JPH06335095A - Acoustic reproducing device - Google Patents

Abstract

PURPOSE:To widen the width of the sound stage of a sound localized ahead of a listener without changing the arrangement of speakers. CONSTITUTION:Aural correction is performed by generating a sound pressure signal 8 and velocity signals 7 and 9 from a right channel sound signal 2 and a left channel sound signal 3 related to the outside localization of the sound localized ahead of the listener rather from the sound signals of multiple channels and passing the sound pressure signal and the velocity signals through shelf filters 10, 11 and 12. Afterwards, the sound signals to be reproduced by plural speakers are generated by a matrix circuit 13. Remaining input signals 4 and 5 in the sound signals are added to the relevant generated signals and reproduced by the five-channel speakers.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sound reproducing apparatus for reproducing sound mainly with images, and more particularly to sound field reproduction of a sound reproducing apparatus having a plurality of output channels.

[0002]

2. Description of the Related Art FIG. 8 is a speaker layout diagram of a television with a built-in speaker that reproduces, for example, a high definition television audio 3-1 system 4-channel stereo audio. Figure 9
[Fig. 4] is an external view of the television. FIG. 10 is a block diagram of a sound reproducing circuit of the television. In the figure, 1 is a 4-channel audio source such as a muse decoder (hereinafter referred to as "4 channel source"), 2 is a right channel audio signal, 3 is a left channel audio signal, 4 is a center channel audio signal, and 5 is a rear channel. An audio signal, 14 is a branching device for branching the rear channel audio signal 5 into two, and 23, 24, 25, 26, 27 are power amplifiers for amplifying the audio signals 2, 3, 4 and the output signal of the branching device 14, respectively. , 29 is a right channel speaker driven by the power amplifier 23, and 28 is a power amplifier 24.
The left channel speaker driven by the power amplifier 25, the center channel speaker driven by the power amplifier 25, 31 the rear right channel speaker driven by the power amplifier 26, 32 the rear left channel speaker driven by the power amplifier 27, 55 Is a television receiver, 56 is a listener, 57 is a cathode ray tube, and 58 is a television stand.

Next, the operation will be described. The 4-channel source 1 outputs a right channel audio signal 2, a left channel audio signal 3, a center channel audio signal 4, and a rear channel audio signal 5. Of these audio signals, the rear channel audio signal 5 is branched by the branching device 14 into two equal audio signals. An output audio signal of the branching device 14, a right channel audio signal 2, a left channel audio signal 3,
The center channel audio signal 4 is amplified by the power amplifiers 26, 27, 23, 24, 25, respectively, and is respectively supplied by the rear right channel speaker 31, the rear right channel speaker 32, the right channel speaker 29, the left channel speaker 28, and the center channel speaker 30. It is converted into voice and perceived by the listener 56.

[0004]

The conventional audiovisual reproducing apparatus is constructed as described above, and the audio signals of the left and right channels are reproduced by the speaker arranged in the immediate vicinity of the cathode ray tube as shown in FIG. Therefore, the source recorded in the studio in which the speaker arrangement angle between the right channel speaker 29 and the left channel speaker 28 is wide like the speaker arrangement at the time of mixing of the audio 3-1 system for high definition shown in FIG. 11 is reproduced. In this case, there is a problem that the sound image and the image do not match.

The present invention has been made in order to solve the above problems, and it is possible to reproduce a plurality of sound field reproduction systems which reproduce with different speaker arrangements without changing the speaker arrangements. The purpose is to obtain a playback device.

[0006]

The audiovisual reproducing apparatus according to the present invention comprises a total sound pressure signal representing a sound pressure at a listening position and a velocity signal representing a particle velocity of a sound wave from a left channel audio signal and a right channel audio signal. A means for generating a left-right direction component signal and a front-rear direction component of the speed signal; and a speed signal having a frequency higher than the predetermined frequency for a gain of the sound pressure signal and the speed signal having a frequency higher than a predetermined frequency. A filter having a frequency characteristic such that the value divided by the gain of is larger than the value obtained by dividing the gain for the sound pressure signal having a frequency lower than a predetermined frequency by the gain for the velocity signal having a frequency lower than the predetermined frequency. And means for generating a signal of five channels by linear combination of the sound pressure signal and the velocity signal that have passed through the filter, and three audio signals among the generated signals. A means for adding the center channel audio signal and the rear channel audio signal equally divided into two, and a means for amplifying the audio signals not added and the outputs from the adding means and reproducing them by five speakers. Is.

Further, the audiovisual reproducing apparatus according to the present invention uses the left and right component signals of the total sound pressure signal representing the sound pressure at the listening position and the velocity signal representing the particle velocity of the sound wave from the left channel sound signal and the right channel sound signal. Means for adjusting the sound pressure signal to generate a speed signal in the front-rear direction, and a gain for a sound pressure signal having a frequency higher than a predetermined frequency of the sound pressure signal and the speed signal from the predetermined frequency. The value divided by the gain of the speed signal of the upper frequency is larger than the value obtained by dividing the gain for the sound pressure signal of the frequency lower than the predetermined frequency by the gain of the speed signal of the frequency lower than the predetermined frequency. A filter having various frequency characteristics, a means for generating a 5-channel signal by linearly combining the sound pressure signal and the velocity signal that have passed through the filter, The means for adding three audio signals, the center channel audio signal, and the rear channel audio signal equally branched into two, and the audio signals that have not been added and the outputs from the adding means are respectively amplified and five speakers are used. It consists of a means for reproducing.

