KR910007546B1 - Sound signal control circuit - Google Patents

Abstract

The circuit for automatically controlling the volume according to the level of the circumference sound by detecting the level of the sound, converting it to the corresponding DC voltage and applying the voltage to the sound IC includes a low-pass filter (10) for converting the external sound through a microphone to the DC voltage, the amplifier (20), the noise remover (30) for removing the noise contained in the output of the amplifier (20), and the switching part for selecting the output voltage of the noise remover (30) and that of the rectifier (50) for the switching voltage of the switching terminal (S/W) and applying it to the sound IC (70).

Description

Automatic voice signal output control circuit according to ambient sound pressure

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: low pass filter 20: amplifier

30: noise removing unit 40: switching unit

50: rectifier 60: micom

70: sound integrated device S / W: switching terminal

R1-R14: Resistor C1-C8: Capacitor

Q1-Q4: Transistor D1-D3: Diode

MIC: Microphone Vcc: Power

L1, L2: Coil

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic audio signal output control circuit in accordance with ambient sound pressure in which the audio output circuit automatically controls the audio output volume in accordance with the ambient sound pressure.

In general, the audio signal of a television (TV), etc. is relatively relative to the external sound pressure condition, so in order to listen to the desired volume condition, it is necessary to readjust the external condition. The audio output was controlled to the desired state by recalibration, but it was troublesome because the recalibration function was performed manually.

In other words, during the day, the surroundings are disturbed and the sound of the ear is relatively decreased. Therefore, the voice volume of the TV should be adjusted higher. At night, the surroundings are quiet and the sound of the ear is relatively higher. The hassle to do was to occur.

In view of the above, the object of the present invention is to increase the voice output volume automatically when the external sound pressure is increased, and to automatically lower the voice output volume when the external sound pressure is low, thereby eliminating the need to readjust the voice volume according to the external sound pressure conditions. In order to eliminate the roaming, the external sound pressure is sensed and converted into a direct current (DC) voltage, and then applied to the voice volume control voltage of the sound integrated device so that the voice volume is automatically controlled according to the ambient conditions.

This will be described in detail with reference to the accompanying drawings.

The present invention provides a voice output circuit configured to convert the volume control pulse of the microcomputer 60 into a direct current (DC) voltage in the rectifying unit 50 and to be applied as the volume control voltage of the sound integrated device 70. A microphone (MIC) to be received, a low pass filter (10) for converting an external voice signal input through the microphone (MIC) into a direct current (DC) voltage, and an amplification unit for amplifying the DC voltage of the low pass filter ( 20), the noise removing unit 30 for removing noise and high frequency in the DC voltage amplified by the amplifier 20, the output voltage of the noise removing unit 30 and the output voltage of the rectifier 50 It is composed of a switching unit 40 for selecting the switching voltage of the switching terminal (S / W) to be applied to the volume control voltage of the sound integrated device (70).

In the present invention, the low-pass filter 10 is composed of a coil (L1) and a capacitor (C2) (C3), the amplifier 20 is a transistor (Q1) connected to the output of the low-pass filter 10 resistors (R2-R7) Q2 is configured to be amplified in two stages, and the noise removing unit 30 includes a coil L2 and a capacitor C4 and C5.

In addition, the output of the noise removing unit 30 is applied to the emitter of the transistor Q3, and the output of the rectifying unit 50 composed of the resistors R13 (R14) and the capacitor C7 is applied to the collector of the transistor Q4. The switching unit 40 is configured such that the switching voltage of the switching terminal S / W is applied to the base of the transistors Q3 and Q4, and the output of the transistors Q3 and Q4 is passed through the capacitor C8. It is configured to be applied to the volume control voltage of the integrated device (70).

At this time, the switching voltage of the switching terminal S / W is applied according to the user's selection. If the volume is automatically adjusted according to the ambient sound pressure condition, 'low level' is applied, otherwise 'high level' is applied.

Referring to the effects of the present invention configured as described above are as follows.

In the circuit diagram of the present invention, the external signal detected through the external sound sensing microphone (MIC) is connected to the coil (L1) and the capacitor (C2) (C3) connected in parallel through the resistor (R1) and the noise canceling capacitor (C1). The DC filter is applied to the configured low pass filter 10 and is converted into a direct current (DC) voltage. The DC voltage converted by the low pass filter 10 is applied to the transistor Q1 of the amplifier 20 to be inverted and amplified. The inverted and amplified DC voltage is inverted and amplified by the transistor Q2 and then applied to the noise removing unit 30.

