JPS6159004B2 - - Google Patents

Description

[Detailed Description of the Invention] When audio is played back, the quality of the reproduced sound is determined by various factors, but among them, the frequency characteristics have the greatest influence.If the frequency characteristics change, the quality of the reproduced sound will greatly change. Change. As for amplifiers, it is relatively easy to make the frequency characteristics desired, for example, flat characteristics, but it is difficult to make the frequency characteristics of speakers and the listening room, which is the reproduction sound field, flat characteristics. In particular, the listening room cannot be replaced, so this must be compensated for in some way.

Conventionally, therefore, a correction device called a graphic equalizer is used, in other words, the audio signal is divided into multiple frequency bands, and the level is increased or decreased for each band to obtain the desired frequency characteristics. .

However, with the correction using this graphic equalizer, it is not known how to make adjustments to make the reproduced sound have the desired frequency characteristics, and as a result, the reproduced sound may not necessarily have the desired frequency characteristics.

SUMMARY OF THE INVENTION In view of these points, it is an object of the present invention to provide an acoustic characteristic correction device that can adjust the frequency characteristics of reproduced sound to desired characteristics.

Therefore, in the present invention, the adjustment signal is reproduced from a speaker, the frequency components of this reproduced sound are compared with a data signal having data of the desired frequency characteristics, and the frequency characteristics of the audio signal system are determined by the comparison signal. By changing the frequency characteristics, a reproduced sound having a desired frequency characteristic can be obtained, and this can be displayed on a display device.

An example of this will be explained below.

In Fig. 1, 1 is an audio signal source such as a tuner, record player, or tape deck, 2 is a preamplifier, 3 is a main amplifier, and 4 is a speaker. These devices 1 to 4 are devices currently used for audio reproduction. . Also, 5M, 5
N is a switch that can be switched during adjustment and during use, and in the figure, it is switched to contact T during adjustment.

Furthermore, 7A to 7J indicate bandpass filters that divide the frequency band of the audio signal, and these filters have pass characteristics 7a to 7J as shown in FIG.
7j, i.e. in the audio band,
Centered on 1kHz, the passing center frequency is a frequency in a geometric progression of 1/2 or 2, intersects the adjacent characteristic curve at a -3 dB point, and has a relatively steep passing characteristic. It is.

Further, 11 is a signal source that generates an adjustment signal for frequency characteristic adjustment, such as a pink noise signal, and 12 is a microphone, which is placed at the listening position in the listening room during adjustment. Furthermore, 18 indicates a frequency characteristic setting circuit that generates a data signal, and when this setting circuit 18 is set to the frequency characteristic of the desired reproduced sound, the data of the data signal from this circuit changes in accordance with the setting value. . Note that in this example, this data signal is a digital signal.

And during normal use, switch 5M, 5N
Connect to contact U in the opposite direction as shown. Therefore, the audio signal from source 1 is passed through preamplifier 2, switch 5M, buffer amplifier 6, and filter 7.
A to 7J, and the passage characteristics 7a to 7 in FIG.
j, and the band-divided audio signals are supplied to the adder circuit 9 through the variable gain amplifiers 8A to 8J, where they are added together to form the original audio signal, and this audio signal is The signal is supplied to the speaker 4 through the switch 5N and the main amplifier 3, and audio reproduction is performed.

When the frequency characteristics of the reproduced sound are set to the desired characteristics, the setting circuit 18 is set to the desired frequency characteristic of the reproduced sound, and the switches 5M,
Connect 5N to contact T as shown. Then, a pink noise signal for adjustment is sent from the adjustment signal source 11 to the speaker 4 through the switch 5N and the amplifier 3.
and the pink noise sound is reproduced from the speaker 4.

However, in this case, depending on the frequency characteristics of the speaker 4 and the acoustic characteristics of the listening room, the pink noise sound reproduced from the speaker 4 usually does not have the frequency characteristics as pink noise.

The pink noise sound reproduced from the speaker 4 is collected by the microphone 12 installed at the listening position, and the collected pink noise signal is passed through the microphone amplifier 13, the switch 5M, and the amplifier 6 to the filters 7A to 7J. This band-divided pink noise signal is supplied to rectifier circuits 14A-14J through amplifiers 8A-8J, and is converted into a DC signal for each band at a level corresponding to the level of that band. , this DC signal is transmitted to the variable gain amplifier 15A.
~15J, and a band-divided signal (second
A DC signal obtained by rectifying the signal (corresponding to characteristic 7f in the figure) is extracted, and this DC signal
is supplied as a control signal for its gain. In this way, the DC signals from the rectifier circuits 14A to 14J are standardized in the amplifiers 15A to 15J based on the level of the DC signal from the rectifier circuit 14F.

This standardized DC signal is then supplied to the A-D conversion circuits 16A to 16J to be converted into a digital signal, and this digital signal is converted to a digital signal by the comparison circuits 17A to 16J.
17J, and a data signal indicating the desired frequency characteristic is supplied from the setting circuit 18 to the comparison circuit 1.
7A to 17J. Thus comparison circuit 1
In 7A to 17J, A-D conversion circuits 16A to 17J
The digital signal from 16J is compared with the data signal from setting circuit 18, and the comparison signal is extracted. This comparison signal is then supplied to signal sources 19A to 19J of gain control signals to extract a gain control signal, and this gain control signal is supplied to variable gain amplifiers 8A to 8J to control their gains.

