JPH08279722A - Sound volume controller - Google Patents

Abstract

PURPOSE: To cancel sound quality reduction caused by an output waveform clip without incompatibility for a hearing sense by controlling the amount of an audio signal control circuit to plural levels corresponding to the output signal of a clip detection circuit. CONSTITUTION: An audio signal outputted from a sound source 1 is controlled to suitable volume and sound quality by an operator while using an audio signal control circuit 11, amplified 3 and outputted from a speaker 4. Afterwards, when the amplitude of signal from the sound source 1 is enlarged to a level to clip an output waveform, a control circuit 12 controls the circuit 11 while receiving the output of a clip detection circuit 5. Then, the circuit 12 checks the input signal from the circuit 5 and when its voltage value is low, the control amount of the circuit 11 is increased. When the input voltage from the circuit 5 is high, it is judged by the circuit 12 whether the circuit 11 is set to the prescribed control amount or not. By repeatedly performing this control, incompatibility in the hearing sense is canceled and sound quality reduction caused by the output waveform clip is eliminated.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION This invention relates to an audio device,
The present invention relates to a volume control device that controls volume by detecting a clip of an output waveform.

[0002]

2. Description of the Related Art FIG. 10 is a block circuit diagram of a conventional volume control device based on clip detection. In the figure, 1 is a sound source, 2 is a volume adjusting circuit that adjusts the volume of a sound signal from this sound source 1, 3 is an amplifier that amplifies the signal from this volume adjusting circuit 2, and 4 is the output from the amplifier 3 to sound. A speaker for conversion, 5 is a clip detection circuit for detecting the waveform clip of the output from the amplifier 3, 6 is a smoothing circuit for smoothing the waveform clip detection output from the clip detection circuit 5, 7 and 8 are resistors, 9 and 10 are transistors. , 15 are commands for setting the adjustment amount by the operator.

In the conventional apparatus having such a structure, the sound signal output from the sound source 1 is adjusted by the operator to a proper sound volume by the sound volume adjusting circuit 2, amplified by the amplifier 3, and output from the speaker 4 as sound. Will be output. At this time, when the sound source is a classical music and the change in the signal amplitude is large, if the user tries to listen firmly to the part with the small signal amplitude, the output waveform will be clipped beyond the dynamic range in the part with the large signal amplitude. Cause problems.

Therefore, in recent years, a circuit for detecting an output waveform clip has appeared. As shown in FIG. 6, this is a method in which a signal component exceeding the clip level is detected and the transistor is turned on / off by the signal, and this transistor has an open collector output (active low). By the way, in FIG. 10, when the output waveform is clipped, the frequency of the waveform clip detection output of the clip detection circuit 5 becomes low, the output voltage of the smoothing circuit 6 decreases, and the transistor 9 is turned off. As a result, the transistor 10 that has been off until then is turned on, and the resistor 7 is grounded. Therefore, the signal is attenuated by the output impedance of the volume adjusting circuit 2 and the voltage division ratio of the resistor 7, and the clipping of the output waveform is eliminated. It will be. As a prior art similar to the above, for example, Japanese Patent Laid-Open No. 6-132749
There is one disclosed in the publication.

[0005]

Since the conventional volume control device is constructed as described above, the attenuation amount is fixed with respect to the clip of the output waveform, so that if the attenuation amount is insufficient. , The output waveform clip cannot be canceled sufficiently,
Further, if a sufficient amount of attenuation is secured, there is a problem in that a sudden change in volume is induced, which causes a feeling of strangeness in hearing.
The present invention has been made to solve such problems.

[0006]

A volume control device according to the present invention is a sound signal adjusting circuit for adjusting sound from a sound source,
An amplifier that amplifies the output from the audio signal adjusting circuit and supplies it to the speaker, a clip detection circuit that detects a clip of the clip waveform of the amplifier and outputs a detection signal, and the audio signal according to the output signal of the clip detection circuit. A control circuit for adjusting the adjustment amount of the signal adjustment circuit to a plurality of levels is provided.

Further, in the above structure, the control circuit changes the adjustment amount of the audio signal adjustment circuit only when the waveform clip continues for a certain time.