In the noise removing unit 30, the DC voltage output from the amplifying unit 20 is passed through the reverse blocking diode D1 to filter noise and high frequency components by the capacitors C4 and C5. The voltage preventing diode D2 is applied to the emitter of the transistor Q3.

In this case, the DC voltage applied to the emitter of the transistor Q3 is increased when the external input voice signal is large and decreases when the external input voice signal is small.

In this case, when the switching voltage applied to the switching terminal S / W is applied at the 'low level', the 'low level' is applied to the base of the transistor Q3 through the diode D3 and the resistor R9 and the resistor R11. Since 'low level' is applied to the base of transistor Q4 through R12, transistor Q3 is 'turned on' and transistor Q4 is 'open'.

When the transistor Q3 is 'turned on', the DC voltage of the noise removing unit 30 is applied to the volume control voltage of the sound integrated device 70 through the diode D2, the resistors R8, R10, and the transistor Q3. Since the sound output volume of the sound integrated device 70 is automatically controlled by the size of the external voice.

That is, when the external sound pressure sensed through the microphone MIC increases, the volume control voltage of the sound integrated device 70 is increased to automatically increase the voice volume, and when the external sound pressure decreases, the volume control voltage of the sound integrated device 70 is increased. The voice volume is automatically lowered so that the voice output can be automatically adjusted for the external voice.

However, when the switching voltage applied to the switching terminal S / W is applied at the 'high level', the 'high level' is applied to all the bases of the transistors Q3 and Q4 of the switching unit 40 so that the transistor Q3 is applied. Is 'open' and the transistor Q4 is 'turned on' so that the DC voltage output applied from the noise removing unit 30 is cut off and the DC voltage rectified in the rectifying unit 50 passes through the transistor Q4. 70 is applied to the volume control voltage.

At this time, the rectifier 50 rectifies the volume control pulse of the microcomputer 60 and outputs the DC voltage. The microcomputer 60 outputs the volume control pulse having a different pulse width according to the operation of the volume control key of the remote controller.

Therefore, when a high level is applied to the switching terminal S / W, the volume control voltage of the sound integrated device 70 controls the volume by applying the DC voltage of the rectifier 50. In this case, the DC voltage of the rectifier 50 is a remote controller. If the volume control keys, such as the like, are not operated, the volume control field having a constant pulse width is output, and thus the DC signal becomes a constant DC voltage, so that the audio signal of the sound integrated device 70 is output at a fixed volume level.

As such, when the 'high level' is applied to the switching terminal S / W, the voice volume of the sound integrated device 70 is adjusted by the volume control pulse generated from the microcomputer 60, and the switching terminal S / W is applied to the switching terminal S / W. When the low level is applied, the sound volume of the integrated device 70 is automatically adjusted to the external sound signal size detected through the microphone (MIC), so that the voice volume control function, which has been manually adjusted in the past, is automatically adjusted according to the external sound pressure conditions. It can be adjusted.

As described above, according to the present invention, the voice volume of the sound integrated device can be manually adjusted according to the volume control pulse output of the microcomputer, and the voice volume is automatically adjusted according to the external sound pressure condition. The effect is that the audio signal can be heard at the optimal volume without any manipulation.

Claims (3)

In an audio output circuit configured to convert the volume control pulse of the microcomputer 60 into a DC voltage by the rectifying unit 50 to be applied to the volume control voltage of the sound integrated device 70, an external audio signal input to the microphone MIC is received. A low pass filter 10 for converting the DC voltage, an amplification unit 20 for amplifying the DC voltage output of the low pass filter 10, and a noise included in the DC voltage amplified by the amplifier 20 The volume control voltage of the sound integrated device 70 is selected by selecting the noise removing unit 30, the output voltage of the noise removing unit 30, and the output voltage of the rectifying unit 50 as the switching voltages of the switching terminals S / W. Automatic voice signal output control circuit according to the ambient sound pressure constituting the switching unit 40 to be applied to. 2. The amplifier of claim 1, wherein the amplifier 20 includes a transistor Q1 for amplifying the output voltage of the low pass filter 10 and a transistor Q2 for amplifying the output voltage of the transistor Q1. Automatic voice signal output control circuit according to the ambient sound pressure. The switching unit 40 of claim 1, wherein the switching unit 40 applies the output voltage of the noise removing unit 30 to the emitter of the transistor Q3 and the output voltage of the rectifying unit 50 is applied to the collector of the transistor Q4. The switching voltage of the switching terminal S / W is applied to the base of the transistors Q3 and Q4, and the output of the transistors Q3 and Q4 is applied as the volume control voltage of the sound integrated device 70. Automatic voice signal output control circuit according to the surrounding sound pressure, characterized in that the connection configuration.

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