Further, the audiovisual reproducing apparatus according to the present invention uses the left channel audio signal and the right channel audio signal to generate a total sound pressure signal representing the sound pressure at the listening position and a horizontal component signal of the velocity signal representing the particle velocity of the sound wave. Means for adjusting the sound pressure signal to generate a speed signal in the front-rear direction, and a gain for a sound pressure signal having a frequency higher than a predetermined frequency of the sound pressure signal and the speed signal from the predetermined frequency. The value divided by the gain of the speed signal of the upper frequency is larger than the value obtained by dividing the gain for the sound pressure signal of the frequency lower than the predetermined frequency by the gain of the speed signal of the frequency lower than the predetermined frequency. A filter having various frequency characteristics, a means for generating a 4-channel signal by linear combination of a sound pressure signal and a velocity signal that have passed through the filter, A means for adding the rear channel audio signals branched into two equal to the two audio signals, and a center channel audio signal separated into a low-frequency signal and a high-frequency signal, and a high-frequency signal equally branched into two. The added signal to the two audio signals that have not been added to the rear channel audio signal of the linear combination generated signal,
It comprises means for amplifying the low-frequency signals of the output from each adding means and the center channel audio signal, respectively, and reproducing them by five speakers.

Further, the sound reproducing apparatus according to the present invention is
A left, right, center, and rear four-channel audio signal is generated from the channel signal, and an overall sound pressure signal representing the sound pressure at the listening position and a velocity signal representing the particle velocity of the sound wave from the left channel audio signal and the right channel audio signal. Means for generating a left-right direction component signal and a front-back direction speed signal, and a gain for a sound pressure signal having a frequency above a predetermined frequency of the sound pressure signal and the speed signal of a speed signal having a frequency above the predetermined frequency. A filter having a frequency characteristic such that a value divided by a gain is larger than a value obtained by dividing a gain for the sound pressure signal having a frequency lower than a predetermined frequency by a gain for the velocity signal having a frequency lower than the predetermined frequency. Means for generating a signal of 5 channels by linear combination of the sound pressure signal and the velocity signal which have passed through the filter, and three sounds among the generated signals. And means for adding the signal and the center channel audio signal and equal two to branched back channel audio signals, respectively, are those made of means for outputting the outputs from the audio signal and the summing means not added.

The sound reproducing device according to the present invention is 2
From the channel signal, the center channel audio signal, the rear channel audio signal, the total sound pressure signal that represents the sound pressure at the listening position of the sound other than the center channel, and the left and right component signals of the speed signal that represents the particle velocity of the sound wave and the front and rear A means for generating a speed signal in a direction, and a value obtained by dividing the gain of the sound pressure signal and the speed signal with respect to the sound pressure signal of a frequency above a predetermined frequency by the gain of the speed signal of a frequency above the predetermined frequency, A filter having a frequency characteristic such that a gain for the sound pressure signal having a frequency lower than a predetermined frequency is larger than a value divided by a gain for the velocity signal having a frequency lower than the predetermined frequency, and a sound passing through the filter. Means for generating a 5-channel signal by linear combination of the pressure signal and the velocity signal, and three audio signals among the generated signals And means for adding a center-channel audio signal and equal two to branched back channel audio signals, respectively, are those made of means for outputting the outputs from the audio signal and the summing means not added.

[0011]

In the multi-channel audiovisual reproducing apparatus according to the present invention, the left and right component signals of the sound pressure signal representing the sound pressure at the listening position and the velocity signal representing the particle velocity of the sound wave are generated from the left channel sound signal and the right channel sound signal. The value obtained by dividing the gain for the sound pressure signal by the gain of the speed signal at a frequency above the predetermined frequency for the sound pressure signal and the speed signal is the gain for the sound pressure signal at a frequency below the predetermined frequency. A filter having a frequency characteristic that is larger than the value divided by the gain for the velocity signal (hereinafter,
"Shelf filter"). This shelf filter is for reproducing sound based on human auditory characteristics. In order to perceive the arrival direction of sound, humans perceive a sound image in the direction perpendicular to the incoming wave front for low sounds, and perceive a sound image in the direction of the energy vector of the incoming sounds for high sounds. The boundary of the perceptual range is determined by the distance between both ears of a human being, and the frequency is equal to the distance between both ears at which half of the wavelength of the sound becomes a boundary, and the boundary is about 700 Hz.
Equivalent to. Therefore, the transition region of the low-pass characteristic and the high-pass characteristic of the shelf filter may be 100 to 1000 Hz.
After hearing correction is performed by passing through the shelf filter, a signal of 5 channels is generated by linear combination of these signals and reproduced by 5 speakers, so that the sound localized between the left, center, and right channel speakers is generated. The sound stage width can be reproduced wider than the speaker arrangement width.

