KR100529493B1 - Mute circuit of audio amplifier - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mute circuit of an audio device, wherein a bipolar transistor which controls a mute signal by a microcomputer to reduce noise in a signal line and sends it to a speaker, and a resistor and a capacitor connected in parallel with each other are connected to a base and an emitter of the bipolar transistor. It is configured to be connected between. Since the mute circuit of the audio device includes a RC circuit, the noise generated when the receiver is turned on, such as by changing the resistance size and the capacitor capacity according to the characteristics of the RC circuit, increasing the mute time by adjusting the time constant. It effectively removes the sound so that you can hear clean sound.

Description

Mute circuit of audio amplifier

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mute circuit of an audio device, and more particularly to a mute circuit of an audio device used in an AV system of a vehicle to adjust noise.

 As time spent in the car increases due to weekend leisure activities due to long commute and five-day workweek increase, the use of in-vehicle AV system is increasing, and the demand for car video and audio is increasing due to the market expansion. . In addition, due to the characteristics of the vehicle, there is a need for a high-performance and miniaturized automobile display device capable of receiving good image quality even in weather conditions such as vehicle shaking or bad weather conditions. Accordingly, technical efforts to improve image quality and sound quality continue.

 For example, an FM television tuner is a device that tunes an RF signal received from an antenna and converts it into a video and audio signal of a predetermined size, and can use it to listen to FM radio as well as high definition television.

It also uses a stereo chip to listen to TV and FM radio in Hi-Fi Stereo, and is fully compatible with many multimedia programs (Adobe Premiere, Net Meeting, etc.) It supports screens and slides, so you can watch multiple channels simultaneously or split one channel. And it can also take advantage of external video such as video, video cameras, game consoles, and still images. It can save video and can be easily used in many applications.

 The mute circuit mutes the voice signal to prevent the voice signal from being applied to the speaker during the switching time of selecting the best antenna when receiving the diversity antenna from the vehicle, thereby preventing noise from being mixed in the voice output through the speaker. In AV system, it plays a role of muting noise generated when power is turned on / off.

In other words, if the automatic muting device is installed in the AV system, in case of poor reception during broadcast reception, the sound output is automatically removed to eliminate the inconvenience of listening to noise. This output allows the user to provide high quality service and convenience. In addition, in case of portable or car audio, the sound output is automatically controlled when moving into the hearing loss area to prevent user's discomfort due to noise, and when the tuner broadcast is recorded to the recording device in real time, it detects bad reception and prevents noise recording. Can be.

FIG. 1 is a circuit diagram of a mute circuit of an audio device according to the prior art, and the operation of the circuit will be described with reference to FIG. 1.

  The mute signal of the mute circuit composed of the bipolar transistor 30 is controlled by the microcomputer unit 50 before the voice signal output from the tuner goes to the speaker 20.

 That is, when noise occurs in the signal line 10, the bipolar transistor 30 of the mute circuit is turned on by the microcomputer unit 50 so that the voice signal of the signal line 10 is turned on. 30 to ground to prevent noise from being generated in the speaker 20.

On the other hand, if the noise is good in the signal line 10, the microcomputer unit 50 turns off the bipolar transistor 30 of the mute circuit to directly output the audio signal from the signal line 10 to the speaker 20. Will be sent to.

However, the mute circuit of the conventional audio device generates a mute time in the signal line 10 because the mute time is too short to cancel the mute circuit by turning on the mute circuit in the microcomputer unit 50 when powering on a receiver such as a car audio. In order to sufficiently eliminate the noise, the voice signal is sent to the speaker 20 without the noise processing in the mute circuit, which is insufficient for high quality listening.

In particular, in the case of car audio, the noise generated when the moving area is a hearing loss area is more severe, which causes the user to be more uncomfortable due to poor reception.

The present invention has been made to solve the above problems of the prior art, the object of which is to increase the mute time by adding the RC delay circuit to the mute circuit of the audio device noise generated when powering on the receiver, such as car audio It is enough to remove noise to provide good sound quality.

The present invention for achieving the above object is to configure the RC circuit by connecting the resistor and the capacitor in parallel between the emitter and the base of the bipolar transistor of the mute circuit to convert the resistance value and the capacitor capacity in accordance with the characteristics of the RC delay circuit to reduce the delay circuit time By increasing the mute time sufficiently, the noise generated from the signal line can be prevented to provide clean sound quality in receivers such as car audio.

In the mute circuit of the audio device according to the present invention for solving the above problems is a mute circuit of the audio device comprising a bipolar transistor to control the mute signal by the microcomputer to reduce the noise in the signal line to send to the speaker, the bipolar transistor The means for increasing the RC time constant is installed between the base and the emitter.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the mute circuit of the audio device according to the present invention, as shown in FIG. 2, the collector is connected to the signal line 10, the emitter is grounded, and the resistor 40 and the microcomputer 50 are connected in series. A mute signal is input to the base having a microcomputer 50, and the resistor 43 and the capacitor 44 connected in parallel with the bipolar transistor 30, which reduces noise in the signal line 10 and sends it to the speaker 20. ) Is connected between the base and the emitter of the bipolar transistor 30.

