speakers, the acoustic effect instructed by the viewer LSN, and the like. . For example, a sound signal subjected to the sound processing in the AV amplifier 4b to the AV amplifier 4a, for example, output through the signal line LN _ARC, such as further outputs to the speaker by applying sound effects in the AV amplifier 4a, many variations Conceivable.

  In the above-described embodiment, the speaker 1C, the speaker 1L, the speaker 1R, the speaker 1LS, the speaker 1RS, and the subwoofer 1SW are connected to the AV amplifier 4a, and the AV amplifier 4a processes sound signals of channels corresponding to those speakers. Output, speaker 1LSF, speaker 1RSF, speaker 1LSB, speaker 1RSB are connected to AV amplifier 4b, and AV amplifier 4b is supposed to process and output sound signals of channels corresponding to those speakers. Is connected to the AV amplifier 4a or the AV amplifier 4b, and which sound signal is processed by the AV amplifier 4a or the AV amplifier 4b can be arbitrarily changed.

  In the embodiment described above, the case where one AV amplifier 4b is linked to the AV amplifier 4a has been described. However, a plurality of AV amplifiers 4b that function as slave amplifiers with respect to the AV amplifier 4a that functions as a master amplifier. The present invention can also be applied to the case where the coordinated operation is performed.

  In the above-described embodiment, the AV amplifier 4a employs a configuration that acquires data indicating the processing capability of the AV amplifier 4b from the AV amplifier 4b. The method by which the AV amplifier 4a acquires data indicating the processing capability of the AV amplifier 4b is not limited to this. For example, the AV amplifier 4a stores in advance data indicating the processing capabilities of various types of AV amplifiers in association with the model number, acquires the model number of the AV amplifier 4b from the AV amplifier 4b, and stores data corresponding to the model number. Data indicating the processing capability of the AV amplifier 4b may be acquired by reading.

  If the AV amplifier 4a can be connected to the Internet or the like, the AV amplifier 4a transmits the model number acquired from the AV amplifier 4b to an external server device or the like instead of storing the processing capability of various types of AV amplifiers. As a response, a configuration for acquiring data indicating the processing capability of the AV amplifier 4b may be employed.

  In the above-described embodiment, the AV amplifier 4a employs a configuration in which data indicating the connection state of the speaker to the AV amplifier 4b is also acquired from the AV amplifier 4b. The method by which the AV amplifier 4a acquires data indicating the connection state of the speaker to the AV amplifier 4b is not limited to this. For example, when the viewer LSN inputs data indicating the connection state of the speaker to the AV amplifier 4b using the remote controller 2 or the like to the AV amplifier 4a, the AV amplifier 4a may acquire the data. .

  The acoustic processing according to the five playback modes described above is an example of the acoustic processing performed in the AV amplifier 4a and the AV amplifier 4b, and any other acoustic processing is performed in the AV amplifier 4a and the AV amplifier 4b. Good. Examples of such acoustic processing include acoustic processing (music enhancer) that corrects the high and low frequencies respectively to solve the high-pitched sound extension and mid-low-thickness shortage associated with compressed sound sources, depending on the content characteristics Sound processing to correct volume (adaptive DRC), acoustic processing to clarify lines (clear voice), acoustic processing related to frequency correction such as equalizer and tone control, sampling frequency conversion processing such as oversampling, slave amplifier output possible There is a down-mixing process for reducing the number of channels when the number of channels is small.

DESCRIPTION OF SYMBOLS 1 ... Speaker, 2 ... Remote controller, 3 ... Player, 4 ... AV amplifier, 5 ... Video output terminal, 6 ... Audio output terminal, 7 ... HDMI input terminal, 8 ... HDMI output terminal, 9 ... HDMI output terminal, 10 ... Enclosure, 11 ... DSP, 12 ... control unit, 50 ... acoustic system, 80 ... recording medium, 81 ... HDMI cable, 90 ... living room, 91 ... TV, 150 ... acoustic system, 250 ... acoustic system, 350 ... acoustic system

Claims (5)

Sound signal acquisition means for acquiring a sound signal indicating acoustic content;
A processor that performs signal processing for adding a sound effect to the sound signal acquired by the sound signal acquisition means and outputs the signal to the first speaker;
For another AV amplifier having a processor that obtains a sound signal indicating the sound content, performs signal processing for adding a sound effect to the sound signal, and outputs the sound signal to the second speaker. An AV amplifier comprising: a transmission unit that transmits a control signal that instructs the content of signal processing performed on the sound signal. Data acquisition means for acquiring data indicating the processing capability of a processor included in the other AV amplifier;
The AV amplifier according to claim 1, further comprising: a control unit that generates the control signal based on data indicating the processing capability. The AV amplifier according to claim 2, wherein the data acquisition unit acquires data indicating the processing capability from the other AV amplifier. Sound signal acquisition means for acquiring a sound signal indicating acoustic content;
A sound signal indicating the sound content is acquired, subjected to signal processing for adding a sound effect to the sound signal, and output to the first speaker, from another AV amplifier different from the own apparatus including the processor. Receiving means for receiving a control signal instructing the content of signal processing to be performed on the sound signal acquired by the signal acquiring means;
An AV amplifier comprising: a processor that performs signal processing for adding an acoustic effect according to the control signal received by the receiving unit to the sound signal acquired by the sound signal acquiring unit and outputs the processed signal to the second speaker. . The AV amplifier according to claim 4, further comprising: a transmission unit configured to transmit data indicating a processing capability of the processor included in the own apparatus to the other AV amplifier.

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