Further, the multi-channel audiovisual reproducing apparatus according to the present invention generates a 4-channel audio signal from a 2-channel signal, and outputs a sound pressure signal indicating a sound pressure at a listening position from a left channel audio signal and a right channel audio signal. A left-right direction component signal and a front-back direction component signal of a velocity signal representing a particle velocity of a sound wave are generated, and the sound pressure signal and the velocity signal are gained with respect to the sound pressure signal at a frequency above a predetermined frequency by a gain of the velocity signal. After performing a hearing correction through a shelf filter having a frequency characteristic such that the divided value becomes larger than the value obtained by dividing the gain for the sound pressure signal having a frequency lower than a predetermined frequency by the gain for the velocity signal, these signals A signal of 5 channels is generated by linear combination of, and the generated signal is used as a center channel audio signal and a rear channel. The sound stage width of the sound localized between the left, center, and right channel speakers is reproduced by a reproduction device of 5 channels by adding and outputting the audio signals corresponding to the two equally branched signals. It is possible to generate a signal that can be reproduced narrower than the arrangement width.

Further, the multi-channel audiovisual reproducing apparatus according to the present invention has a sound pressure that represents the sound pressure of the sound originally reproduced by the center channel audio signal, the rear channel audio signal, and the two front speakers at the listening position, rather than the 2-channel signal. A signal, a left-right direction component signal and a front-back direction component signal of the velocity signal representing the particle velocity of the sound wave are generated, and the sound pressure signal and the velocity signal have a gain with respect to the sound pressure signal at a frequency higher than a predetermined frequency. The value divided by the gain is
After performing auditory correction through a shelf filter having a frequency characteristic such that the gain for the sound pressure signal having a frequency lower than a predetermined frequency is larger than the value obtained by dividing the gain for the sound pressure signal by the gain for the velocity signal, 5 is obtained by linear combination of these signals. A channel signal is generated, and the generated signal is added and output so as to correspond to a signal obtained by equally dividing the center channel audio signal and the rear channel audio signal into two signals. It is possible to generate a signal that can be reproduced with the sound stage width of the sound localized between the center and right channel speakers being narrower than the speaker arrangement width.

[0014]

EXAMPLES Example 1. First Embodiment FIG. 1 is a block diagram showing a video / audio reproducing apparatus according to a first embodiment of the present invention. In the figure, 1 is a 4-channel source, for example, an audio output circuit of a high definition muse decoder. 2 is a right channel audio signal, 3 is a left channel audio signal, 4 is a center channel audio signal, and 5 is a rear channel audio signal. 6 is a sound pressure velocity signal generator 6, 7 for generating a sound pressure signal and a velocity signal from the right channel sound signal 2 and the left channel sound signal 3, 8 is a left and right velocity signal, 8 is a sound pressure signal, and 9 is a front and rear velocity signal. Is. Reference numeral 10 is a shelf filter that auditorily corrects the lateral velocity signal 7, 11 is a shelf filter that auditorily corrects the sound pressure signal 8, 12 is a shelf filter that auditorily corrects the longitudinal velocity signal 9, and 13 is a shelf filter 10, 11, 12. Is a matrix circuit which linearly combines the output signals of the above and outputs a signal of 5 channels. Reference numerals 15, 16, 17, 18, and 19 denote a left channel reproduction signal, a right channel reproduction signal, and a center signal which are output signals of the matrix circuit 13, respectively. The channel reproduction signal, the rear right channel reproduction signal, and the rear left channel reproduction signal.

Reference numeral 14 is a branching device for equally dividing the rear channel audio signal 5 into two, 20 is an adder for adding the center channel audio signal 4 and the center channel reproduction signal 17, and 21 is an output signal of the branching device 14. 2 is an adder for adding the rear right channel reproduction signal 18, and 22 is an adder for adding another output signal of the branching device 14 and the rear left channel reproduction signal. Reference numeral 23 is a power amplifier that amplifies the left channel reproduction signal, and 28 is a left channel speaker driven by the power amplifier 23. Reference numeral 24 is a power amplifier that amplifies the right channel reproduction signal 16, and 29 is a left channel speaker driven by the power amplifier 24. 25 is an adder 20
Is a power amplifier for amplifying the output signal of, and 30 is a center channel speaker driven by the power amplifier 25. Reference numeral 26 is a power amplifier for amplifying the output signal of the adder 21, and reference numeral 31 is a rear right channel speaker driven by the power amplifier 26. 27
Is a power amplifier for amplifying the output signal of the adder 22, and 32 is a rear left channel speaker driven by the power amplifier 27.

FIG. 2 is a block diagram showing the internal structure of the sound pressure velocity signal generator 6 in the first embodiment of the present invention.
In the figure, 33 and 34 are multipliers for adjusting the amplitude of the right channel audio signal 2, 35 and 36 are multipliers for adjusting the amplitude of the left channel audio signal 3, respectively, and 37 is a right channel audio signal 2 and a left channel audio signal. An adder for adding the signal 3, 38 is the output signal of the multiplier 33 and the multiplier 3
The adder 39 that adds the output signal of 5 is an adder that adds the output signal of the multiplier 34 and the output signal of the multiplier 36. The output signals of the adders 37, 38 and 39 are output from the sound pressure / velocity signal generator 6 as a sound pressure signal 8, a front / rear direction speed formation signal 9 and a left / right direction speed signal 7, respectively.

