JP3534572B2 - Sound field control device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sound field control device for controlling a sound field by generating an acoustic signal such as a reverberation sound in an audio device.

[0002]

2. Description of the Related Art Conventionally, in audio equipment,
A sound signal such as a reverberation sound is generated from a music signal obtained from a sound source such as a CD, and the sound signal is added to the music signal to obtain realistic reproduction. As the acoustic signal generating circuit for that purpose, the one shown in FIG. 1 is used. In FIG. 1, left and right audio signals L and R obtained from a sound source such as a CD are added by an adder 10 through amplifiers 8 and 9 having a gain g, and input to a reverberation generation unit 7. A subtractor may be used instead of the adder 10.

[0003]

In the conventional sound field control apparatus 5 shown in FIG. 1, the left and right audio signals are added or subtracted regardless of the kind of the sound source. However, there is a difference in left-right correlation between audio signals depending on the sound source. For example, when comparing a classical orchestra and vocal songs, the following phenomena occur.

In the orchestra, the musical instruments are arranged far from the microphone, and the musical instruments are arranged differently on the left and right sides, so that the left-right correlation of the audio signals is low. On the other hand, vocals are close to the microphone, and signals of the same level and phase are input to the left and right microphones.
The correlation between the left and right audio signals is high. Therefore, only the vocal is emphasized when the left and right audio signals are added, and conversely, the vocal level becomes low when the audio signals are subtracted and becomes 0 in the extreme case.

Therefore, when the sound field control apparatus shown in FIG. 1 is used, it is necessary to adjust the level to a low level in the case of addition and the level to a high level in the case of subtraction. Also, in the case of a sound source such as a vocal and an orchestra that has a mixture of highly correlated left and right sounds, it is impossible to adjust the level of only the vocal, so the reverberation effect is applied only to the vocal and it sounds unnatural. .

In view of the above problems, it is an object of the present invention to provide a sound field control device that can always generate a proper acoustic signal regardless of the type of sound source.

[0007]

In order to solve the above-mentioned problems, the present invention provides a sound field control device for processing input left and right audio signals to generate acoustic signals necessary for sound field control. Means for delaying one of the audio signals of, and means for changing the level of the delayed signal
And the level of the other signal of the left and right audio signals
Means for changing, and output signals of the signal level changing means
Means for adding or subtracting, and the left and right audio signals
Means for adding and subtracting the left and right audio signals
Means, the signal level after the addition and the signal after the subtraction
Means for comparing the level with the signal level after the addition
When the difference between the signal levels after the subtraction is larger than a predetermined value,
Is small, the delay time of the delay means and the delay time
A means for performing signal processing by changing the change amount of the bell changing means.
And .

According to this sound field control device, since one of the left and right audio signals is delayed, even if the left and right audio signals have a high correlation such as vocals, the correlation is reduced to generate an acoustic signal. It Therefore, a natural sound can be obtained without applying a sound effect to a specific sound. Further, in the present invention, in addition to the above configuration, the ratio of the left and right audio signals can be adjusted by changing the levels of the left and right audio signals and then performing addition or subtraction. In this case, it is possible to give substantially the same acoustic effect to a signal having a high correlation and a signal having a low correlation between the left and right audio signals.

Further, in the present invention, the left and right correlation degrees can be detected from the left and right audio signals, and the above sound field control can be performed according to the detection result.

[0010]

DETAILED DESCRIPTION OF THE INVENTION An embodiment of the present invention will be described with reference to the drawings. [Embodiment 1] FIG. 2 shows a first embodiment of the present invention. In FIG. 2, 1 is a CD, cassette tape, FM
Left and right audio signals L and R obtained from the sound source 1 are amplified by the amplifier 2 and output from the left and right speakers 3 and 4. 5 is a DSP (Digita
This is a sound field control device that performs digital processing using a signal processor.

In the sound field control device 5, 6 is a delay circuit for delaying the audio signal L of the left channel by a predetermined time t. 8 is a left channel audio signal L
Is an amplifier for amplifying the right channel audio signal R with a gain g, and 10 is an adder for adding the output signals of the amplifiers 8 and 9. The added signal is output to the reverberation generating unit 7.

As the reverberation generating section 7, any one can be used, and in addition to the reverberation sound generation, one that generates another acoustic signal can also be used. The reverberation sound signal generated by the reverberation generation unit 7 is added to the left and right audio signals L and R in the addition circuits 11 and 12. As a result, the sound reproduced by the speakers 3 and 4 has a high acoustic effect including the reverberation sound. The reverberation sound generated by the reverberation generating unit 7 may be reproduced from a speaker different from the speakers 3 and 4 that reproduce the audio signals L and R.

