JPH07162384A - Television receiver and output method for audio signal thereof - Google Patents

Abstract

PURPOSE:To obtain the optimum output form of an audio signal even if a user does not select an audio mode in a television receiver, especially in a high image quality television receiver. CONSTITUTION:A matrix circuit 11 is controlled so that CPU 101 discriminates the number of channels which a main audio signal in the channels CH1-CH4 of a pre-selection audio signal 8 occupies in accordance with an audio mode signal included in a bit stream signal 9 when only the main audio signal or the main audio signal and an auxiliary audio signal or an independent audio signal distribute and output the pre-selection audio signals 8 into the speakers 2, 3, 4, 5 and 6 of the plural channels in accordance with plural audio modes, an audio output system for reading information stored in a memory 103 in accordance with the discriminated number of the channels and outputting the audio signal is selected and main audio output is distributed to the selected audio output system.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a television receiver, and more particularly to an HDTV (High definition television) which is a kind of high definition television.
on TV), more specifically, it relates to a method of allocating the audio signal input of the plurality of channels and an output to the audio output systems of the plurality of channels, and particularly, the audio signal output system of 3 channels or more and 5 channels or less. The present invention relates to a television receiver.

[0002]

2. Description of the Related Art FIG. 12 is a plan view schematically showing an arrangement position of each speaker in a five-speaker system of a conventional high quality television receiver. In FIG. 12, reference numeral 1 indicates a high-definition television as an example of a high-definition television receiver, and the lower side in the figure is the front side on which an image is displayed. Note that the reference symbol P indicates an ideal viewing position of the user.

Reference numeral 2 is a left speaker (hereinafter referred to as an L speaker), which is arranged on the left side of the HDTV receiver 1 and reproduces an audio signal output from the HDTV receiver 1. Reference numeral 3 is a speaker on the right side (hereinafter, referred to as an R speaker), which is arranged on the right side of the HDTV receiver 1 and is disposed on the right side of the HDTV receiver 1.
The audio signal output from is reproduced.

Reference numeral 4 is a central speaker (hereinafter referred to as a C speaker), which is arranged above or below the HDTV receiver 1 and reproduces an audio signal output from the HDTV receiver 1. Reference numeral 5 is a speaker on the left rear side (hereinafter, referred to as an L _R speaker), which is arranged on the left side of the high-definition receiver 1 behind the listening position P and outputs an audio signal output from the high-definition receiver 1. Reproduce. Reference numeral 6 is a speaker on the right rear side (hereinafter referred to as an R _R speaker), which is arranged on the right side of the high-definition receiver 1 behind the listening position P and outputs an audio signal output from the high-definition receiver 1. Reproduce.

Next, regarding the operation of the conventional high-definition receiver, the block diagram of FIG. 15 showing an example of the configuration of the audio signal processing circuit of the 5 speaker system by taking the MUSE system already put into practical use in Japan as an example is shown. It will be described with reference to FIG.
In FIG. 15, reference numeral 7 is MUSE (Multiple Sub-Nyquist Sampling Encoding), which is one of the high-definition systems.
A decoder is shown, and radio waves received by an antenna (not shown) are selected by a tuner and input. Then, the MUSE decoder 7 decodes the audio signal transmitted from a station such as a broadcasting satellite and outputs the pre-selection audio signal 8 (CH1, CH2, CH3, CH4) of 4 channels (hereinafter referred to as CH).
Is output.

Reference numeral 9 indicates a bit stream signal output from the MUSE decoder 7. The bit stream signal 9 includes a signal obtained by DPCM-encoding the audio signal and performing bi-phase modulation, and an audio mode identification signal indicating the mode of the audio signal. However, in the configuration of FIG. 15, what is required is that the audio mode of the pre-selection audio signal 8 is stereo 1
This is a voice mode identification signal indicating whether the system is one of a system, a monaural 2 system, a 4CH stereo (3-1 system), or the like.

Reference numeral 10 is a system microcomputer, which mainly comprises a CPU 101, an input device (keyboard, operation panel, etc.) 102, and a memory 103. The input device 102 allows the user to operate the input device 102 to perform channel selection, volume adjustment, etc. as in a general television set, and to set a speaker mode of 5 speaker mode or 2 speaker mode. Here, the 5-speaker mode is a mode in which the five speakers 2, 3, 4, 5, 6 shown in FIG. 12 described above are used as necessary, and the 2-speaker mode is the L speaker 2 And the mode in which only the R speaker 3 is used.

Further, the CPU 101 outputs from the MUSE decoder 7 according to the audio mode identification signal in the bit stream signal 9 given from the MUSE decoder 7 and the information indicating the speaker mode set by the user operating the input device 102. The memory 10 stores the distribution of the pre-selection audio signal 8 to the speakers 2, 3, 4, 5, 6 by the matrix circuit 11.
Determine according to the sorting information stored in advance in 3,
The control signal CS is output to the matrix circuit 11.

The matrix circuit 11 receives the control signal CS output from the CPU 101 of the system microcomputer 10, converts the pre-selection audio signal 8 into a post-selection audio signal 12 and outputs it according to the control signal CS. The selected audio signal 12 output from the matrix circuit 11 is amplified by the speaker amplifier 13 and output to each speaker 2, 3, 4, 5, 6.

Speakers 2, 3, 4 by the matrix circuit 11 of the pre-selection audio signal 8 from the MUSE decoder 7 described above.
An example of distribution into 5 and 6 is shown in the tables of FIGS. 13 and 14 described above.

FIG. 13 is a table showing the output when the user selects the 5-speaker mode in the 5-speaker system of the conventional HDTV receiver 1 as described above.
Specifically, the audio signal includes one stereo system, one monaural system, two monaural systems, one stereo system + one monaural system, three channel stereo, three channel stereo + one monaural system, two stereo systems, four channel stereo (3- 1 system), 4-channel stereo (2-2 system)
The outputs from the speakers 2, 3, 4, 5 and 6 in each case are shown. One of the two monaural systems, one stereo system + one monaural system of the one monaural system
System, 3 channel stereo + 1 monaural system out of 1 monaural system, and 1 system out of 2 stereo systems are sub-audio.

