JPS59101916A - Sound generating device - Google Patents

Abstract

PURPOSE:To generate always a sound of a good sound volume by detecting the volume of an ambient sound, and constituting so that a sound vlume generated from a loudspeaker is adjusted automatically in accordance with its detecting signal level. CONSTITUTION:A sound signal generated from a sound source 1 is amplified by a signal amplifier 3 and energizes an output transistor circuit 4. Subsequently, a sound is generated through a loudspeaker 5 by an output of the circuit 4. On the other hand, an ambient noise s detected by a microphone 6, and a sound detecting signal of a level corresponding to the volume of the noise is outputted from the microphone 6. This signal is amplified 8, integrated 12 and amplified 14, and makes a current flow to an LED 2a. Accordingly, when a sound detecting signal level is large, a current quantity flowing to the LED 2a is large, a resistance value of a CdS element 2b becomes small, and when the sound detecting signal level is small, the resistance value of the element 2b becomes large. In this way, when the ambient noise is large, the gain of the amplifier 3 becomes large, and the sound volume from the loudspeaker 5 becomes large. Also, when the ambient noise is small, the utterance sound volume becomes small.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a sound generating device that automatically adjusts the volume generated from a speaker.

[Technical background of the invention and its problems]

Sound generating devices are used, for example, to generate the key sound of an electronic cash register, to generate sound from a vending machine, and to other jukeboxes. Conventionally, the sound generating devices used in such devices are speakers. The volume generated by the device can be adjusted using the internal volume.

However, once you adjust the volume of these types of devices, the volume remains constant, so if you adjust the volume when there is a lot of noise in the surrounding area, the sound may become too loud when the surrounding area becomes quiet, and vice versa. If you adjust it when the noise level is low, there is a problem that the sound will become audible if the surrounding noise gets louder.

[Purpose of the invention]

This invention was made to solve such problems, and it is possible to automatically adjust the volume to an appropriate level according to the surrounding noise situation, and to always generate sound at a good volume. The purpose of the present invention is to provide a sound generating device that can perform the following.

A further object of the present invention is to provide a sound generating device that can adjust the volume level more accurately.

[Summary of the invention]

This invention uses a microphone to detect the loudness of surrounding sounds.
The gain of a signal amplifier that amplifies the sound signal from the sound source is variably controlled in accordance with the sound detection signal level, and the volume of the sound generated from the speaker is varied in accordance with the surrounding sound.

Furthermore, when the microphone detects ambient sound, the sound detection signal level is held by prohibiting the sound generation from the speaker, and when the sound is generated from the speaker, the sound detection signal input from the microphone is prohibited and the sound detection signal level is held. The gain of the signal amplifier is variably controlled according to the detected sound detection signal level.

[Embodiments of the invention]

Hereinafter, one embodiment of the present invention will be described with reference to the drawings.

As shown in FIG. 1, the output terminal of a sound source 1 that outputs a sound signal is connected to the input terminal of a signal amplification circuit 3 via a CdS element 2b, which is a light receiving element of a photocasolar 2. An output transistor circuit 4 is connected to the output terminal of the signal amplification circuit 3, and a speaker 5 is connected to the output terminal of the transistor circuit 4.
are connected. Further, the output terminal of a microphone 6 arranged to detect ambient noise is connected to the input terminal of a first amplifier 8 having a variable resistor 7 for gain adjustment, and the output terminal of the amplifier 8 is connected to a diode 9 and a resistor. 10. An integrating circuit 12 formed by connecting capacitors 11 in parallel is connected in series to an input terminal of a second amplifier 140 having a variable resistor 13 for gain adjustment. the second amplifier 14
The output terminal of the transistor 15 is connected to the base of an NPN type transistor 15. The collector of the transistor 15 is connected to the positive terminal of a power source, and the emitter is connected to a resistor 16 and a light emitting diode 2 which is a light emitting element of the photocazolla 2.
A is connected in series to ground.

In the embodiment of the present invention constructed in this way, the sound signal generated from the sound source 1 is amplified by the signal amplifier 3 and energizes the output transistor circuit 4.

Then, the speaker 5 is energized by the output of the output transistor circuit 4, and sound is generated through the speaker 5.

On the other hand, ambient noise is detected by the microphone 6,
The microphone 6 outputs a sound detection signal at a level corresponding to the level of noise. This sound detection signal is amplified by a first amplifier 8, then rectified by a diode 9, further integrated by an integrating circuit 12, and amplified by a second amplifier 14. And at the output of the second amplifier 14, the transistor 15
is energized, and current flows through the light emitting diode 2a. At this time, the sound detection signal level from the microphone 6 changes depending on the level of surrounding noise, and the level of the sound detection signal from the microphone 6 changes depending on the level of the surrounding noise.
The second amplifier 14 outputs an output at a level corresponding to the magnitude of the surrounding noise. However, the transistor 15 changes its internal impedance depending on the level of surrounding noise, and controls the amount of current flowing through the light emitting diode 2a.

That is, when the surrounding noise is large and the sound detection signal level from the microphone 6 is high, the amount of current flowing to the light emitting diode 2a is large, and when the surrounding noise is small and the sound detection signal level from the microphone 6 is small, the current flowing to the light emitting diode 2a is large. The amount becomes smaller. When the amount of current flowing through the light emitting diode 2a is large, the resistance value of the CdS element 2b becomes small and the gain of the signal amplifier 3 is increased, and when the amount of current flowing through the light emitting diode 2a is small, the resistance value of the CdS element 2b becomes large and the signal amplifier 3 increases. Reduce the gain of 3. Therefore, when the surrounding noise is large, the gain of the signal amplifier 3 is also large, and when the surrounding noise is small, the gain of the signal amplifier 3 is also small. Therefore, the louder the surrounding noise becomes, the louder the speaker 5 becomes.
The number of sounds emitted from the speaker 5 becomes larger, and conversely, as the surrounding noise becomes smaller, the volume of the sound emitted from the speaker 5 becomes smaller.