In the circuit shown in FIG. 2, as an example of setting the delay time t of the delay circuit 6 and the gains gL and gR of each amplifier, the one shown in FIG. 3 can be mentioned. FIG. 3 shows (1) to
The gains gL and gR in the example (3) are shown.
The delay time t is set to 30 ms in all examples. In the example of (1) of FIG. 3, t = 30 ms, gL = 0.
5, gR = 0,5 is set. This example
Since the amplifiers 8 and 9 have the same sign, the adder 10 outputs a signal obtained by adding the audio signals. In this example, since the left and right audio signals are added, vocals with high correlation are set higher, but since one audio signal is delayed, the left and right correlation of audio signals is reduced, and vocals etc. are reduced. It will be set slightly higher.

In the example of (2) in FIG. 3, t = 30 ms, gL
= 0.5 and gR = -0,5. In this example, since the signs of the amplifiers 8 and 9 are different, a signal obtained by subtracting each audio signal from the adder 10 is output. In this example, the left and right audio signals are subtracted, so vocals with high correlation are set to a low level, but since one audio signal is delayed, the left and right correlations of the audio signals are reduced, and vocals etc. are reduced. It will be set slightly lower.

In the example of (3) in FIG. 3, t = 30 ms, gL
= 0.75, gR = -0,25. This example is similar to the above example (2) in that left and right audio signals are subtracted, but two amplifiers 8,
Since the gain g of 9 is different, the acoustic effect can be applied to the high correlation portion and the low correlation portion at substantially the same ratio. The effect can be adjusted by adjusting the left and right gains to appropriate values.

In the circuit of FIG. 2, the delay time t of the delay circuit 6 and the gains g of the amplifiers 8 and 9 are fixed. However, if these are adjustable, 1
It is also possible to realize each function of the above examples (1) to (3) with one circuit. Further, by making the delay time t of the delay circuit 6 adjustable, a specific frequency band can be suppressed.

As described above, according to the circuit of FIG. 2, the unnaturalness of the sound effect generated by the sound field control device can be eliminated, and the effect of sound quality control can be improved. [Second Embodiment] FIG. 4 shows a second embodiment of the present invention.

In FIG. 4, reference numerals 1 to 12 are the same as those in FIG. 2 described above, and therefore, duplicated description thereof will be omitted. However, the amplifiers 8 and 9 and the delay circuit 6 are
A gain g and a delay time t that can be adjusted are used. In FIG. 4, the left and right audio signals L and R are added by the adder 23 through the amplifiers 21 and 22 having a gain of 0.5 (L + R). Also, the left and right audio signals L,
R is subtracted (addition of + and −) by the adder 33 through the amplifier 31 of gain 0.5 and the amplifier 32 of gain −0.5 (LR). Reference numeral 24 denotes a level calculation unit that calculates the level of the added audio signal L + R, and 3
Reference numeral 4 denotes a level calculation unit that calculates the level of the subtracted audio signal LR.

FIG. 5 shows an example of the circuit of the level calculators 24 and 34. In FIG. 5, the added or subtracted audio signal (L + R or LR) is the absolute value circuit 41 and the amplifier 4
It is input to the adder 43 through 2. Also, the adder 43
Is output to the adder 43 through the comb filter 44 and the amplifier 45. As a result, the level signal L (L + R) of the added audio signal and the level signal L (L-R) of the subtracted audio signal are obtained.

Returning to FIG. 4, the level signals of the level calculating units 24 and 34 are compared in the comparator 46, and the comparison result is output to the control unit 47. In the control unit 47, FIG.
The left-right correlation is determined according to the flowchart shown in FIG.
That is, two level signals L (L + R) and L (L-
R) is taken to determine if it is greater than 6 dB. If it is determined that it is greater than 6 dB, it is determined that the left-right correlation is high (for example, the sound source is vocal), and the process B described below is performed. If it is determined to be small, it is determined that the left-right correlation is low (for example, the sound source is an orchestra), and the process A described below is performed.

Here, the process A and the process B will be described with reference to FIG. FIG. 7 shows processing A and processing B for the examples of (5) to (8). Also, each process A
And the process B is to set the delay time t of the delay circuit 6 and the gains gL and gR of the amplifiers 8 and 9 as shown. In the example of (5), the delay time t of the delay circuit 6 is set to 0 and the gains gL and gR of the amplifiers 8 and 9 are set to 0.5 in the processing A, that is, when the left-right correlation is low. . Further, in the process B, that is, when the left-right correlation is high, the delay time t of the delay circuit 6 is set to 0, the gain gL of each amplifier 8 is set to 0.75, and the gain gR of the amplifier 9 is set to −.
It is set to 0.25.

