JPH0356484B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to an improvement in an audio device equipped with an automatic volume control circuit that increases or decreases the playback volume in response to an increase or decrease in the noise level.

(Conventional technology) Car radios and car stereos are used in environments with high levels of ambient noise such as engine noise and exhaust noise, so keeping the volume constant makes it difficult to avoid problems such as entering tunnels or opening/closing windows. As a result, the noise level changes, making it difficult to hear the reproduced sound.

Therefore, in order to eliminate the need to manually adjust the volume each time the noise level changes, an audio device that automatically increases or decreases the playback volume in response to increases or decreases in the ambient noise level has been put into practical use. (Refer to pages 270 and 271 of Nissan Service Bulletin No. 428 (LP-1) published by Nissan Motor Co., Ltd.).

However, in the case of such audio equipment, when the noise level increases, the playback volume also increases correspondingly, and therefore, the loud sounds contained in the playback sound may be considered too loud by some listeners. There is a risk that you will feel noisy.

Furthermore, if the overall playback volume level is reduced in order to prevent this, it is conceivable that small sounds in the playback sound will be masked by the noise and become inaudible.

(Object of the Invention) The object of the present invention is to provide an audio device that can control the playback volume to a level that is easy for the listener to hear even if the playback volume is increased or decreased due to fluctuations in the noise level. Our goal is to provide the following.

(Structure of the Invention) In order to achieve the above object, the present invention includes a noise level detection means for detecting an ambient noise level, and detects an acoustic signal from an acoustic signal source according to the noise level detected by the means. In an audio device that performs playback by controlling the volume, the upper limit level of the playback volume immediately before the sound becomes harsh and the lower limit level of the playback volume immediately before the sound becomes difficult to hear due to being masked by the noise are set in accordance with the noise level signal from the means. Upper limit level setting means and lower limit level setting means for setting respectively;
The apparatus is constructed by providing a volume adjusting means for bringing the reproduced sound whose volume falls outside the range between the upper and lower limit levels to the volume at the upper and lower limit levels.

It should be noted that it is more practical to set both of the above levels in consideration of the volume operation by the listener, and for this purpose, the second invention provides that both levels are changed not only according to the noise level but also according to the volume position. Features.

(Example) A first embodiment of the invention is shown in FIG.

The audio signals output from the car stereo's offset tape deck 1 and the car radio's tuner 2 are
After being amplified by the preamplifier 3, the level is adjusted by an auto volume control circuit (abbreviated as "AVC" in the figure and in the following description) 4.

This AVC 4 is a circuit that changes the attenuation rate of the signal input from the preamplifier 3 in response to an increase or decrease in the ambient noise level, and includes a pickup microphone 9 installed in the vehicle interior and a noise detection circuit (noise level detection means). 10 detects the noise level in the vehicle interior, and changes the above-mentioned attenuation rate depending on the magnitude of this noise level signal S _L (For details, see Nissan Service Bulletin No. 428 (LP-1), pages 270 and 271. (as shown in).

The output signal S _a of AVC is the gain adjustment amplifier 5,
The main amplifier 6 further amplifies the sound to an audible level, and the speaker 7 outputs the sound as a reproduced sound.

The gain adjustment amplifier 5 constitutes the volume adjustment means in the present invention, and is an amplifier with variable amplification gain,
The gain is increased at a predetermined rate of change during a period when there is an input to UP, and is decreased at a predetermined rate of change during a period when there is an input to DOWN.

Upper limit level setting circuit (upper limit level setting means) 1
1 and lower limit level setting circuit (lower limit level setting means)
12 inputs the noise level signal S _L output from the noise detection circuit 10 and sets an upper limit level A and a lower limit level B of the playback volume in accordance with this noise level.

The upper limit level A is, for example, the level at which a loud sound in the reproduced sound is just before it becomes annoying compared to the ambient noise level, and the lower limit level B is the level at which a small sound in the reproduced sound becomes annoying depending on the ambient noise level. This is the level just before it becomes masked and difficult to hear. These are set based on characteristics determined in advance through experiments or the like, and are set, for example, to have the characteristics shown in FIG. 2.

In the figure, the rate of change in the upper limit level A is smaller than the rate of change in the lower limit level B, because as the noise level increases, raising the level of small sounds in the reproduced sound makes it easier for the listener to hear. On the other hand, if the level of loud sounds in the reproduced sound is increased in the same way, it will be perceived as noisy.

The upper limit level comparator 13 detects the playback volume level C detected by the level detection circuit 8 (detects the output signal level of the main amplifier 6 at the final stage);
When the playback volume level C exceeds the upper limit level A by comparing it with the upper limit level A, the signal S ₁ is supplied to the DOWN of the gain adjustment amplifier 5.