Here, the signal sources 19A to 19J work to eliminate the comparison signals of the comparison circuits 17A to 17J. That is, when the gain control signals from the signal sources 19A to 19J change, the amplifiers 8A to 8J change accordingly. The gain changes, and the conversion circuit 16A~
The digital signal from 16J changes, but this digital signal changes and matches the data signal from setting circuit 18, which causes comparison circuits 17A to 17 to change.
When the comparison signal from J disappears, the level of the gain control signal at that time is maintained until the reset switch 22 is operated.

Therefore, in this state, if switches 5M and 5N are connected to contact U in the opposite direction to the diagram, then amplifier 8
Gains of A to 8J are obtained by using the band-divided pink noise signal (digital signal) and setting circuit 1.
8, the frequency characteristics of the reproduced sound from the speaker 4 are the characteristics corresponding to the data signal, that is, the desired frequency characteristics.

At this time, the gain control signals of the signal sources 19A to 19J indicate the amount of correction of the frequency characteristics of the reproduced sound, so this gain control signal is supplied to the display device 21 and the amount of correction is displayed, for example, in a graph. be done.

Thus, according to the present invention, the frequency characteristics of the reproduced sound can be set to desired characteristics, and this can be done automatically. Furthermore, since the adjustment is performed simultaneously for the entire audio band, the adjustment can be made in an extremely short time.

Furthermore, by setting the gain of the audio signal path from the amplifier 6 to the adder circuit 9 to 0 dB, the adapter can be connected between the preamplifier 2 and the main amplifier 3.

Furthermore, this device is effective as a howling prevention device in PA systems and the like. In other words, since howling generally occurs at the frequency with the highest response in the frequency characteristics, the microphone 12, amplifiers 13, 3, and speakers 4 of the PA system are used, and the data signal from the setting circuit 18 is flattened. It is only necessary to adapt the frequency characteristics to the desired frequency characteristics.

In the example of FIG. 1, the gain control of the amplifiers 8A to 8J is closed loop, but in the example of FIG. 3, it is open loop. That is, band-divided pink noise signals from filters 7A to 7J are supplied to rectifier circuits 14A to 14J, and comparison signals from comparison circuits 17A to 17J are sent to amplifiers 8A to 8J via hold circuits 23A to 23J to adjust their gains. The gains of amplifiers 8A-8J are changed in accordance with the level of the comparison signal, and the state is held by hold circuits 23A-23J. Note that the switch 22 is connected to the hold circuit 19A~
This is for resetting the 19J.

Therefore, if the switches 5M and 5N are then connected to the contact U in the opposite direction to the diagram, then the comparator circuit 17A
~17J comparison signal (this is the hold circuit 23
Since the gains of the amplifiers 8A to 8J are changed in accordance with the level of the comparison signal (maintained by A to 23J), the frequency characteristics of the reproduced sound from the speaker 4 are determined by the data from the setting circuit 18. The characteristics correspond to the signal, that is, the desired frequency characteristics.

Figure 4 shows filters 7A to 7J and amplifier 8A.
~8J is shown, A represents an operational amplifier, the passing center frequency can be determined by the coil L and the capacitor C, and the switches S ₁ ~ _{S o} are connected to the circuit 19.
By switching the outputs of A to 19J or 23A to 23J, the gain corresponds to the values of the resistors R ₁ to _Ro .

In the above description, the adjustment signal may be a white noise signal, an impulse signal, a sweep signal, etc., and in the case of these signals, it is preferable to weight the data signal from the setting circuit 18, for example, according to the signal. Furthermore, if these adjustment signals are obtained by reproducing, for example, a record, it is possible to set the frequency characteristics including the cartridge.

[Brief explanation of the drawing]

1 and 3 are system diagrams of an example of the present invention, FIG. 2 is a characteristic diagram for explaining the same, and FIG. 4 is a connection diagram of a part of the example. 1 is the source, 7A to 7J are band pass filters, 14A to 14J are rectifier circuits, 17A to 17J
is a comparison circuit, 18 is a frequency characteristic setting circuit, 19A
~19B is a gain control signal source.

Claims (1)

[Claims] 1 a signal source of an adjustment signal, a plurality of bandpass filters that divide the input signal into a plurality of frequency bands,
It has a plurality of variable gain amplifiers that change the level of the band-divided signal, an adder circuit that adds together the band-divided and level-changed signals, and a frequency characteristic display device. , the above-mentioned adjustment signal is supplied to a speaker provided in the reproduction sound field and reproduced, the reproduced sound is collected by a microphone, and the collected sound signal is passed through the plurality of band-pass filters described above. A control signal for changing the gain of the variable gain amplifier is formed based on the signal, and this control signal is supplied to the plurality of variable gain amplifiers to set their gains so as to have desired frequency characteristics. ,
By supplying the control signal to the display device, the frequency characteristics related to the frequency characteristics are displayed on the display device, and when used, the audio signal is passed through the plurality of bandpass filters, the plurality of gain-set An acoustic characteristic correction device configured to supply the sound to the speaker through the variable gain amplifier and the addition circuit to reproduce the sound in the reproduction sound field.