An audio signal adjusting circuit for adjusting the sound from the sound source, an amplifier for amplifying the output from the audio signal adjusting circuit and supplying it to the speaker, and detecting a clip of the clipped waveform of the amplifier to output a detection signal. And a smoothing circuit that smoothes the output signal of the clip detecting circuit, and a control circuit that adjusts the adjustment amount of the audio signal adjusting circuit to a plurality of levels according to the output of the smoothing circuit.

Further, in the above structure, the output level of the smoothing circuit is selectively input to the control circuit by level switching.

An audio signal adjusting circuit for adjusting the sound from the sound source, an amplifier for amplifying the output from the audio signal adjusting circuit and supplying it to the speaker, and detecting a clip of the clip waveform of the amplifier and outputting a detection signal. Clip detection circuit, a frequency detection circuit that detects the clip amount for each frequency band in the output signal of this clip detection circuit, and the adjustment amount of the audio signal adjustment circuit for each frequency band according to the output of this frequency detection circuit. A control circuit for adjusting to a plurality of levels is provided.

Further, the control circuit determines the frequency at which clipping occurs from the pulse width (time) of the detection signal of the clip detection circuit, and changes the adjustment amount of the audio signal adjustment circuit in that frequency band. .

The control circuit further increases the adjustment amount when the waveform clip is detected while the audio signal adjustment circuit is adjusted to the predetermined adjustment amount, and decreases the adjustment amount when the waveform clip disappears. ing.

Further, the control circuit is adapted to shift the level stepwise when adjusting the adjustment amount of the audio signal adjusting circuit at a plurality of levels.

Further, when adjusting the adjustment amount of the audio signal adjusting circuit at a plurality of levels, the control circuit changes the transition speed between the levels when the adjustment amount increases and when the adjustment amount decreases.

Further, when adjusting the adjustment amount of the audio signal adjusting circuit at a plurality of levels, the control circuit changes the amount of change between the levels when the adjustment amount increases and when it decreases.

[0016]

Since the volume control in the present invention is performed by the control circuit adjusting the adjustment amount of the audio signal adjusting circuit at a plurality of levels, the adjustment amount of the audio signal adjusting circuit can be changed stepwise. By appropriately setting the transition speed and level difference until changing the adjustment amount once and the next adjustment amount, while suppressing abrupt fluctuations that are strange to the ears, sufficient attenuation is secured and the output waveform It is possible to eliminate the sound quality deterioration due to the clip.

[0017]

【Example】

Example 1. An embodiment of the present invention will be described below with reference to the drawings. In FIG. 1, 11 is an audio signal adjusting circuit for adjusting the sound from the sound source 1, 12 is a control circuit for controlling the audio signal adjusting circuit 11, which is an input circuit 12a, an output circuit 12b, R
It is composed of an OM 12c, a RAM 12d, and a CPU 12e. Other configurations are the same as those of the conventional device of FIG. 10, and thus the same reference numerals are given and the description thereof is omitted.

Next, the operation will be described. The audio signal output from the sound source 1 is supplied to the audio signal adjusting circuit 1 by the operator.
The volume is adjusted to an appropriate volume and sound quality by 1, and amplified by the amplifier 3 and output as a voice signal from the speaker 4. After that, when the signal amplitude from the sound source 1 becomes large and the output waveform reaches a level at which the waveform is clipped, the waveform clip detection output of the clip detection circuit 5 becomes low. Control circuit 12
Receives the output of the clip detection circuit 5 and controls the audio signal adjustment circuit 11.

Next, the control circuit 12 causes the clip detection circuit 5 to operate.
How to control the audio signal adjusting circuit 11 by determining the waveform clip detection output of (1) will be described based on the flowchart of FIG. The control circuit 12 is checking the input signal from the clip detection circuit 5 (step 1), and when the voltage value is low level, increases the adjustment amount (= attenuation amount) of the audio signal adjustment circuit 11 ( Step 3). For example, if the current adjustment amount A is 30 dB and the amount of increase per time is 3 dB, the adjustment amount A after the control of the audio signal adjusting circuit 11 is 33 dB. That is,
The audio signal output from the sound source 1 is the audio signal adjusting circuit 1
It will be 33 dB attenuated by 1.