FIG. 14 is a list showing the output when the user selects the 2-speaker mode in the 5-speaker system of the conventional high-definition receiver as described above. Specifically, similarly to the list of FIG. 13, the audio signals are stereo 1 system, monaural 1 system, monaural 2 system, stereo 1 system.
System + 1 monaural system, 3 channel stereo, 3 channel stereo + 1 monaural system, 2 stereo system, 4
The outputs from the above-mentioned speakers 2, 3, 4, 5, 6 in the case of channel stereo (3-1 system) and 4-channel stereo (2-2 system) are shown.

In addition to the examples shown in the tables of FIGS. 13 and 14, the user operates the input device 102 to distribute the signals to the speakers 2, 3, 4, 5, and 6. It can be arbitrarily selected, and it is of course possible to output only the main voice or only the sub voice.

Next, an example of the output of the audio signal of the 5-speaker system of the conventional high-definition receiver shown in the list of FIG. 13 in the 5-speaker mode will be specifically described. In the case of a stereo 1-system signal, the L speaker 2 outputs the stereo left main sound (L), and the R speaker 3 outputs the stereo right main sound (R).

In the case of a monaural 1-system signal, both the L speaker 2 and the R speaker 3 output a monaural main sound (main).

In the case of a monaural dual system signal, the L speaker 2
Output a monaural main sound (main) from the R speaker 3 and output a monaural sub sound (sub).

In the case of a stereo 1 system + monaural 1 system signal, the left main sound (L) of the stereo from the L speaker 2
However, the main sound (R) on the right side of the stereo from the R speaker 3
However, monaural sub-audio (sub) is output from the center speaker 4.

In the case of a 3CH stereo signal, the main speaker (L) on the left side of the stereo from the L speaker 2, the main sound (R) on the right side of the stereo from the R speaker 3, and the main voice (C) at the center of the stereo from the center speaker 4 (C). ) Is output respectively.

In the case of 3CH stereo + monaural 1 system signal, the left main stereo sound (L) from the L speaker 2
However, the main sound (R) on the right side of the stereo from the R speaker 3
However, the center speaker 4 outputs the main sound (C) at the center of the stereo, and the L _R speaker 5 and the R _R speaker 6 both output a monaural sub sound (sub).

When there are two stereo signals, the L speaker 2
From the stereo left main sound (main L) + stereo left sub sound (sub L), from the R speaker 3 right stereo main sound (main R) + stereo right sub sound (sub R) It is output respectively.

At the time of 4CH stereo (3-1 system) signal,
From the L speaker 2, the main sound (L) on the left side of the stereo is R
The main sound (R) on the right side of the stereo from the speaker 3 and the main sound (C) on the center of the stereo from the center speaker 4 are L.
_R speaker 5, R together surround sound from _R speaker 6 (S) are output.

At the time of 4CH stereo (2-2 system type) signal,
Main sound (L _F ) on the left front side of the stereo from the L speaker 2
However, the main sound on the right front side of the stereo from the R speaker 3
(R _F ) outputs the left rear main voice (L _B ) and the right rear main voice (R _B ) from the L _R speaker 5 and the R _R speaker 6, respectively.

Next, an example of output in the two-speaker mode of the five-speaker system of the conventional high-definition receiver shown in the list of FIG. 14 will be specifically described.

In the case of a stereo 1-system signal, the L speaker 2
To the left main sound of the stereo, and the R speaker 3 outputs the right main sound of the stereo.

In the case of a monaural 1-system signal, both the L speaker 2 and the R speaker 3 output a monaural main sound.

In the case of a monaural dual system signal, the L speaker 2
To monaural main voice, and the R speaker 3 outputs monaural sub-voice.

In the case of a stereo 1 system + monaural 1 system signal, the L speaker 2 outputs the stereo left main audio + monaural sub-audio, and the R speaker 3 outputs the stereo right main audio + monaural sub audio. .

In the case of a 3CH stereo signal, the L speaker 2 outputs the stereo left main voice + the stereo center main voice, and the R speaker 3 outputs the stereo right main voice + the stereo center main voice.

In the case of 3CH stereo + monaural 1 system signal, the left speaker of the stereo + the main sound of the stereo + the main audio of the stereo + the monaural sub-audio from the L speaker 2 are the R speaker 3.
Outputs the main sound on the right side of the stereo + the main sound in the center of the stereo + the monaural sub sound.

In the case of a stereo two-system signal, the L speaker 2
From the stereo left main voice + stereo left sub-voice, and the R speaker 3 outputs the stereo right main voice + stereo right sub-voice.

At the time of 4CH stereo (3-1 system) signal,
The L speaker 2 outputs the stereo left main voice + the stereo center main voice + surround sound, and the R speaker 3 outputs the stereo right main voice + the stereo center main voice + surround sound.

At the time of 4CH stereo (2-2 system) signal,
The L speaker 2 outputs the stereo main sound on the left front side, and the R speaker 3 outputs the stereo main sound on the front right side.

In FIG. 15, it is assumed that the pre-selection audio signal 8 output from the MUSE decoder 7 is a DPCM-decoded digital audio signal, and the matrix circuit 11 has a digital matrix circuit 15 as shown in FIG. And a D / A converter 16 for converting its output into an audio signal 12 after analog selection.

[0034]

Since the conventional high-definition television receiver is constructed as described above, when receiving the multiplex audio broadcast, the user operates the operation panel or the like by himself to select the audio mode. Must be selected. For this reason,
If the user does not select the voice mode,
Primary voice (eg Japanese) and secondary voice (eg foreign language)
There was a problem that and were simultaneously output from each speaker.

The present invention has been made in view of the above circumstances. For example, when outputting a sound signal of a high-definition television receiver such as a MUSE system, the system is used even when the user does not select the sound mode by himself / herself. Determines the audio mode of the input audio signal, determines the number of channels that the main audio occupies among the multiple channels of the input audio signal, and forcibly distributes the main audio output to the audio output system in the optimum form. It is an object of the present invention to provide a television receiver and an audio signal output method thereof.