The lower limit level comparator 14 determines the playback volume level C.
and the lower limit level B, and when the reproduction volume level C is lower than the lower limit level B, the signal _S2 is supplied to the UP of the gain adjustment amplifier 5.

The noise level currently detected by the noise detection circuit 10
Assuming that S _L is 40dBA, A and B in Figure 2
From this, the upper limit level A ₁ is 8 dBA, and the lower limit level B ₁ is
It will be set to 40dBA.

Therefore, even if the AVC 4 increases or decreases the playback volume in response to the noise level, the gain adjustment amplifier 5 adjusts the gain and the playback volume remains unchanged.
Limited between 40dBA and 80dBA.

To explain the operation at this time using the characteristic diagram shown in Fig. 3, if the input S _a of the gain adjustment amplifier 5 is at a level between the above upper limit level A ₁ and lower limit level B ₁ , the gain adjustment is performed. Without this (gain = 1), the change in the output S _b has the characteristics shown by the straight line HI in the figure.

Here, due to a change in the acoustic signal from cassette tape deck 1 or tuner 2, the input S _a
If the maximum value of S b exceeds the upper limit of 80 dB, the gain is reduced so that the maximum value of output S _b exceeds the upper limit of 80 dB.
Make sure it is 80bB or less. At this time, the characteristic moves in parallel to the right in the figure, as shown by straight line JK in the figure.

As a result, the playback volume level is lowered overall, and the maximum sound level of the playback sound is limited to below the upper limit level _A1 , so that the listener does not feel it is noisy.

Also, since the acoustic signal from the cassette deck 1 or the tuner 2 has changed, the gain adjustment amplifier 5
If the minimum value of the input S _a falls below the lower limit of 40 dB, the gain is increased so that the minimum value of the output S _b becomes 40 bB or more. The characteristic at this time is a parallel shift to the left, as shown by the straight line LM in the figure.

As a result, the playback volume level increases overall, and the minimum sound level in the playback sound is controlled to be equal to or higher than the lower limit level _B1 , making it difficult for listeners to hear small sounds. Nothing happens.

Next, a second embodiment of the present invention is shown in FIG. In this figure, the same components as those of the first embodiment shown in FIG.

In this embodiment, the volume 15 is installed after the preamplifier 3.
is provided so that the playback volume can be adjusted manually by the listener.

Then, the AVC 24 responds to an increase or decrease in the noise level S _L detected by the noise detection circuit 10.
In order to increase or decrease the playback volume, a gain adjustment command signal _SC is output to the gain adjustment amplifier 5.

The gain adjustment circuit 5 performs gain adjustment by the UP/DOWN signals U and D supplied from the gain adjustment signal generation circuit 16, and the gain adjustment signal generation circuit 16 outputs the gain adjustment command signal _SC and the upper limit. Based on the level comparator 13 output S ₁ and the lower limit level comparator 14 output S ₂ , gain adjustment signals U, D
occurs.

Upper limit level setting circuit (upper limit level setting means) 2
1, in addition to the noise level S _L from the noise detection circuit 10, the volume position V of the volume 15 and the gain G of the gain adjustment amplifier 5 are input, and the upper limit level A ₂ is set based on these.

Similar to the first embodiment, this upper limit level _A2 is set to a level just before the loud sound in the reproduced sound becomes annoying compared to the surrounding noise level. Furthermore, as shown in Fig. 5a, this upper limit level _A2 has a basic level set in a linear relationship with respect to the volume position V, and with respect to this basic level, as shown in Figs. 5b and c. It is determined by adding the increase in the noise level and the increase in the gain G.

Lower limit level setting circuit (lower limit level setting means) 2
2, the lower limit level B is set from the noise level S _L and the volume position V. This lower limit level B is the first
Similar to the embodiment described above, the ambient noise level is set to a level just before small sounds in the reproduced sound are masked by the noise. Further, this lower limit level B is determined by setting a basic level corresponding to the volume position V, and adding an increase corresponding to the noise level to this basic level. Both of these characteristics are linear, similar to the characteristics for the upper limit level shown in FIGS. 5a and 5b.

With such a configuration, in the case of this embodiment, the operating characteristics as shown in FIG. 6 can be obtained.

As shown in the figure, as the gain of the gain adjustment amplifier 5 increases or decreases, the upper limit level _A2 changes in a curved manner. As a result, the average volume of the reproduced sound becomes substantially uniform, and it is possible to obtain a sound that is easy to listen to in a noisy environment.

In addition, it is possible to prevent the playback sound from being generated when the volume is turned all the way down, and while limiting the upper and lower limit levels of the playback sound, the playback volume can be continuously adjusted in response to the volume operation, making it even more Control can be performed with emphasis on the listener's operations.