Next, the operation will be described. The 4-channel source outputs a right channel audio signal 2, a left channel audio signal 3, a center channel audio signal 4 and a rear channel audio signal 5. Of these outputs, the right channel audio signal 2 and the left channel audio signal 3 are input to the sound pressure velocity signal generator.

The right channel audio signal 2 is branched into three in the sound pressure velocity signal generator, and the branched signals are input to the adder 37 and the multipliers 33 and 34, and the left channel audio signal 3 is also included. The signals are branched into three signals, and the respective branched signals are input to the adder 37 and the multipliers 35 and 36. The multipliers 33, 34, 35 and 36 are respectively multiplied by the coefficients depending on the arrangement angles of the right channel speaker and the left channel speaker at the time of source recording. For example,
At the time of recording with a recording source of the HDTV audio 3-1 system, the right channel speaker is arranged in the direction of 30 ° to the right when viewed from the front of the listener, and the left channel speaker is placed to the left of 30 ° when viewed from the front of the listener. Are arranged in the direction of
Therefore, the multiplication coefficients of the multipliers 33, 34, 35 and 36 are sin (30 °), -cos (30 °) and sin, respectively.
(30 °) and cos (30 °). The output signals of the multiplier 33 and the multiplier 35 are added by the adder 38 and output as a front-rear speed signal. The output signals of the multiplier 34 and the multiplier 36 are added by the adder 39 and output as a horizontal velocity signal. The right channel audio signal 2 and the left channel audio signal 3 input to the adder 37 are added and output as a sound pressure signal 8.

The left-right velocity signal 7, the sound pressure signal 8 and the front-back velocity signal 9 output from the sound pressure velocity signal generator 6 are output after being auditorily corrected by the shelf filters 10, 11 and 12, respectively. Shelf filters 10, 11, 1
The output signal 2 is input to the matrix circuit 13.

In the matrix circuit 13, the operation of the equation (1) shown in the equation 1 is performed.

[0021]

[Equation 1]

In Expression 1, L is the left channel reproduction signal 1
5, C is the center channel reproduction signal 17, R is the right channel reproduction signal 16, BL is the rear channel reproduction signal 19, BR is the rear right channel reproduction signal 18, w is the sound pressure signal 8, x is the longitudinal velocity signal 9, y is the left-right direction speed signal 7, W ₁ , W ₂ , W ₃ , W ₄ , W ₅ , X ₁ , X ₂ , X ₃ ,
X ₄ , X ₅ , Y ₁ , Y ₂ , Y ₃ , Y ₄ , and Y ₅ are matrix coefficients, respectively. Each matrix coefficient is expressed in Equation 2 and Equation 3.
It takes a value that satisfies the following equations (2) to (15).
However, Σ in the formula indicates addition from i = 1 to 5.

[0023]

[Equation 2]

[0024]

[Equation 3]

In the above equations (2) to (15), φ ₁ is the arrangement angle of the left channel speaker, φ ₂ is the arrangement angle of the center channel speaker, φ ₃ is the arrangement angle of the right channel speaker,
φ ₄ indicates the arrangement angle of the rear left channel speaker, and φ ₅ indicates the arrangement angle of the rear right channel speaker. Matrix circuit 1
3 outputs a left channel reproduction signal 15, a right channel reproduction signal 16, a center channel reproduction signal 17, a rear right channel reproduction signal 18 and a rear left channel reproduction signal 19.

The center channel reproduction signal 17 is input to the adder 20 and added to the center channel audio signal 4. The rear channel audio signal is branched into two signals by the branching device 14, and one of the branched signals is added by the adder 21.
And the other output signal of the branching device 14 is input to the adder 22 and added to the rear left channel reproduction signal 19. The left channel reproduction signal 15 is amplified by the power amplifier 23 and reproduced by the left channel speaker 28. The right channel reproduction signal 16 is amplified by the power amplifier 24 and reproduced by the right channel speaker 29. The output signal of the adder 20 is amplified by the power amplifier 25 and reproduced by the center channel speaker 30. The output signal of the adder 21 is amplified by the power amplifier 26 and reproduced by the rear right channel speaker 31. The output signal of the adder 22 is amplified by the power amplifier 27 and reproduced by the rear left channel speaker 32.

Example 2. 1 is a block diagram showing an audiovisual reproducing apparatus according to a second embodiment of the present invention, and FIG. 3 is a block diagram showing an internal configuration of a sound pressure velocity signal generator 6 according to a second embodiment of the present invention. In the figure, 40 is an adder for adding the right channel audio signal 2 and the left channel audio signal 3, 41 is a subtractor for subtracting the right channel audio signal 2 from the left channel audio signal 3, and 42 is an output signal from the adder 40. The multipliers 6 and 43 for adjusting the amplitude of are the multipliers for adjusting the amplitude of the output signal of the subtractor 41. The other parts are similar to those of the first embodiment, and the description thereof is omitted.