[0036]

According to the present invention, basically, only a main audio signal or a main audio signal and a sub audio signal or an independent audio signal are input in a plurality of channels in accordance with a plurality of audio modes. In the audio signal output method of a television receiver that distributes and outputs the input audio signal to the audio output systems of multiple channels, the number of channels occupied by the main audio signal of the channels of the input audio signal is determined according to the audio mode signal. The audio output system for outputting an audio signal is selected according to the determined number of channels, and the main audio output is distributed to the selected audio output system.

Further, according to the present invention, the main audio signal alone or the input audio signal in which the main audio signal and the sub audio signal or the independent audio signal are input in a plurality of channels is output in a plurality of channels according to each of a plurality of audio modes. In a television receiver provided with a matrix circuit that distributes and outputs to a system and a control circuit that controls the operation of the matrix circuit according to an audio mode signal that indicates an audio mode, the control circuit, for each audio mode, Based on the number of channels occupied by the main audio signal, the audio output system for outputting the audio signal stores the predetermined information, and the main audio signal of the input audio signals according to the input audio mode signal. Controls the matrix circuit so that it is distributed to the audio output system determined by the information stored in the storage means. Characterized in that a that the control unit.

Further, according to the present invention, according to each of the plurality of audio modes, only the main audio signal or the input audio signal in which the main audio signal and the sub audio signal are input in 4 channels or less is used.
In a television receiver including a matrix circuit for distributing and outputting to an audio output system of more than 5 channels and less than 5 channels, and a control circuit for controlling the operation of the matrix circuit according to an audio mode signal indicating an audio mode,
The control circuit, for each audio mode, distributes the main audio signal of the input audio signals to the audio output system defined by the information stored in the storage means based on the number of channels occupied by the main audio signal. Thus, a control means for controlling the matrix circuit is provided.

Still further, according to the present invention, only the main audio signal or the input audio signal in which the main audio signal and the sub audio signal are input in 4 channels or less is provided in 3 channels or more and 5 channels or less according to each of a plurality of audio modes. In a television receiver provided with a matrix circuit that distributes and outputs to an audio output system and a control circuit that controls the operation of the matrix circuit according to an audio mode signal that indicates an audio mode, in the television receiver, the control circuit is If the number of channels occupied by the main audio signal is 1 or 2, the main audio signal should be distributed to 2 of the audio output systems, to 3 for 3 and to 4 or 5 for 4. According to the input voice mode signal, the storage means for storing the determined information, and the main voice signal among the input voice signals is stored in the storage means. Characterized by comprising a control means for controlling the matrix circuit to distribute the audio output system that is defined by the information are.

Still further, according to the present invention, only the main audio signal or the input audio signal in which the main audio signal and the sub audio signal are input in 4 channels or less is selected from 3 channels or more and 5 channels or less according to each of a plurality of audio modes. In a television receiver provided with a matrix circuit that distributes and outputs to an audio output system and a control circuit that controls the operation of the matrix circuit according to an audio mode signal that indicates an audio mode, in the television receiver, the control circuit is When the number of channels occupied by the main audio signal is 1, 2 or 3, the predetermined information is stored so that the main audio signal is distributed to 3 of the audio output systems and to 4 or 5 if the number of channels is 4. According to the storage means and the input voice mode signal, the main voice signal of the input voice signal is stored by the information stored in the storage means. Characterized by comprising a control means for controlling the matrix circuit to distribute the audio output system are fit.

Still further, according to the present invention, only the main audio signal or the input audio signal in which the main audio signal and the sub audio signal are input in 4 channels or less is selected in accordance with each of a plurality of audio modes. In a television receiver provided with a matrix circuit that distributes and outputs to an audio output system and a control circuit that controls the operation of the matrix circuit according to an audio mode signal that indicates an audio mode, in the television receiver, the control circuit is When the number of channels occupied by the main audio signal is 1 or 2, 2 of the audio output systems include the main audio signal in 3 of 3 or 4, and the input audio signal includes the sub audio signal. A memory that stores predetermined information so that the sub audio signals are distributed to the systems in which the main audio signal is not distributed in the audio output system. And a control means for controlling the matrix circuit so as to distribute the main audio signal of the input audio signals to the audio output system defined by the information stored in the storage means according to the input audio mode signal. It is characterized by having.

Still further, according to the present invention, only the main audio signal or the input audio signal, in which the main audio signal and the independent audio signal are input in 4 channels or less, in accordance with each of a plurality of audio modes, is input from 3 channels to 5 channels. In a television receiver provided with a matrix circuit that distributes and outputs to an audio output system and a control circuit that controls the operation of the matrix circuit according to an audio mode signal that indicates an audio mode, in the television receiver, the control circuit is When the number of channels occupied by the main audio signal is one or two, two of the audio output systems include the main audio signal in three systems, and when three or four, the independent audio signal is included in the input audio signal. Stores predetermined information to distribute the independent audio signals to the system in which the main audio signal of the audio output system is not distributed. Storage means, and control means for controlling the matrix circuit so as to distribute the main audio signal of the input audio signals to an audio output system defined by the information stored in the storage means according to the input audio mode signal. It is characterized by having.

Further, the television receiver of the present invention is characterized in that the audio output system is a speaker, an external speaker terminal or an external audio output terminal.

Further, the television receiver of the present invention is characterized in that the matrix circuit is a digital matrix circuit or an analog matrix circuit.

Further, the television receiver of the present invention is characterized in that the matrix circuit is a digital matrix circuit for processing a bit stream signal.

[0046]

In the method of outputting the audio signal of the television receiver according to the present invention, the number of channels occupied by the main audio signal of the channels of the input audio signal is determined according to the audio mode signal, and the determined number of channels is determined according to the determined number of channels. The audio output system for outputting the audio signal is selected, the main audio output is distributed to the selected audio output system, and even if the input audio signal includes the sub audio signal or the independent audio signal, it is not output.

Further, in the television receiver of the present invention, the main audio signal of the input audio signals input in a plurality of channels is determined by the information stored in the storage means according to the input audio mode signal. The matrix circuit is controlled so as to be distributed to the audio output system, and even if the input audio signal includes the sub audio signal or the independent audio signal, it is not output.