In this example, when the left-right correlation is low, the process A is performed.
The sound field effect that emphasizes the sound localized in the center is obtained. When the left-right correlation is high, the process B is performed, and the sound localized in the center is unnaturally emphasized by changing the ratio of the levels of the left and right audio signals, or
It is prevented that the level is extremely lowered. The example of (6) is almost the same as (5), but at the time of processing B, that is,
When the left-right correlation is high, the delay time t of the delay circuit 6 is set to 3
It is set to 0 ms. Using this delay, (5)
Even when the correlation between the left and right is high, the effect of giving the acoustic effect to the portion having a high correlation and the portion having a low correlation can be made higher than that in the above example.

In the example (7), when the process A is performed, that is, when the left-right correlation is low, the delay time t of the delay circuit 6 is set to 0, the gain gL of the amplifier 8 is set to 0.5, and the gain g of the amplifier 9 is set.
R is set to -0.5. In the case of process B,
That is, when the left-right correlation is high, the delay time t of the delay circuit 6
Is set to 0, the gain gL of each amplifier 8 is set to 0.75, and the gain gR of the amplifier 9 is set to -0.25.

In this example, when the left-right correlation is low, the process A is performed.
The sound field effect that emphasizes the sound that is not localized in the center is obtained. When the left-right correlation is high, the process B is performed,
By changing the ratio of the levels of the left and right audio signals, it is possible to prevent the sound localized in the center from being unnaturally emphasized or from being extremely lowered in level. (8)
The example is almost the same as (7), but the delay time t of the delay circuit 6 is set to 30 ms in the process B, that is, when the left-right correlation is high. Since the delay is used, the effect of giving the acoustic effect to the high correlation portion and the low correlation portion at substantially the same ratio can be enhanced as compared with the example of (7).

[Brief description of drawings]

FIG. 1 is a diagram showing a circuit configuration of a conventional sound field control device.

FIG. 2 is a diagram showing a circuit configuration of a sound field control device according to the first embodiment of the present invention.

3 is a diagram showing an example of each set value in the circuit of FIG.

FIG. 4 is a diagram showing a circuit configuration of a sound field control device according to a second embodiment of the present invention.

5 is a diagram showing an example of a circuit of a level calculation section used in FIG.

6 is a flowchart illustrating the operation of the control unit in FIG.

7 is a diagram showing an example of each set value in the circuit of FIG.

[Explanation of symbols]

5 ... Sound field control device 6 ... Delay circuit 7 ... Reverberation unit 8, 9 ... Amplifier 10, 11, 12 ... Adder 21, 22, 31, 32 ... Amplifier 24, 34 ... Level calculation unit 41 ... Absolute value circuit 42 ... Amplifier 43 ... Adder 44 ... com filter 45 ... Amplifier 46 ... Comparator 47 ... Control unit

─────────────────────────────────────────────────── ─── Continuation of front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04S 1/00 H04S 7/00

Claims (5)

(57) [Claims] 1. A processes the input left and right audio signals, the sound field controller for generating an acoustic signal required for sound field control, and a means for delaying one signal of said left and right audio signals, this A means for changing the level of the delayed signal and a level of the other of the left and right audio signals
Means for adding and subtracting the output signal of each signal level changing means
Means for adding the left and right audio signals, means for subtracting the left and right audio signals, and a signal level after the addition and a signal level after the subtraction.
Means for comparing and a difference between the signal level after the addition and the signal level after the subtraction
Is greater than or less than a predetermined value, the delay
The delay time of the means and the change amount of the level changing means are different.
Sound field control apparatus characterized by comprising a means for performing signal processing by al. 2. The signal processing means is a signal level after addition.
And the signal level difference after subtraction is less than the specified value
Sets the delay time to 0 and sets the signal level changing means to
The gains of are added as the same level.
The delay time is set to 0, and the gain of each signal level changing means is set.
Field control according to claim 1, wherein the sound field is subtracted as different values.
apparatus. 3. The signal processing means is a signal level after addition.
If the difference between the signal level after subtraction and the signal level after subtraction is larger than the specified value
Is the sound according to claim 2, wherein the delay time is a predetermined value.
Field control device. 4. The signal processing means includes a signal level after addition.
And the signal level difference after subtraction is less than the specified value
Is the left and right audio signals with the delay time being 0.
Is subtracted at the same level.
Change the ratio of the left and right audio signals to 0
The sound field control device according to claim 1, wherein the sound field control device performs the subtraction. 5. The signal processing means is a signal level after addition.
If the difference between the signal level after subtraction and the signal level after subtraction is larger than the specified value
The sound according to claim 4, wherein the delay time is a predetermined value.
Field control device.