Next, the operation will be described. Since the second embodiment is different only in the internal configuration of the sound pressure velocity signal generator 6 in the first embodiment, only the internal configuration of the sound pressure velocity signal generator 6 will be described.

The right channel audio signal 2 is branched into two in the sound pressure velocity signal generator, and the respective branched signals are input to the adder 40 and the subtractor 41, and the left channel audio signal 3 is also 2. The two branched signals are input to the adder 40 and the subtractor 41. In the adder 40, the right channel audio signal 2 and the left channel audio signal 3 are added and output, and in the subtractor 41, the right channel audio signal 2 is subtracted from the left channel audio signal 3 and output.

The output signal from the adder 40 is branched into two, and one of the branched signals is output as the sound pressure signal 8,
The other branched signal is input to the multiplier 42.
The output signal of the subtractor 41 is input to the multiplier 43. Multipliers 42 and 43 are respectively multiplied by coefficients depending on the arrangement angles of the right channel speaker and the left channel speaker at the time of source recording. For example, high definition audio 3
When recording with the -1 system recording source, the right channel speaker is placed in the direction of 30 ° to the right when viewed from the front of the listener, and the left channel speaker is placed in the direction of 30 ° to the left when viewed from the front of the listener. Therefore, the multipliers 42 and 4 are
The multiplication factors of 3 are sin (30 °) and cos, respectively.
(30 °). The output signals of the multiplier 42 and the multiplier 43 are the front-rear direction speed signal 9 and the left-right direction speed signal 7, respectively.
Is output next.

Example 3. FIG. 4 is a block diagram showing an audiovisual reproducing apparatus according to a third embodiment of the present invention. In the figure, 6 generates a sound pressure signal and a speed signal in the left-right direction from a left channel audio signal 2 and a right channel audio signal 3. A sound pressure velocity signal generator, 44 is a multiplier. The other parts are similar to those of the first embodiment, and the description thereof is omitted.

Next, the operation will be described. The 4-channel source outputs a right channel audio signal 2, a left channel audio signal 3, a center channel audio signal 4 and a rear channel audio signal 5. Of these outputs, the right channel audio signal 2 and the left channel audio signal 3 are input to the sound pressure velocity signal generator 6. Sound pressure velocity signal generator 6
Then, only the lateral velocity signal 7 and the sound pressure signal 8 are generated based on the circuit configuration similar to that of the first embodiment. Based on the sound pressure signal 8, the multiplier 44 generates the front-rear velocity signal 9 so that the width of the sound stage of the sound reproduced by the right channel audio signal 2 and the left channel audio signal 3 becomes desired. The lateral velocity signal 7, the sound pressure signal 8 and the longitudinal velocity signal 9 are output after being auditorily corrected by the shelf filters 10, 11 and 12, respectively. Shelf filter 1
0, 11, and 12 are input to the matrix circuit 13, and the left channel speaker 28, the right channel speaker 29, the center channel speaker 30, the rear right channel speaker 31, and the rear left channel speaker 32 are used for the right channel audio signal 2 and the left channel audio signal 3. 5 signals to reproduce the sound contained in the left channel playback signal 15,
The right channel reproduction signal 16, the center channel reproduction signal 17, the rear right channel reproduction signal 18, and the rear left channel reproduction signal 19 are output. Matrix circuit 13
Are the same as those in the first embodiment, and therefore the details are omitted.

The center channel reproduction signal 17 is input to the adder 20 and added to the center channel audio signal 4. The rear channel audio signal 5 is output to 2 by the branching device 14.
One signal is branched into two signals, and one of the branched signals is the adder 2
1 and is added to the rear right channel reproduction signal 18. The other output signal of the branching device 14 is input to the adder 22 and added to the rear left channel reproduction signal 19. The left channel reproduction signal 15 is amplified by the power amplifier 23 and reproduced by the left channel speaker 28. The right channel reproduction signal 16 is amplified by the power amplifier 24 and reproduced by the right channel speaker 29. The output signal of the adder 20 is amplified by the power amplifier 25 and reproduced by the center channel speaker 30. The output signal of the adder 21 is amplified by the power amplifier 26 and reproduced by the rear right channel speaker 31. The output signal of the adder 22 is amplified by the power amplifier 27 and reproduced by the rear left channel speaker 32.

Example 4. 5 is a block diagram showing an audiovisual reproducing apparatus according to a fourth embodiment of the present invention. In the figure, 45 is a separation circuit for separating the center channel audio signal 4 into a high band and a low band, and 46 is a separation circuit 45. Is a center channel high frequency component signal, and 47 is a center channel low frequency component signal which is an output signal of the separation circuit 45. Reference numeral 48 is a branching device for branching the center channel low frequency signal into two, 49 is an adder for adding one of the output signals of the branching device 48 and the left channel reproduction signal 15, and 50 is the other output of the branching device 48 and the right. Channel playback signal 16
Is an adder that adds Example 3 for other parts
The description is omitted because it is similar to the above.