Further, in the television receiver of the present invention, the main audio signal of the input audio signals input in four channels or less is determined by the information stored in the storage means according to the input audio mode signal. The matrix circuit is controlled so that it is distributed to the existing audio output system, and even if the input audio signal includes the sub audio signal or the independent audio signal, it is not output.

Further, in the television receiver of the present invention, when the number of channels occupied by the main audio signal of the input audio signals of 4 channels or less is 1 or 2 according to the input audio mode signal, the audio is audio. The matrix circuit is controlled so as to distribute the main audio signal to two of the output systems, to three systems in the case of 3, and to four or five systems in the case of 4, and a sub audio signal or an auxiliary audio signal to the input audio signal. No output even if an independent audio signal is included.

Furthermore, the television receiver of the present invention comprises:
According to the input audio mode signal, if the number of channels occupied by the main audio signal of the input audio signals of 4 channels or less is 1, 2 or 3, it is 3 in the audio output system and 4 , The matrix circuit is controlled to distribute the main audio signal to 4 or 5 systems respectively,
Even if the input audio signal includes the sub audio signal or the independent audio signal, it is not output.

Further, in the television receiver of the present invention, when the number of channels occupied by the main audio signal of the input audio signals of 4 channels or less is 1 or 2 according to the input audio mode signal, the audio is audio. A system in which the main audio signal is not distributed to two of the output systems and the main audio signal is distributed to three systems in the case of 3 or 4 and the sub audio signal is included in the audio output system when the input audio signal includes a sub audio signal. The matrix circuit is controlled so that the sub-audio signals are distributed to the respective sub-audio signals.

Furthermore, the television receiver of the present invention comprises:
According to the input audio mode signal, if the number of channels occupied by the main audio signal of the input audio signals of 4 channels or less is 1 or 2, 2 of the audio output systems
When the system is 3 or 4, the main audio signal is supplied to the 3 systems, and when the input audio signal includes the independent audio signal, the independent audio signal is distributed to the system in which the main audio signal in the audio output system is not distributed. The matrix circuit is controlled so as to be distributed.

Further, in the television receiver of the present invention, the audio signal is output from the speaker, the external speaker terminal or the external audio output terminal.

Further, in the television receiver of the present invention, when the input audio signal is a digital signal, it is processed by the digital matrix circuit, and when the input audio signal is an analog signal, it is processed by the analog matrix circuit.

Further, in the television receiver of the present invention, when the input audio signal is a bit stream signal, it is processed by a digital matrix circuit which processes the bit stream signal.

[0056]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the drawings showing the embodiments thereof. In the following description, it has already been put to practical use in Japan as a high-definition television system.
An application example for a high-definition receiver, which is a MUSE-type HDTV, will be described.
It goes without saying that it is also applicable to the conventional television system.

[Embodiment 1] FIG. 1 is a list showing an example of an output form of an audio signal of a 5-speaker system by a high-definition television receiver as a television receiver of the present invention. The high-definition television receiver, which is the television receiver of the present invention, also employs a 5-speaker system, and the positions of the speakers are the same as those in the schematic plan view of FIG. In FIG. 1, the point different from the above-described tables of FIGS. 13 and 14 is that the sub-audio is not output, specifically, as follows.

In the case of a monaural two-system signal, one of the two systems is a sub-audio, so that the L-speaker 2 and the R-speaker 3 output a monaural main audio, but not the sub-audio.

At the time of a signal of stereo 1 system + monaural 1 system, the monaural 1 system among them is the sub-audio, so that the main audio on the left side of the stereo from the L speaker 2 is the R speaker 3.
Outputs the main sound on the right side of the stereo, and the center speaker 4 does not output the sub sound.

In the case of a 3CH stereo + monaural 1-system signal, the monaural 1-system among them is the sub-audio, so the main audio on the left side of the stereo from the L speaker 2 is the R-speaker 3.
From the stereo right main sound, the center speaker 4 outputs the stereo central main sound, and the L _R speaker 5 and the R _R speaker 6 output sub-audio. No sub-audio is output from 3.

In the case of a stereo 2 system signal, the stereo 1 system among them is the sub-audio, so that the L speaker 2 outputs the stereo left main audio and the R speaker 3 outputs the stereo right main audio. Voice is L speaker 2
And the R speaker 3 does not superimpose and output.

The structure of the audio signal processing circuit of the high-definition receiver as the television receiver of the present invention is shown in FIG. 2. The five speakers of the conventional MUSE-type high-definition receiver shown in FIG. It is basically the same as the system block diagram. This will be specifically described below.

In FIG. 2, reference numeral 7 is a MUSE (Multiple Sub-Nyquist) which is one of the high-definition television systems.
Sampling Encoding) decoder is shown in which radio waves received by an antenna (not shown) are selected by a tuner and input. Then, the MUSE decoder 7 decodes the audio signal transmitted from a station such as a broadcasting satellite to decode the pre-selection audio signal 8 (CH1, CH) of 4 channels (hereinafter referred to as CH).
2, CH3, CH4) are output.

Reference numeral 9 indicates a bit stream signal output from the MUSE decoder 7. The bit stream signal 9 includes a signal obtained by DPCM-encoding the audio signal and performing bi-phase modulation, and an audio mode identification signal indicating the mode of the audio signal. However, in the configuration of FIG. 2, what is required is that the audio mode of the pre-selection audio signal 8 is stereo 1
This is a voice mode identification signal indicating whether the system is one of a system, a monaural 2 system, a 4CH stereo (3-1 system), or the like.

Reference numeral 10 is a system microcomputer, which mainly comprises a CPU 101, an input device (keyboard, operation panel, etc.) 102, and a memory 103. The input device 102 allows the user to operate the input device 102 to perform channel selection, volume adjustment, etc. as in a general television set, and to set a speaker mode of 5 speaker mode or 2 speaker mode. Here, the 5-speaker mode is a mode in which the five speakers 2, 3, 4, 5, 6 shown in FIG. 12 described above are used as necessary, and the 2-speaker mode is the L speaker 2 And the mode in which only the R speaker 3 is used.