When the input voltage from the clip detection circuit 5 is at a high level, the control circuit 12 determines whether or not the audio signal adjustment circuit 11 is set to a predetermined adjustment amount (step 2), and NO (NO) In the case of N), since the adjustment amount is not controlled and there is no waveform clip, the adjustment amount is left as it is (step 5). When the input voltage from the clip detection circuit 5 is high level and the audio signal adjustment circuit 11 by the control circuit 12 is set to a predetermined adjustment amount,
The adjustment amount A is decreased (step 4). This means that the adjustment amount of the audio signal adjustment circuit 11 is returned to or close to the operator's setting.

The control of the adjustment amount of the audio signal adjusting circuit 11 is as follows.
Although it can be repeatedly performed, in this repetition, the change amount and the transition speed between the plurality of levels of the adjustment amount are constant, and the change amount is set to the change amount per time in advance. Control according to. Further, the transition speed is changed by changing the adjustment amount shown in the flowchart of FIG. 2 (step 3,
After steps 4) and maintaining (step 5) are performed, waiting times T1, T2, and T3 are provided before checking the input signal from the clip detection circuit 5 (step 6, step 7, Step 8), and transition is made accordingly. In setting the waiting time, the waiting times T1, T2, and T3 after the adjustment amount is increased (step 6), after the adjustment amount is decreased (step 7), and after the adjustment amount (step 8) can be individually set, By setting the wait time after decrease longer than the wait time after increase, quick response will be taken when a waveform clip occurs, and slow response will be taken when there is no waveform clip and the adjustment amount is decreased. Therefore, the sense of discomfort in hearing can be eliminated.

In setting the change amount per adjustment amount, the change amount when the adjustment amount is decreased is set to be smaller than when the adjustment amount is increased. Therefore, even if the amount of change is relatively large (about 3 dB), it does not give an uncomfortable feeling to the ears, but when the amount of change is small, there is no waveform clip, so it is more sensitive to changes in voice than when it is increased. It is possible to eliminate discomfort. Note that FIG. 3 shows how the input voltage from the clip detection circuit 5 and the adjustment amount change in the control of the adjustment amount.

Embodiment 2 FIG. As shown in the flowchart of FIG. 4, if a timer is provided before checking the input voltage from the clip detection circuit 5 and changing the adjustment amount, the adjustment amount of the adjustment amount can be set only when the waveform clip continues for a certain time. If the change is made and the adjustment is not continued, the adjustment amount is not changed and the state can be maintained. By doing so, it is possible to prevent unnecessary adjustment of the adjustment amount under the condition that the frequency of occurrence of the waveform clip is low.

In the flow chart of FIG. 4, after confirming the output of the clip detection circuit 5 (step 1) and judging the presence / absence of a clip, if there is a clip, the numerical value t of the counter is reset (step 9). Then, the presence / absence of a clip is determined again (step 10), and if there is a clip, the counter value t is incremented by 1 (step 11). Next, the numerical value of the counter and the preset value T1 are compared (step 12). T1 is a value that is set depending on how long the clipped state continues before adjustment amount control is performed. Therefore, the adjustment amount is controlled (increased) only when the presence of the clip continues for the time set in T1 (step 3). When the value of the counter does not reach T1, steps 10 to 12 are repeated until the value of the counter becomes equal to T1. By the way, if there is no clip once before the value t of the counter reaches T1 in step 10, the control is not performed and the adjustment amount is left as it is to end this routine (step 5).

Next, steps 2 to 16, step 4, and step 5 are routines for decreasing the adjustment amount. As in the case of increasing the adjustment amount, the preset T2 and the numerical value t of the counter are set. Is equal to step 4
The adjustment amount is reduced in. Here, the set values T1 and T
As described above, setting 2 to a different setting corresponds to the occurrence of a clip with a quick response, and slowly when the amount of adjustment is reduced (restored) when there is no clip, the auditory sense. The purpose is to eliminate discomfort. Therefore, normally, T1 <T2 is set. That is, T1 and T2 have the same purpose as the wait time of the first embodiment.

Example 3. 5 is a block circuit diagram showing a third embodiment of the present invention, in which a clip detection circuit 5 and a control circuit 1 are provided.
The smoothing circuit 6 is provided between the two. With this configuration, as shown in FIG. 6, the waveform clip detection output from the clip detection circuit 5 has a voltage value that decreases as the occurrence frequency of the waveform clip increases or the clip portion of the output waveform increases. Therefore, the level of the waveform clip can be known from the output voltage of the smoothing circuit 6. Utilizing this fact, it is determined to what extent the adjustment amount is changed for the waveform clip level, and the output voltage of the smoothing circuit 6 at that level is set as a specified value. Is increased, and the adjustment amount is decreased when it is equal to or more than the specified value and the adjustment amount is controlled. If it is equal to or more than the specified value and the adjustment amount is not controlled, the adjustment amount is left as it is.