Next, the operation will be described. The 4-channel source outputs a right channel audio signal 2, a left channel audio signal 3, a center channel audio signal 4 and a rear channel audio signal 5. Of these outputs, the right channel audio signal 2 and the left channel audio signal 3 are input to the sound pressure velocity signal generator 6 and the left and right velocity signal 7 and the sound pressure signal 8 are generated. Based on the sound pressure signal 8, the multiplier 44 generates the front-rear velocity signal 9 so that the width of the sound stage of the sound reproduced by the right channel audio signal 2 and the left channel audio signal 3 becomes desired. The lateral velocity signal 7, the sound pressure signal 8 and the longitudinal velocity signal 9 are output after being auditorily corrected by the shelf filters 10, 11 and 12, respectively.

The shelf filters 10, 11 and 12 are input to the matrix circuit 13, and the left channel speaker 28,
Four signals for reproducing the sound contained in the right channel audio signal 2 and the left channel audio signal 3 by the right channel speaker 29, the rear right channel speaker 31, and the rear left channel speaker. The left channel reproduction signal 15 and the right channel reproduction signal 16, Center channel playback signal 17,
The rear right channel reproduction signal 18 and the rear left channel reproduction signal 19 are output. The internal structure of the matrix circuit 13 is the same as that of the first embodiment, and therefore its details are omitted.
The center channel audio signal 4 is input to the separation circuit 45 and separated into a center channel high frequency component signal 46 and a center channel low frequency signal 47, and the center channel low frequency signal is branched by a branching device 48 into two equal signals.

One of the branched signals is input to the adder 49 and added to the left channel reproduction signal 15, and the other output signal is input to the adder 50 and added to the right channel reproduction signal 16. The rear channel audio signal 5 is branched into two signals by the branching device 14, one of the branched signals is input to the adder 21, and the rear right channel reproduction signal 1
The other output signal of the splitter 14 that is added with 8 is input to the adder 22 and added with the rear left channel reproduction signal 19. The output signal of the adder 49 is amplified by the power amplifier 23 and reproduced by the left channel speaker 28.

The output signal of the adder 50 is the power amplifier 24.
And is reproduced by the right channel speaker 29. The center channel high frequency signal 46 is the power amplifier 2
It is amplified by 5 and reproduced by the center channel speaker 30. The output signal of the adder 21 is amplified by the power amplifier 26 and reproduced by the rear right channel speaker 31. The output signal of the adder 22 is amplified by the power amplifier 27 and reproduced by the rear left channel speaker 32.

Example 5. FIG. 6 is a block diagram showing a sound reproducing device according to a fifth embodiment of the present invention.
Reference numeral 51 is an input terminal capable of inputting a 2-channel audio signal, 52 is a 4-channel decoder for generating a 4-channel audio signal from the 2-channel audio signal input to the input terminal 51, and 53 is a power amplifier or the like. Is an output terminal for outputting a 5-channel audio signal to the audio device. The other parts are similar to those of the first embodiment, and the description thereof is omitted.

Next, the operation will be described. Input terminal 51
The 2-channel audio signal input to the 4 channel decoder 52 is input to the 4-channel decoder 52 and outputs a right channel audio signal 2, a left channel audio signal 3, a center channel audio signal 4 and a rear channel audio signal 5. Of these outputs, the right channel audio signal 2 and the left channel audio signal 3 are input to the sound pressure velocity signal generator 6, and the left and right velocity signal 7, the sound pressure signal 8 and the front and rear velocity signal 9 are generated. The lateral velocity signal 7, the sound pressure signal 8 and the longitudinal velocity signal 9 are output after being auditorily corrected by the shelf filters 10, 11 and 12, respectively. Shelf filters 10, 11,
12 is input to the matrix circuit 13 and includes a left channel speaker 28, a right channel speaker 29, a center channel speaker 30, a rear right channel speaker 31 and a rear left channel speaker 32, which include a right channel audio signal 2 and a left channel audio signal 3. Five signals for reproducing sound are output: a left channel reproduction signal 15, a right channel reproduction signal 16, a center channel reproduction signal 17, a rear right channel reproduction signal 18, and a rear left channel reproduction signal 19.

The internal structure of the matrix circuit 13 is the same as that of the first embodiment, and therefore its details are omitted. The center channel reproduction signal 17 is input to the adder 20 and added to the center channel audio signal 4. The rear channel audio signal 5 is branched into two signals by the branching device 14, one of the branched signals is input to the adder 21 and the other output signal of the branching device 14 is added to the rear right channel reproduction signal 18. It is input to the adder 22 and added to the rear left channel reproduction signal 19. Left channel playback signal 15,
The right channel audio signal 16, the output signal of the adder 20, the output signal of the adder 21, and the output signal of the adder 22 are output from the output terminal 53, respectively, and input to another sound reproducing device such as a power amplifier.

Example 6. 7 is a block diagram showing an audiovisual reproducing apparatus according to a sixth embodiment of the present invention. In the figure, 54 is a 5-channel decoder for generating 5-channel signals from 2-channel audio signals input from an input terminal 51. is there. The other parts are similar to those of the first embodiment, and the description thereof is omitted.