The CPU 101 outputs from the MUSE decoder 7 according to the audio mode identification signal in the bit stream signal 9 provided from the MUSE decoder 7 and the information indicating the speaker mode set by the user operating the input device 102. The memory 10 stores the distribution of the pre-selection audio signal 8 to the speakers 2, 3, 4, 5, 6 by the matrix circuit 11.
Determine according to the sorting information stored in advance in 3,
The control signal CS is output to the matrix circuit 11.

The matrix circuit 11 receives the control signal CS output from the CPU 101 of the system microcomputer 10, converts the pre-selection audio signal 8 into the post-selection audio signal 12 and outputs it according to the control signal CS. The selected audio signal 12 output from the matrix circuit 11 is amplified by the speaker amplifier 13 and output to each speaker 2, 3, 4, 5, 6.

In the case of a stereo 1-system signal, the L speaker 2
Since it is optimal to output the main sound on the left side of the stereo from R to the main sound on the right side of the stereo from the R speaker 3, such distribution information is stored in the memory 103 of the system microcomputer 10. CPU 101
The control signal CS instructing so by the matrix circuit
Output to 11.

The above-mentioned configuration is the conventional MU shown in FIG.
This is the same as the configuration of the audio signal processing circuit of the SE high-definition television receiver. However, in the high-definition television receiver as the television receiver of the present invention, the external audio output terminals 21, 31, 41, 51, which output the signals of the respective channels of the selected audio signal 12 output from the matrix circuit 11 to the outside, 31, 31, 41, 51,
61 is provided, and further external speaker terminals 22, 32, 42, 52, 62 for outputting the signals of the respective channels after being amplified by the speaker amplifier 13 are provided.

By connecting the external audio output terminals 21, 31, 41, 51, 61 to the amplifier of the audio system, it is possible to reproduce the audio signal by the dedicated audio system, and the external speaker terminals 22, 32, 42. , 52, 62 can be connected to speakers different from the speakers 2, 3, 4, 5, 6 respectively, for example, speakers installed in other rooms.

Next, the contents of the table of FIG. 1, in other words, the features of the audio signal output method of the high-definition television receiver as the television receiver of the present invention will be specifically described.

When a monaural 1-system signal is output, it is optimal that both the L speaker 2 and the R speaker 3 output a monaural main voice.
Such distribution information is stored in the memory 103, and the control signal CS instructing so is output to the matrix circuit 11 by the CPU 101.

In the case of a monaural dual system signal, both the L speaker 2 and the R speaker 3 output a monaural main voice,
Since it is optimal not to output the sub voice, such distribution information is stored in the memory 103 of the system microcomputer 10, and the control signal CS instructing so is output to the matrix circuit 11 by the CPU 101. .

In the case of a stereo 1 system + monaural 1 system signal, it is optimal that the L speaker 2 outputs the stereo left main sound and the R speaker 3 outputs the stereo right main sound, and does not output the sub sound. Therefore, such distribution information is stored in the memory 103 of the system microcomputer 10, and the control signal CS instructing so is output to the matrix circuit 11 by the CPU 101.

In the case of a 3CH stereo signal, it is optimal that the L speaker 2 outputs the left main stereo sound, the R speaker 3 outputs the right main stereo sound, and the center speaker 4 outputs the main stereo sound. Because there is
Such distribution information is stored in the memory 103 of the system microcomputer 10, and the control signal CS instructing to do so is output to the matrix circuit 11 by the CPU 101.

In the case of 3CH stereo + monaural 1-system signal, the L speaker 2 outputs the stereo left main audio, the R speaker 3 outputs the stereo right main audio, and the center speaker 4 outputs the stereo central main audio. Since it is optimal not to output the sub-audio, such distribution information is stored in the memory 103 of the system microcomputer 10, and the control signal CS for instructing so is output to the matrix circuit 11 by the CPU 101. To be done.

In the case of a stereo two-system signal, the L speaker 2
It is optimal to output the main sound on the left side of the stereo from the R speaker 3 and the main sound on the right side of the stereo from the R speaker 3 and not to output the sub sound. Therefore, such distribution information is stored in the memory 103 of the system microcomputer 10. Is stored and the CPU 101 instructs the control signal to do so.
CS is output to the matrix circuit 11.

At the time of 4CH stereo (3-1 system) signal,
The L speaker 2 outputs the stereo left main sound, the R speaker 3 outputs the stereo right main sound, and the center speaker 4
To the main sound in the center of the stereo from the L _R speaker 5, R _R
Since it is optimal to output the surround sound signals from the speakers 6 together, such distribution information is stored in the memory 103 of the system microcomputer 10, and the control signal instructed by the CPU 101 to do so.
CS is output to the matrix circuit 11.

At the time of 4CH stereo (2-2 system) signal,
Stereo left main sound from L speaker 2 is stereo front right sound, R speaker 3 is stereo front right main sound, _LR speaker 5 is stereo left main sound, _RR speaker 6 is stereo right rear. Since it is optimal to output the main voice of each side, such distribution information is stored in the memory 103 of the system microcomputer 10,
The control signal CS instructing so is output to the matrix circuit 11 by the CPU 101.

FIG. 1 as described above by the matrix circuit 11.
The selection of each output form shown in the list of FIG.
State 1 to state 5 are selected by the system microcomputer 10 executing the program of the control procedure as shown in the flowchart in FIG. That is, bit 2 of the audio mode control signal included in the bit stream signal 9
~ CPU 101 according to the voice mode control signal code of bit 6
Discriminates the states 1 to 5, and the audio signals are distributed to the speakers 2, 3, 4, 5 and 6 as shown in FIG. 4 which are stored in the memory 103 in advance in accordance with the discrimination result. The CPU 101 selects the information and outputs the corresponding control signal CS to the matrix circuit 11.

In FIG. 2, the pre-selection audio signal 8 is DP
It is assumed that the audio signal is a CM-decoded digital audio signal, and the matrix circuit 11 is composed of a digital matrix circuit 15 and a D / A converter 16 for converting its output into an audio signal 12 after analog selection. It is also possible that the user operates the input device 102 to output the sub voice, or to select a voice output state other than those shown in the list of FIG.