Further, since the smoothing circuit 6 smoothes the waveform clip detection output continuously output from the clip detection circuit 5, the output of the smoothing circuit 6 knows the state of the waveform clip generated in a certain time zone. be able to. From this, the control circuit 12 is just to check the output voltage of the smoothing circuit 6 instantaneously, and is equivalent to seeing the clip generation status back to a certain extent from the time when the check was performed, and an appropriate accuracy according to the status. The amount of adjustment can be controlled.

Example 4. FIG. 7 is a block circuit diagram showing a fourth embodiment of the present invention. In the configuration of the third embodiment, a voltage dividing circuit 13 is provided between the smoothing circuit 6 and the control circuit 12.
By turning this on / off with the switch 13a, the specified value can be changed. This makes it possible to select the sensitivity of the control circuit 12 with respect to the waveform clip level. Therefore, even if there are a few waveform clips, it is possible to control the adjustment amount that suits the taste of the user who likes the powerful music and the user who dislikes the distortion caused by the waveform clip. In addition to a hardware method using a voltage dividing resistor, the control means of the control circuit 12 is provided with a specified value selection function, and a hidden command such as a special sequence pressing of user operation buttons of the device is used for selection. A soft method of performing is also possible.

Embodiment 5 FIG. FIG. 8 is a block circuit diagram showing a fifth embodiment of the present invention. Here, a frequency detection circuit 14 is provided between the clip detection circuit 5 and the control circuit 12, and a waveform clip from the clip detection circuit 5 is provided by this circuit. When the frequency of the detection output is judged and it is detected that an output waveform clip in a predetermined frequency band has occurred, a detection signal is output. In response to this, the control circuit 12 increases the adjustment amount of the frequency band in which clipping occurs, that is, changes the frequency characteristic. By doing so, it is possible to correct the frequency band in which the sound quality is significantly reduced due to the output waveform clip due to the environment in which the audio device is placed, the characteristics of the speaker used, and the like.

Example 6. Instead of the frequency detection circuit 14, the control circuit 12 directly takes in the waveform clip detection signal output (pulse wave) of the clip detection circuit 5 and determines the frequency causing the clipping from the pulse width of this signal,
The system can be simplified by increasing the adjustment amount of the frequency band and eliminating the output waveform clip.

This operation will be described with reference to the flowchart of FIG. The control circuit checks the input signal from the clip detection circuit 5 (step 1), starts counting when the voltage value is at low level (step 9), and ends counting at the time when it becomes high level (step 9). Step 1
0) Check the time of low level. From the counted times T _M and T _N (where T _M > T _N ), the frequency causing the clipping of the output waveform can be known to some extent. The counted time is determined in steps 17 and 18, and the frequency causing the clip is confirmed. That is, when the counted time is smaller than T _N , the adjustment amount B in the band lower than the frequency N _HZ is X.
(Step 19). When the counted time is larger than T _{N and} smaller than T _M , the frequency N _HZ ~
The adjustment amount C of the M _HZ band is increased by X (step 2
0). When the counted time is larger than T _M , the adjustment amount D in the band higher than the frequency M _HZ is increased by X. In this way, the clipping of the output waveform is eliminated.
When the output of the clip detection circuit 5 is at a high level, the adjustment amount of the audio signal adjustment circuit is decreased, but in this case also, the adjustment amounts B, C and D for each frequency band are performed. That is, when B is controlled (step 22), B is decreased by Y (step 25), and when C is controlled (step 23), C is decreased by Y (step 2).
6) If D is controlled (step 24) D
Is decreased by Y (step 27). When the adjustment amount of any frequency band is not controlled, the adjustment amount B, C, or D of each frequency band is maintained at the set amount as it is (step 28).