Next, a third embodiment of the present invention is shown in FIG.
In this figure, the same components as those in the first embodiment shown in FIG. 1 are denoted by the same reference numerals, and the explanation thereof will be omitted.

In this embodiment, an upper limiter 17 and a lower limiter 18 are provided as volume adjusting means in place of the gain adjustment amplifier 5 in the first embodiment.

The upper limiter 17 selects one of the outputs S _a of the AVC4.
A signal level that exceeds upper limit level A is defined as upper limit level A.
The lower limiter 18 is a limit circuit that performs a lower limit level limit process using a lower limit level B on a signal that has been subjected to an upper limit level limit process by the upper limiter 17.

With such a configuration, in the case of this embodiment, the playback volume is increased or decreased according to the noise level by the action of the AVC4, and the upper and lower limit levels A and B of this playback sound are adjusted. Turn up only the outgoing sound,
A restriction is performed to control the amount to a lower limit level. This prevents the occurrence of loud noises that are harsh on the ears or small sounds that are masked by noise, and also prevents the mid-level sound of the reproduced sound from changing frequently, making it easier for the listener to hear. is heard as a more stable sound.

Further, in the case of this embodiment, the circuit configuration is simpler than that of the first and second embodiments, and it can be provided at a lower cost.

(Effects of the Invention) As explained in detail above, the present invention is capable of preventing the production of harsh high-level sounds by increasing or decreasing the playback volume in response to increases or decreases in the ambient noise level, or by increasing or decreasing the reproduction volume in response to increases or decreases in the ambient noise level. Therefore, the reproduction volume can be controlled so that the volume is always at a volume that is easy for the listener to hear.

Moreover, in this case, since the configuration is such that the volume of the reproduced sound that deviates from the upper and lower limit levels set according to the noise level is brought to these levels, this The objective can be achieved without performing any processing on the acoustic signal in the normal range between the upper limit level and the lower limit level. Therefore, the sound in the normal range does not become unnatural and cause a sense of discomfort, and the dynamic range does not become narrow and impair the dynamism of the music.

Further, according to the second invention, in which both of the above levels are changed not only according to the noise level but also according to the volume position, it is possible to prevent the reproduction sound from being generated when the volume is turned down, for example. , it becomes possible to perform operations that take into consideration the operations of the listener, which is more practical.

[Brief explanation of drawings]

Fig. 1 is a block diagram showing the configuration of the first embodiment of the present invention, Fig. 2 is a characteristic diagram of the upper limit level and lower limit level in the same embodiment, and Fig. 3 is the input/output of the gain adjustment amplifier in the same embodiment. 4 is a block diagram showing the configuration of the second embodiment of the present invention, FIG. 5 is a characteristic diagram between each element regarding the setting of the upper limit level in the same embodiment, and FIG. 6 is a block diagram showing the configuration of the second embodiment of the present invention. FIG. 7, which is an input/output characteristic diagram of the gain adjustment amplifier, is a block diagram showing the configuration of a third embodiment of the present invention. 1...Cassette tape deck, 2...Tuner, 3, 24...AVC (auto volume control circuit), 5...Gain adjustment amplifier, 8...
Level detection circuit, 10...Noise detection circuit, 11,
21... Upper limit level setting circuit, 12, 22... Lower limit level setting circuit, 13... Upper limit level comparator,
14...lower limit level comparator, 15...volume,
17... Upper limiter, 18... Lower limiter,
A... Upper limit level, B... Lower limit level, S _L ... Noise level.

Claims (1)

[Claims] 1. An acoustic device comprising a noise level detecting means for detecting the surrounding noise level, and reproducing an acoustic signal from an acoustic signal source while controlling the volume according to the noise level detected by the means. In the apparatus, an upper limit level setting means and a lower limit level for respectively setting an upper limit level of the playback volume immediately before the sound becomes harsh and a lower limit level of the playback volume immediately before the sound becomes difficult to hear due to being masked by the noise, according to the noise level signal from the means. 1. An audio device comprising: a setting means; and a volume adjusting means for bringing a reproduced sound whose volume falls outside of the upper and lower limit levels to a volume at the upper and lower limit levels. 2. An audio device comprising a noise level detection means for detecting an ambient noise level, and configured to play back an acoustic signal from an acoustic signal source corresponding to a volume position according to the noise level detected by the means, with the volume controlled, In response to the noise level signal from the means, an upper limit level of the playback volume immediately before the sound becomes harsh and a lower limit level of the playback volume immediately before the sound becomes difficult to hear due to being masked by the noise are set respectively, and these levels are adjusted according to the volume position. The device is characterized by comprising an upper limit level setting means and a lower limit level setting means for changing the upper limit level and a lower limit level setting means, and a volume adjusting means for bringing the reproduced sound having a volume outside the upper limit level and the lower limit level to the volume of the upper limit level and the lower limit level. sound equipment.