Next, the operation will be described. Input terminal 51
The 2-channel audio signal input to the 5 channel decoder 54 is input to the 5-channel decoder 54, and the center channel audio signal 4, the rear channel audio signal 5, the left-right speed signal 7,
The sound pressure signal 8 and the longitudinal velocity signal 9 are generated. The lateral velocity signal 7, the sound pressure signal 8 and the longitudinal velocity signal 9 are output after being auditorily corrected by the shelf filters 10, 11 and 12, respectively. The shelf filters 10, 11 and 12 are input to the matrix circuit 13 and are supplied to the left channel speaker 2
8, 5 signals for reproducing the sound contained in the right channel audio signal 2 and the left channel audio signal 3 with the right channel speaker 29, the center channel speaker 30, the rear right channel speaker 31, and the rear left channel speaker 32. 15, right channel reproduction signal 16, center channel reproduction signal 17, rear right channel reproduction signal 18, and rear left channel reproduction signal 19
Is output. The center channel reproduction signal 17 is input to the adder 20 and added to the center channel audio signal 4.

The rear channel audio signal is branched into two signals by the branching device 14, one of the branched signals is input to the adder 21 and the other output of the branching device 14 is added to the rear right channel reproduction signal 18. The signal is input to the adder 22 and added to the rear left channel reproduction signal 19.
Left channel playback signal 15, right channel audio signal 1
6, the output signal of the adder 20, the output signal of the adder 21, and the output signal of the adder 22 are output from the output terminal 53 and input to other sound reproducing devices such as a power amplifier.

[0045]

As described above, according to the present invention, the sound pressure signal and the velocity signal are generated from the sound signal related to the outside sound among the sound signals related to the sound image localization in the front of the listener, and the hearing correction is performed. Generate a signal to be played from all speakers later,
Since the sound is reproduced in addition to other audio signals, there is an effect that the width of the sound stage of the sound localized in front of the listener is widened without changing the speaker arrangement.

With respect to the audio signal encoded in the two channels, the sound pressure signal and the speed signal of the sound related to the sound image localization in the front of the listener are generated, the auditory correction is performed, and then reproduced from the plurality of speakers. Since the signal was generated and added to other audio signals, it is played back by other audio equipment so that the sound stage localized to the front of the listener can be expanded without changing the speaker arrangement. Can be generated.

[Brief description of drawings]

FIG. 1 is a block circuit diagram showing an audiovisual reproducing apparatus according to a first embodiment of the present invention.

FIG. 2 is a block circuit diagram showing a sound pressure velocity signal generator according to the first embodiment.

FIG. 3 is a block circuit diagram showing a sound pressure velocity signal generator according to a second embodiment of the present invention.

FIG. 4 is a block circuit diagram showing an audiovisual reproducing apparatus according to Embodiment 3 of the present invention.

FIG. 5 is a block circuit diagram showing an audiovisual reproducing apparatus according to a fourth embodiment of the present invention.

FIG. 6 is a block circuit diagram showing an audio reproducing device according to a fifth embodiment of the invention.

FIG. 7 is a block circuit diagram showing an audio reproducing device according to a sixth embodiment of the present invention.

FIG. 8 is a speaker layout diagram of a conventional audiovisual reproducing apparatus.

FIG. 9 is a front external view of a conventional audiovisual reproducing apparatus.

FIG. 10 is a block diagram showing a conventional audiovisual reproducing apparatus.

FIG. 11 is a speaker layout diagram during high-definition audio 3-1 system recording.

[Explanation of symbols]

 1 4 channel source 2 right channel audio signal 3 left channel audio signal 4 center channel audio signal 5 rear channel audio signal 6 sound pressure velocity signal generator 7 left and right velocity signal 8 sound pressure signal 9 front and rear velocity signal 10 shelf filter 11 shelf Filter 12 Shelf filter 13 Matrix circuit 14 Divider 15 Left channel playback signal 16 Right channel playback signal 17 Center channel playback signal 18 Rear right channel playback signal 19 Rear left channel playback signal 20 Adder 21 Adder 22 Adder 23 Power amplifier 24 Power amplifier 25 Power amplifier 26 Power amplifier 27 Power amplifier 28 Left channel speaker 29 Right channel speaker 30 Center channel speaker 31 Rear right channel speaker 32 Left channel Speaker 33 Multiplier 34 Multiplier 35 Multiplier 36 Multiplier 37 Multiplier 37 Adder 38 Adder 39 Adder 40 Adder 41 Subtractor 42 Multiplier 43 Multiplier 44 Multiplier 45 Separation circuit 46 Center channel high frequency component signal 47 center channel low-frequency component signal 48 brancher 49 adder 50 adder 51 input terminal 52 4 channel decoder 53 output terminal 54 5 channel decoder 55 television receiver 56 listener 57 cathode ray tube 58 television stand

Claims (5)