[0032]

As described above, according to the present invention, since the control circuit determines the waveform clip detection signal to control the voice, the voice attenuation control also increases (restores) the voice.
The control can also be controlled at any amount, any number of times, and at any time interval, and as a result, there is an effect that the sound quality deterioration due to the output waveform clip is eliminated without a sense of discomfort in hearing.

[Brief description of drawings]

FIG. 1 is a block circuit diagram showing a volume control device according to a first embodiment of the present invention.

FIG. 2 is a flowchart illustrating the operation of the first embodiment.

FIG. 3 is a waveform diagram illustrating the operation of the first embodiment.

FIG. 4 is a flowchart illustrating an operation of the volume control device according to the second embodiment of the present invention.

FIG. 5 is a block circuit diagram showing a volume control device according to Embodiment 3 of the present invention.

FIG. 6 is a waveform diagram illustrating the operation of the third embodiment.

FIG. 7 is a block circuit diagram showing a volume control device according to Embodiment 4 of the present invention.

FIG. 8 is a block circuit diagram showing a volume control device according to a fifth embodiment of the present invention.

FIG. 9 is a flowchart illustrating an operation of the volume control device according to the sixth embodiment of the present invention.

FIG. 10 is a block circuit diagram showing a conventional volume control device.

[Explanation of symbols]

1 sound source, 3 amplifier, 4 speaker, 5 clip detection circuit, 6 smoothing circuit, 11 audio signal adjusting circuit, 12
Control circuit, 13 voltage divider circuit, 13a switch,
14 Frequency detection circuit.

Claims (10)

[Claims] 1. An audio signal adjusting circuit for adjusting audio from a sound source, an amplifier for amplifying an output from the audio signal adjusting circuit and supplying it to a speaker, and detecting a clip of a clip waveform of the amplifier to output a detection signal. And a control circuit for adjusting the adjustment amount of the audio signal adjusting circuit to a plurality of levels according to an output signal of the clip detecting circuit. 2. The volume control device according to claim 1, wherein the control circuit changes the adjustment amount of the audio signal adjustment circuit only when the waveform clip continues for a certain time. 3. An audio signal adjusting circuit for adjusting the sound from a sound source, an amplifier for amplifying the output from this audio signal adjusting circuit and supplying it to a speaker, and detecting a clip of a clip waveform of this amplifier and outputting a detection signal. And a smoothing circuit for smoothing an output signal of the clip detecting circuit, and a control circuit for adjusting the adjustment amount of the audio signal adjusting circuit to a plurality of levels according to the output of the smoothing circuit. Volume control device. 4. The control circuit has an output level of the smoothing circuit,
4. The volume control device according to claim 3, wherein the volume control device is adapted to be selectively input by level switching. 5. An audio signal adjusting circuit for adjusting the sound from a sound source, an amplifier for amplifying the output from this audio signal adjusting circuit and supplying it to a speaker, and detecting a clip of a clip waveform of this amplifier and outputting a detection signal. Clip detection circuit, a frequency detection circuit that detects the clip amount for each frequency band in the output signal of this clip detection circuit, and the adjustment amount of the audio signal adjustment circuit for each frequency band according to the output of this frequency detection circuit. A volume control device comprising a control circuit for adjusting to a plurality of levels. 6. The control circuit determines the frequency at which clipping occurs from the pulse width (time) of the detection signal of the clip detection circuit, and changes the adjustment amount of the audio signal adjustment circuit in that frequency band. The volume control device according to claim 1, wherein the volume control device is a volume control device. 7. The control circuit further increases the adjustment amount when a waveform clip is detected in the state where the audio signal adjustment circuit is adjusted to a predetermined adjustment amount, and decreases the adjustment amount when the waveform clip disappears. The volume control device according to any one of claims 1 to 6, wherein: 8. The control circuit according to claim 1, wherein when the adjustment amount of the audio signal adjusting circuit is adjusted at a plurality of levels, the control circuit shifts the levels step by step. The volume control device according to any one of claims. 9. The control circuit, when adjusting the adjustment amount of the audio signal adjusting circuit at a plurality of levels, changes the transition speed between the levels when the adjustment amount increases and decreases. The volume control device according to any one of claims 1 to 6. 10. The control circuit, when adjusting the adjustment amount of the audio signal adjusting circuit at a plurality of levels, changes the amount of change between the levels when the adjustment amount increases and decreases. The volume control device according to any one of claims 1 to 6.