[Embodiment 2] In Embodiment 1, as shown in the table of FIG. 1, the main audio signal output from the center speaker 4 is a 3CH stereo signal, a 3CH stereo + monaural 1-system signal. Sometimes, 4CH stereo (3-1 method)
Only the main voice (C) at the center of the signal is used. However, as shown in the table of FIG. 5, the audio signal output from the center speaker 4 is L + R output for stereo 1-system signal, main audio output for monaural 1-system signal, and main audio output for monaural 2-system signal. In addition, when the stereo 1 system + monaural 1 system signal is output to the L + R output, and when the stereo 2 system signal is used, the L + R main audio output is used.
(2 systems), the signal may be fixed to the L _F + R _F audio signal.

[Third Embodiment] In the first embodiment, as shown in the table of FIG. 1, the outputs from the L _R speaker 5 and the R _R speaker 6 at the time of 4CH stereo (2-2 system) signals are respectively obtained. They are designated as L _B and R _B. However, as shown in the table of FIG. 6, both outputs from the L _R speaker 5 and the R _R speaker 6 may be fixed to L _B + R _B.

[Embodiment 4] In Embodiment 1, as shown in the table of FIG. 1, when the 4CH stereo (2-2 system) signal is output, the center speaker 4 does not output and the L _R speakers 5 and R are used. The outputs from the _R speaker 6 are L _B and R _B , respectively.
I have to. However, as shown in the table of FIG. 7, the output from the center speaker 4 is set to L _F + R _F and L _R
The outputs from the speaker 5 _{and the} R _R speaker 6 may be respectively set to L _B + R _B.

[Embodiment 5] In Embodiment 1, as shown in the table of FIG. 1, when the number of channels occupied by the main audio in the pre-selection audio signal 8 is 3 or less (Table of FIG. 1) From 1 stereo system to 3CH stereo)
The output without from _R speaker 5, R _R speaker 6, 4CH
Stereo S output during (3-1 system) signals, respectively during 4CH stereo (2-2 system) signal L _B, are as R _B output. However, as shown in the list of FIG. 8, the outputs from the L _R speaker 5 and the R _R speaker 6 output the sub audio when there is a sub audio broadcast, and the center speaker 4 outputs the 4CH stereo (3- C + S output for 1-system signal, and L _B + R _{B for} 4-CH stereo (2-2 system) signal
It may be output.

[Sixth Embodiment] In the first embodiment, as shown in the table of FIG. 1, when the number of channels occupied by the main audio in the pre-selection audio signal 8 is 3 or less, the L _R speaker 5, the output without from R _R speaker 6, the time 4CH stereo (3-1 system) signal to the S output, respectively during 4CH stereo (2-2 system) signal L _B, are as R _B output. However, as shown in the table of FIG.
The output from the _R speaker 5 and the R _R speaker 6 outputs the independent audio signal when there is an independent audio broadcast, and the output from the center speaker 4 is the C + S output for the 4CH stereo (3-1) signal and the 4CH stereo. In the case of (2-2 system) signal, L _B + R _B output may be used.

[Embodiment 7] In the embodiment 1, the embodiment 2, the embodiment 3, the embodiment 4, the embodiment 5 and the embodiment 6, the audio output system is the speakers 2, 3, 4, 5 and 6. However, it goes without saying that the external speaker terminals 22, 32, 42, 52, 62 shown in FIG. 2 may be used as the audio output system.

[Embodiment 8] In the embodiment 1, the embodiment 2, the embodiment 3, the embodiment 4, the embodiment 5 and the embodiment 6, the audio output system is each speaker 2, 3, 4, 5, 6. However, it goes without saying that the external audio output terminals 21, 31, 41, 51, 61 shown in FIG. 2 may be used as the audio output system.

[Ninth Embodiment] In the first embodiment, the second embodiment, the third embodiment, the fourth embodiment, the fifth embodiment and the sixth embodiment, as shown in FIG. The decoded digital audio signal is used, and the matrix circuit 11 converts the digital matrix circuit 15 and its digital output into an analog selected audio signal 12 D / A converter 16
It consists of. However, as shown in the schematic diagram of FIG. 10, the analog pre-selection audio signal from the MUSE decoder 7
80 may be output, and the matrix circuit 11 may be configured by an analog matrix circuit 110.

[Embodiment 10] In Embodiment 1, Embodiment 2, Embodiment 3, Embodiment 4, Embodiment 5 and Embodiment 6, the output of the MUSE decoder 7 is selected as shown in FIG. The pre-audio signal 8 is used as the pre-selection audio signal 8 as a DPCM-decoded digital audio signal, and the matrix circuit 11 is a D / A converter for converting the digital matrix circuit 15 and its digital output into the analog post-selection audio signal 12. 16
It consists of. However, as shown in Figure 11, the MU
It is also possible to output only the bit stream signal 9 from the SE decoder 7. This is because the bitstream signal 9 includes the signal obtained by DPCM encoding the audio signal and biphase-modulating the audio signal and the audio mode identification signal indicating the mode of the audio signal, as described above. Bi-phase demodulation is performed by the phase demodulator 17 and decoded by the DPCM decoder 18 to obtain the pre-selection audio signal 8 of 4 channels, and the digital matrix circuit 15 and
The selected audio signal 12 may be obtained by the matrix circuit 11 configured by the D / A converter 16 as shown in FIG.

[0091]

According to the audio signal output method of the television receiver of the present invention, the number of channels occupied by the main audio signal among the channels of the input audio signal is determined according to the audio mode signal, and the determination is made. An audio output system that outputs an audio signal is selected according to the number of channels, and the main audio output is distributed and output to the selected audio output system. Therefore, even if the input voice signal includes the sub voice signal or the independent voice signal, the voice signal is not output. Therefore, the optimum output state of the voice signal can be obtained without any particular operation by the user.