[Claims] 1. A source circuit for outputting audio signals of three or more channels, and listening of a medium for propagating a sound pressure signal and a sound wave representing a sound pressure at a listening position from at least two signals of the output audio signals of the source circuit. A means for generating a velocity signal representing the particle velocity decomposed into each direction component for a person, and a gain for the sound pressure signal having a frequency above a predetermined frequency with a gain of the velocity signal having a frequency above the predetermined frequency. Filter means having frequency characteristics such that the divided value is larger than a value obtained by dividing a gain for the sound pressure signal having a frequency lower than a predetermined frequency by a gain for the velocity signal having a frequency lower than the predetermined frequency. Means for generating a signal of four or more channels by linear combination of the output signals of the filter, and using a corresponding one of the generated signals for the signal generation. A means for adding an unused signal and an unused signal to the branched signal; an amplifier for amplifying the unadded signal and the added signal; and a speaker driven by the output of the amplifier. Characteristic sound reproduction device. 2. A source circuit for outputting audio signals of three or more channels, and listening of a medium for propagating a sound pressure signal and a sound wave representing a sound pressure at a listening position from at least two signals of the output audio signals of the source circuit. Means for generating a velocity signal representing a particle velocity decomposed into a plurality of directional components for a person, and means for simulatingly generating a velocity signal in a direction not generated by the velocity signal generating means based on the sound pressure signal. And a value obtained by dividing a gain for the sound pressure signal having a frequency higher than a predetermined frequency by a gain for the velocity signal having a frequency higher than the predetermined frequency is a gain for the sound pressure signal having a frequency lower than the predetermined frequency. A filter means having a frequency characteristic that is larger than a value divided by a gain for the speed signal having a frequency lower than the predetermined frequency; and an output signal of the filter. A means for generating a signal of four or more channels by linear combination; a means for adding the corresponding signal among the generated signals to a signal not used for the signal generation and a signal not used for the branching; An audio reproducing device comprising: an amplifier for amplifying a signal not added and an added signal; and a speaker driven by an output of the amplifier. 3. Center, left, right, rear channel 4
A source circuit for outputting a channel audio signal, a means for separating the center channel audio signal into two signals, a low frequency band and a high frequency band, a means for branching the rear channel audio signal into two signals, and the left and right signals. A means for generating a sound pressure signal representing the sound pressure at the listening position from the channel sound signal and a velocity signal representing the particle velocity decomposed into each direction component for the listener of the medium that propagates the sound wave, and a frequency signal above a predetermined frequency. A value obtained by dividing the gain for the sound pressure signal by the gain of the velocity signal having a frequency above the predetermined frequency,
Filter means having a frequency characteristic such that the gain for the sound pressure signal having a frequency lower than a predetermined frequency is larger than a value obtained by dividing the gain for the sound pressure signal having a frequency lower than the predetermined frequency by a gain, and an output signal of the filter. Means for generating left, right, rear left, and rear right four-channel audio signals by linear combination of the above, a means for branching the center channel low-frequency signal into two, and a branched center channel audio signal, respectively. A means for adding left and right channel audio signals of the linearly combined generated signals, a means for adding the rear left and rear right channel audio signals to the rear channel audio signal branched by the branching means, and the center An amplifier that amplifies the high frequency signal of the channel audio signal and the output signal of the adding means, and an amplifier that drives the output of the amplifier. Sound reproducing apparatus characterized by a speaker to be. 4. An input unit capable of inputting a two-channel audio signal, a unit for generating a plurality of signals from the audio signal input to the input unit, and a signal localized in front of a listener among the generated signals. Means for generating a sound pressure signal representing the sound pressure at the listening position and a velocity signal representing the particle velocity decomposed into each direction component for the listener of the medium that propagates the sound wave; and the sound pressure signal having a frequency above a predetermined frequency. A gain divided by the gain of the speed signal at a frequency above the predetermined frequency, the gain for the sound pressure signal at a frequency below a predetermined frequency for the speed signal at a frequency below the predetermined frequency. Filter means having a frequency characteristic that is larger than the value divided by the gain, and means for generating a signal of four or more channels by linear combination of the output signals of the filter And means for adding a predetermined signal of the generated signals to the branched signal of the signal not used for the signal generation and the signal not used for the signal generation, and outputting the unadded signal and the added signal A sound reproducing device comprising means. 5. An input means capable of inputting a two-channel audio signal, and a sound pressure signal representing a sound pressure at a listening position from the audio signal input to the input means and each direction of a medium for propagating a sound wave to a listener. Means for producing a plurality of signals including velocity signals representative of particle velocities decomposed into components;
A value obtained by dividing a gain for the sound pressure signal having a frequency higher than a predetermined frequency by a gain for the velocity signal having a frequency higher than the predetermined frequency is the predetermined gain for the sound pressure signal having a frequency lower than a predetermined frequency. Generating means for generating a signal of four or more channels by linearly combining the output signals of the filter, the filter means having a frequency characteristic that is larger than a value obtained by dividing the gain of the frequency signal at a frequency lower than the frequency A sound reproducing device comprising means for adding a predetermined signal of the added signals to signals other than the sound pressure signal and the speed signal, and means for outputting the unadded signal and the added signal.