Here, the microcomputer 50 is a one-chip microcontroller with a variety of I / O is built in the role of controlling a constant mute signal output in a small volume and simple configuration without a large modification to a separate conventional system.

In addition, the resistor 41 and the capacitor 42 connected in parallel with the bipolar transistor 30 between the base and the emitter of the bipolar transistor 30 constitute the RC circuit together with the resistor R1 connected to the base.

Since the time constant τ of the RC circuit is R * C which is the product of the resistance value R and the capacitor capacitance value C, the time constant value in the present invention is as follows.

 τ = R '* C = (R1 // R2) * C = {(R1 * R2) / (R1 + R2)} * C

The time constant τ can be changed by adjusting R 'and C, and the delay time can be sufficiently increased by increasing the time constant τ.

Accordingly, the present invention, in which the delay time can be adjusted by increasing the time constant according to the characteristics of the RC circuit, can increase the mute time according to the increase of the delay time compared to the existing invention to effectively mute the noise generated when turning on the power of the AV system. have.

The microcomputer unit 50 compares the audio signal in the signal line with a predetermined amount of reference output strength indicating even sound quality, and according to the comparison value, the microcomputer unit 50 generates and maintains a constant audio signal output. The bipolar transistor 30 constituting the mute circuit is turned on / off.

As a result, the RC circuit in the mute circuit increases the delay time by adjusting the time constant to more efficiently remove noise by the mute circuit, which has been a problem in the prior art, and thus causes the signal output to be unstable at power-on of the acoustic device. It is aimed to prevent noise from the speaker 20, so that the user can always hear clean sound quality even while driving.

Hereinafter, a detailed operation will be described with reference to the accompanying drawings of the present invention.

FIG. 2 is a circuit diagram illustrating a mute circuit of an audio device according to the present invention. First, a voice signal tuned by a tuner is input to a signal line connected to a speaker 20 through a signal line input unit 10, and the speaker 20 Before the voice signal is output, the microcomputer unit 50 compares the voice signal on the signal line with a predetermined amount of reference output strength indicating an even sound quality.

According to the comparison value, the microcomputer unit 50 turns on / off the bipolar transistor 30 constituting the mute circuit.

That is, when noise is generated in the signal line 10, the bipolar transistor in which the voice signal in the signal line 10 is turned on is turned on by turning on the bipolar transistor 30 of the mute circuit in the microcomputer unit 50. Flow through the emitter of 30 to ground prevents noise from being generated in the speaker 20.

On the other hand, if the noise of the signal line 10 is in a good state, the microcomputer unit 50 turns off the bipolar transistor 30 of the mute circuit to directly output the audio signal from the signal line 10 to the speaker 20. Will be sent to.

In the mute circuit, the delay time can be increased by adjusting the time constant of the RC circuit by changing the resistance size and the capacitor capacity in the RC circuit connected to the base part and the emitter part of the bipolar transistor 30.

That is, the RC circuit acts as a low pass filter to pass the low frequency region of clean sound quality and to block the noisy noise region so as to block noise more effectively than the prior art.

In addition, when the microcomputer unit 50 gives a mute signal, the C 44 of the RC circuit gradually turns on the noise of the signal line 10 due to the nature of the capacitor to charge and discharge the voltage. The bipolar transistor 30 may be turned off slowly until the noise is in a good state after flowing to the ground through an emitter.

As a result, a sufficient mute time can be secured, and thus, the noise in the signal line 10 can be more reliably removed, so that the sound quality of the speaker 20 can be heard more clearly.

As described above, the mute circuit of the audio device according to the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, and various modifications are made by those skilled in the art within the scope of the technical idea of the present invention. Of course, modifications can be made.

The mute circuit of the audio device according to the present invention configured as described above includes a RC circuit, and changes the resistance size and capacitor capacity according to the characteristics of the RC circuit to adjust the time constant of the RC circuit according to the delay circuit time increase. Increasing the mute time can effectively mute the noise generated when the AV system is powered on. This effectively removes the noise generated when turning on the car audio receiver during the increased mute time so that the sound quality can be heard clearly.

1 is a circuit diagram showing a mute circuit of an audio device according to the prior art;

2 is a circuit diagram showing a mute circuit of an audio device according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: voice signal input unit 20: speaker

30 bipolar transistor 40 resistor R1

41: resistance R2 42: resistance R3

43: resistor R4 44: capacitor

50: micom

Claims (3)

In the mute circuit of an audio device composed of a bipolar transistor to control the mute signal by the microcomputer to reduce the noise in the signal line to send to the speaker, And a means for increasing the RC time constant between the base and the emitter of the bipolar transistor, wherein the editor is connected to ground. The method of claim 1, Mute circuit of the audio device, characterized in that the resistor and the capacitor are connected in parallel to the base end of the transistor. delete