Further, in the television receiver of the present invention, the main audio signal of the input audio signals input in a plurality of channels is determined by the information stored in the storage means according to the input audio mode signal. The matrix circuit is controlled so as to distribute to the audio output system. Therefore, even if the input voice signal includes the sub voice signal or the independent voice signal, the voice signal is not output. Therefore, the optimum output state of the voice signal can be obtained without any particular operation by the user.

Further, in the television receiver of the present invention, the main audio signal of the input audio signals input in 4 channels or less is determined by the information stored in the storage means according to the input audio mode signal. The matrix circuit is controlled so as to distribute the audio output system. Therefore, even if the input voice signal includes the sub voice signal or the independent voice signal, the voice signal is not output. Therefore, the optimum output state of the voice signal can be obtained without any particular operation by the user.

Furthermore, in the television receiver of the present invention, when the number of channels occupied by the main audio signal of the input audio signals of 4 channels or less is 1 or 2 according to the input audio mode signal, the audio is audio. The matrix circuit is controlled so that the main audio signal is distributed to two of the output systems, three in the case of 3, and 4 or 5 in the case of 4. Therefore, even if the input voice signal includes the sub voice signal or the independent voice signal, the voice signal is not output. Therefore, the optimum output state of the voice signal can be obtained without any particular operation by the user.

Furthermore, the television receiver of the present invention comprises:
According to the input audio mode signal, if the number of channels occupied by the main audio signal of the input audio signals of 4 channels or less is 1, 2 or 3, it is 3 in the audio output system and 4 The matrix circuit is controlled so that the main audio signal is distributed to each of 4 or 5 channels. Therefore, even if the input voice signal includes the sub voice signal or the independent voice signal, the voice signal is not output. Therefore, the optimum output state of the voice signal can be obtained without any particular operation by the user.

Furthermore, in the television receiver of the present invention, when the number of channels occupied by the main audio signal in the input audio signals of 4 channels or less is 1 or 2 in accordance with the input audio mode signal, the audio is audio. A system in which the main audio signal is not distributed to two of the output systems and the main audio signal is distributed to three systems in the case of 3 or 4 and the sub audio signal is included in the audio output system when the input audio signal includes a sub audio signal. The matrix circuit is controlled so that the sub-audio signals are distributed to the respective sub-audio signals. Therefore, it is possible to obtain optimum output states of the main and sub voice signals without the user performing any particular operation.

Further, in the television receiver of the present invention, when the number of channels occupied by the main audio signal of the input audio signals of 4 channels or less is 1 or 2 according to the input audio mode signal. The main audio signal is not distributed to two of the audio output systems in the case of 3 or 4 and the main audio signal of the audio output system is not distributed to the three systems if the input audio signal includes an independent audio signal. The matrix circuit is controlled so as to distribute the independent audio signals to the respective systems. Therefore, it is possible to obtain optimum output states of the main and sub voice signals without the user performing any particular operation.

Further, in the television receiver of the present invention, it becomes possible to output the audio signal from the speaker, the external speaker terminal or the external audio output terminal.

Further, in the television receiver of the present invention, when the input audio signal is a digital signal, it can be processed by a digital matrix circuit, and when the input audio signal is an analog signal, it can be processed by an analog matrix circuit. Therefore, it is possible to flexibly correspond to the actual device configuration.

Furthermore, in the television receiver of the present invention, when the input audio signal is a bit stream signal, it can be constructed so that it can be processed by a digital matrix circuit for processing the bit stream signal. Can be flexibly adapted to the device configuration.

[Brief description of drawings]

FIG. 1 is a table showing an example of an output form of an audio signal of a 5-speaker system according to a first embodiment of a television receiver of the present invention.

FIG. 2 is a block diagram showing a configuration of an audio signal processing circuit of the television receiver of the present invention.

FIG. 3 is a flowchart showing a processing procedure by the system microcomputer of the television receiver of the present invention.

FIG. 4 is a schematic diagram showing stored contents of a memory of a system microcomputer of the television receiver of the present invention.

FIG. 5 is a table showing an example of an output form of audio signals of a five-speaker system according to a second embodiment of the television receiver of the present invention.

FIG. 6 is a table showing an example of an output form of an audio signal of a 5-speaker system according to a third embodiment of a television receiver of the present invention.

FIG. 7 is a list showing an example of output forms of audio signals of a 5-speaker system according to a fourth embodiment of the television receiver of the present invention.

FIG. 8 is a list showing an example of an output form of an audio signal of a 5-speaker system according to a fifth embodiment of a television receiver of the present invention.

FIG. 9 is a table showing an example of an output form of audio signals of a 5-speaker system according to a sixth embodiment of a television receiver of the present invention.

FIG. 10 is a block diagram showing another embodiment of the configuration of the audio signal processing circuit of the television receiver of the present invention.

FIG. 11 is a block diagram showing still another embodiment of the configuration of the audio signal processing circuit of the television receiver of the present invention.

FIG. 12 is a plan view schematically showing an arrangement position of each speaker of the five-speaker system of the television receiver of the related art and the present invention.

FIG. 13 is a list showing an example of an output form of an audio signal in a 5-speaker mode of a 5-speaker system using a conventional television receiver.

FIG. 14 is a list showing an example of an output form of an audio signal in a 2-speaker mode of a 5-speaker system using a conventional television receiver.

FIG. 15 is a block diagram showing a configuration example of an audio signal processing circuit of a conventional television receiver.

FIG. 16 is a block diagram showing a configuration example of a matrix circuit of a conventional and a television receiver of the present invention.