In this way, the volume of the sound generated from the speaker 5 is automatically adjusted according to the level of surrounding noise, so the volume is appropriately determined according to the surrounding noise situation, and sound with a good volume is always generated. This eliminates the inconvenience of the sound being too low even though the surroundings are noisy, or too loud even though the surroundings are quiet. Also the first
．． Since each second amplifier 8.14 is provided with a variable resistor 7.13 for gain adjustment, the amount of change in output sound relative to the amount of change in noise input can be manually adjusted, making it possible to adjust according to the installation location. .

Next, another embodiment of the invention will be described with reference to the drawings.

Note that the same parts as in the above embodiment are given the same reference numerals, and detailed explanations will be omitted.

This is achieved by inserting a first analog switch 17 in series between the sound source 1' and the CdS element 2b of the photocoupler 2, as shown in FIG. 2 analog switches 18 are inserted in series, and an NPN transistor 19 is connected to the resistor 10 of the integrating circuit.
are connected in series to form a hold circuit 20.

Further, a series circuit of a resistor 21 and a start switch 22 is connected between the positive terminal of the power source and the ground, and the connection point between the resistor 21 and the switch 22 is connected to the first analog switch 17.
is further connected to the negative input terminal of the second analog switch 18 via an inverter 23 and connected to the negative input terminal of the transistor 19 via a resistor 24.
is connected to the base of

In this device, when the start switch 22 is in the off state, the first analog switch 17 is off, and the second
The analog switch 18 is turned on, the transistor 19 is turned on, ambient noise is detected via the microphone 6, and the level state of the sound detection signal is input to the hold circuit 20. On the other hand, the sound signal from the sound source 1 is not input to the signal amplifier 3, and no sound is generated from the speaker 5. When the start switch 22 is turned on in this state, the first analog switch 17 is turned on, the second analog switch 18 is turned off, the transistor 19 is turned off, and the microphone 6 is turned on.
The input of the sound detection signal outputted from the sound detection signal to the hold circuit 20 is prohibited, and the hold circuit 20 starts to hold the sound detection signal level up to that point. On the other hand, sound source 1
The sound signal from is input to the signal amplifier 3. The amount of current flowing to the light emitting diode 2a of the photocoupler 2 is determined by the level of the sound detection signal held in the hold circuit 20. The gain of the signal amplifier 3 is determined by the held sound detection signal level, and the volume of the sound generated from the speaker 5 is determined.

Since no sound is generated from the speaker 5 when the surrounding noise situation is being detected by the microphone 6 in this way, there is no risk that the sound from the speaker 5 will go around to the microphone 6 and adversely affect the noise detection. can accurately detect the surrounding noise situation and automatically adjust the volume more accurately. When sound is generated from the speaker 5 by the sound source 1, the surrounding noise situation immediately before is held in the hold circuit 20, and the gain of the signal amplifier 3 is determined by the held content, so the above-described implementation is also performed in this device. The same effect as the example can be obtained.

〔Effect of the invention〕

As detailed above, according to the present invention, it is possible to provide a sound generating device that can automatically adjust the volume to an appropriate level according to the surrounding noise situation, and can always generate sound at a good volume. It is something.

Further, according to the present invention, since ambient noise detection is not affected by the sound from the speaker, it is possible to provide a sound generating device that allows more accurate volume adjustment.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing one embodiment of the invention, and FIG. 2 is a circuit diagram showing another embodiment of the invention. 1... Sound source, 2... Photocoupler, 3... Signal amplifier, 5... Speaker, 6... Microphone, 8.
14...Amplifier, 15...NPN transistor, 1
7゜18...Analog switch, 20...Hold circuit. Applicant's agent Patent attorney Takehiko Suzue Figure 1■

Claims (2)

[Claims] (1) A sound source, a signal amplifier that amplifies the sound signal from this sound source, a speaker that generates sound in response to the output of this signal amplifier, a microphone that detects the volume of surrounding sound, and output from this microphone. and a variable gain circuit that variably controls the gain of the signal amplifier in accordance with the level of the sound detection signal detected, such that when the level is high, the gain is increased, and when the level is low, the gain is decreased. A sound generating device characterized in that: (2) A sound source, a signal amplifier that amplifies the sound signal from this sound source, a speaker that generates sound in response to the output of this signal amplifier, a microphone that detects the volume of surrounding sound, and output from this microphone. a hold circuit that holds the sound detection signal held by the hold circuit; and a hold circuit that increases the gain of the signal amplifier according to the level of the sound detection signal held by the hold circuit, increases the gain when the level is high, and increases the gain when the level is low; a variable gain circuit that performs variable control in a direction to reduce the gain; a variable gain circuit that inhibits and controls the supply of a sound signal from the sound source to the signal amplifier; and a control that controls the supply of a sound detection signal from the microphone to the hold circuit; and A sound generating device comprising switching means for inhibiting the supply of a sound detection signal to the hold circuit and selectively controlling the supply of a sound signal from the sound source to the signal amplifier.