[Explanation of symbols]

2 L speaker 3 R speaker 4 C speaker 5 L _R speaker 6 R _R speaker 7 MUSE decoder 8 Audio signal before selection 9 Bit stream signal 10 System microcomputer 11 Matrix circuit 12 Audio signal after selection 14 Speaker 15 Digital matrix circuit 17 Bi-phase Demodulator 21, 31, 41, 51, 61 External audio output terminal 22, 32, 42, 52, 62 External speaker terminal 101 CPU 103 Memory 110 (analog) matrix circuit

Claims (13)

[Claims] 1. An input audio signal in which only a main audio signal or a main audio signal and a sub audio signal or an independent audio signal are input in a plurality of channels is distributed to a plurality of audio output systems according to each of a plurality of audio modes. In a television receiver provided with a matrix circuit for outputting as an output and a control circuit for controlling the operation of the matrix circuit according to an audio mode signal indicating an audio mode, Based on the number of channels occupied by the audio signal, a storage means for storing a predetermined audio output system for outputting the audio signal, and a main audio signal of the input audio signals according to the input audio mode signal. The matrix times are distributed so as to distribute to the audio output system defined by the information stored in the storage means. A television receiver comprising: a control unit that controls a path. 2. A main audio signal only, or an input audio signal in which a main audio signal and a sub-audio signal or an independent audio signal are input in 4 channels or less according to each of a plurality of audio modes, the input audio signal is 3 channels or more and 5 channels or less. In a television receiver provided with a matrix circuit for distributing and outputting to an audio output system, and a control circuit for controlling the operation of the matrix circuit according to an audio mode signal for instructing an audio mode, the control circuit is provided for each audio mode. On the other hand, according to the input audio mode signal, the storage means for storing information in which the audio output system for outputting the audio signal is predetermined based on the number of channels occupied by the main audio signal, Of the main audio signal of the device to the audio output system defined by the information stored in the storage means. And a control means for controlling the matrix circuit. 3. A main audio signal only, or an input audio signal in which a main audio signal and a sub audio signal are input in 4 channels or less, according to each of a plurality of audio modes, is output to an audio output system of 3 channels or more and 5 channels or less. In a television receiver provided with a matrix circuit for distributing and outputting, and a control circuit for controlling the operation of the matrix circuit according to an audio mode signal for instructing an audio mode, wherein the control circuit is a main component of the input audio signal. If the number of channels occupied by the audio signal is 1 or 2, the main audio signal should be distributed to 2 of the audio output systems, 3 to 3 and 4 or 5 to 4, respectively. A storage means for storing the determined information, and a main audio signal of the input audio signals in the storage means according to the input audio mode signal. A television receiver comprising: control means for controlling the matrix circuit so that the matrix output is distributed to an audio output system determined by stored information. 4. A main audio signal only, or an input audio signal in which a main audio signal and a sub audio signal are input in 4 channels or less, according to each of a plurality of audio modes, is output to an audio output system of 3 channels or more and 5 channels or less. In a television receiver provided with a matrix circuit for distributing and outputting, and a control circuit for controlling the operation of the matrix circuit according to an audio mode signal for instructing an audio mode, wherein the control circuit is a main component of the input audio signal. If the number of channels occupied by audio signals is 1, 2, or 3, then 3 of the audio output systems are used.
In the case of 4, the storage means for storing the predetermined information so as to distribute the main audio signal to the 4 or 5 systems respectively, and the main audio signal of the input audio signals according to the input audio mode signal And a control unit for controlling the matrix circuit so as to distribute the audio output system defined by the information stored in the storage unit. 5. A main audio signal only, or an input audio signal in which a main audio signal and a sub audio signal are input in 4 channels or less, depending on each of a plurality of audio modes, is output to an audio output system of 3 channels or more and 5 channels or less. In a television receiver provided with a matrix circuit for distributing and outputting, and a control circuit for controlling the operation of the matrix circuit according to an audio mode signal for instructing an audio mode, wherein the control circuit is a main component of the input audio signal. When the number of channels occupied by the audio signal is 1 or 2, the main audio signal is included in two of the audio output systems, and when the number of channels is 3 or 4, the main audio signal is included in the three audio output systems, and the input audio signal includes the sub audio signal. Stores predetermined information so that the sub-audio signals are distributed to the systems in which the main audio signal is not distributed among the audio output systems. Controlling the matrix circuit so as to distribute the main audio signal of the input audio signals to the audio output system defined by the information stored in the memory means in accordance with the input audio mode signal. And a control means for controlling the television receiver. 6. An input audio signal, in which only a main audio signal or a main audio signal and an independent audio signal are input in 4 channels or less, is input to an audio output system of 3 channels or more and 5 channels or less according to each of a plurality of audio modes. In a television receiver provided with a matrix circuit for distributing and outputting, and a control circuit for controlling the operation of the matrix circuit according to an audio mode signal for instructing an audio mode, wherein the control circuit is a main component of the input audio signal. In the case where the number of channels occupied by the audio signal is 1 or 2, the main audio signal is included in 2 of the audio output systems, and in the case of 3 or 4, the main audio signal is included in the 3 audio systems, and the independent audio signal is included in the input audio signal. Is information predetermined so as to distribute the independent audio signals to the systems to which the main audio signal of the audio output system is not distributed. A storage means for storing the matrix circuit so as to distribute the main audio signal of the input audio signals to an audio output system defined by the information stored in the storage means in accordance with the input audio mode signal. A television receiver comprising: a control unit that controls the television receiver. 7. The television receiver according to claim 2, 3, 4, 5, or 6, wherein the audio output system is a speaker. 8. The television receiver according to claim 2, 3, 4, 5, or 6, wherein the audio output system is an external speaker terminal. 9. The television receiver according to claim 2, 3, 4, 5, or 6, wherein the audio output system is an external audio output terminal. 10. The matrix circuit is a digital matrix circuit, wherein the matrix circuit is a digital matrix circuit.
Television receivers according to 5, 6, 7, 8 and 9. 11. The matrix circuit is an analog matrix circuit as claimed in claim 1.
Television receivers according to 5, 6, 7, 8 and 9. 12. The matrix circuit is a digital matrix circuit for processing bit stream signals, 1, 2, 3, 4, 5, 6, 7, 8 and 9.
Television receiver described in. 13. A voice mode signal for indicating a voice mode of a main voice signal only or an input voice signal in which a main voice signal and a sub voice signal or an independent voice signal are input in a plurality of channels according to each of a plurality of voice modes. According to the method of outputting an audio signal of a television receiver which distributes and outputs to a plurality of audio output systems according to An audio signal output method for a television receiver, characterized in that an audio output system for outputting an audio signal is selected according to the determined number of channels, and a main audio output is distributed to the selected audio output system.