KR940000664Y1 - Left-light ballance control circuit of audio signal - Google Patents

Abstract

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Description

Audio signal left and right balance control circuit

1 is an audio signal left and right balance according to the present invention.

* Explanation of symbols for main parts of the drawings

10: power supply 20: signal generating circuit

21: signal generator 22: delay unit

23: switching unit 30: control circuit

31: comparison unit 32: control unit

33: output control unit 40: distribution unit

DR1: Driver M: Motor

G: Gear IC: Controller

L, R: Audio output terminals Q1 to Q6: Transistor

C1 to C3: Capacitor D1: Diode

D2: Zener Diode VR1: Variable Resistor

The present invention relates to an audio signal left and right balance control circuit. More specifically, in an audio device, a test signal is used to check a control state of the left and right audio signals so that the level of the left and right audio signals is balanced at all times during early driving. The present invention relates to an audio signal left and right balance control circuit.

Most of the current audio devices employ a stereo type in which left and right audio signals are separated and output.

In the case of listening to the stereo type audio, the left and right audio signal levels can be adjusted according to the position of the user with respect to the audio device. However, in general, the left and right audio signals are balanced to each other. The time may be referred to as the reference point of the audio signal level adjustment.

In such a conventional audio device, if the user turns the audio device off and then on again after adjusting the left and right audio levels, the left and right audio signals remain in the adjusted state before turning off.

That is, when the user turns on the audio device, if the position of the audio device or the user's position is different from the previous position where the left and right audio signals are adjusted, the output of the audio device is in a state suitable for the user to listen to. You won't be able to keep it.

Therefore, the user has to adjust the level of the left and right audio signal again, especially when the audio device is driven by the remote controller. In most cases, the audio device and the user are located at a far distance from each other. There was a problem that gives inconvenience.

This invention is designed to solve these problems, and the purpose of this design is to left. The present invention provides an audio signal left and right balance control circuit capable of detecting a level of left and right audio signals by comparing a right audio signal using a comparison unit. In addition, another object of the present invention is to provide an audio signal left and right balance control circuit which allows the level of the left and right audio signals to be compared during initial driving of the audio using a delay unit.

In addition, another object of the present invention is to provide an audio signal left and right balance control circuit for outputting a test signal so that the left and right audio signals can be compared during initial driving, and to prevent noise from being output through the speaker when the test signal is generated.

In addition, another object of the present invention is to provide an audio signal left and right balance control circuit to adjust the level of the left and right audio signal according to the level of the left and right audio signals compared through the comparison unit.

Features of the audio signal left and right balance control circuit according to the present invention for achieving this purpose, a power supply for outputting drive power, a signal generation circuit connected to the power supply, outputting a predetermined time test signal, and the signal A distribution unit connected to the generation circuit and the audio output terminal, the distribution unit for distributing and outputting a test signal of the signal generation circuit and an audio signal of the audio output terminal to a variable resistor. And a control circuit connected to the distribution unit and the signal generation circuit and controlling the variable resistor for driving under the control of the signal generation circuit and comparing the output of the distribution unit.

Hereinafter, a preferred embodiment of an audio signal left and right balance control circuit according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an audio signal left and right balance control circuit according to the present invention, and is composed of a power supply unit 10, a signal generation circuit 20, a distribution unit 40, and a control circuit 30. As shown in FIG.

Specifically, the power supply unit 10 is made in the same manner as the conventional one, and is composed of a transformer (T), a bridge diode (BD) for rectifying an AC voltage, a smoothing capacitor (C3), and a controller (IC). have.

On the other hand, the signal generation circuit 20 is for outputting a predetermined time test signal, and is composed of a signal generator 21, a delay unit 22 and a switching unit 23.

In this case, the signal generator 21 is for outputting a test signal, and outputs a sine wave when power is applied from the power supply unit 10.

In addition, the delay unit 22 is to delay and output the output of the power supply unit 10, and is composed of a charge / discharge capacitor C2 and a zener diode D2 to charge the capacitor C2. And delay the input power according to the driving time of the zener diode D2.

In addition, the switching unit 23 is connected between the signal generator 21 and the control circuit 30 to control the power applied to the signal generator 21 and the control circuit 30, It consists of switching transistors Q3 and Q4.

On the other hand, the distribution unit 40 is for distributing the test signal of the signal generation circuit 20 and the left and right audio signals applied from the audio output terminals (L, R), the signal generator 21 and the left and right audio The variable resistor VR1 is connected to the output terminals L and R.

On the other hand, the control circuit 30 is for adjusting the variable resistance (VR1) by comparing the output of the distribution unit 40, and consists of a comparator 31, the control unit 32 and the output control unit 330 It is.

At this time, the comparison section 31 is for comparing the output of the distribution section 40, and is composed of a conventional differential amplifier consisting of transistors Q5 and Q6.

In addition, the comparison unit 31 is driven by the power of the power supply unit 10, the power supplied from the power supply unit 10 is configured to be controlled only by the switching unit (23).

The controller 32 adjusts the variable resistor VR1 according to the output of the comparator 31, and outputs a predetermined voltage according to the output of the comparator 31. Is connected to the motor (M).

In addition, the adjusting unit 32 is connected to a gear G made of a gear or the like to operate the variable resistor VR1 using the motor M.

The output controller 33 connects the transistors Q1 and Q2 driven by the output of the distribution unit 40 between the distribution unit 40 and the main amplifier. In the main AMP, the outputs of the distribution unit 40 are not restrained when the transistors Q1 and Q2 are driven.

At this time, the non-description code diode D1 is for preventing the reverse current and the capacitor C1 is for smoothing.

The audio signal left and right balance control circuit of the present invention made as described above prevents the audio signals of the audio output terminals L and R from being output for a predetermined time when power is applied from the power supply unit 10.

In this case, the power output from the power supply unit 10 does not apply a break-down voltage to the zener diode D2 while charge is charged in the capacitor C2 of the delay unit 22. 30 cuts off the power supply of the power supply unit 10.

However, the signal generator 21 outputs a test signal such as a sine wave since the power of the power supply 10 is applied.

In addition, the signal generator 21 divides the test signal differently according to the resistance value of the variable resistor VR1 configured in the distribution unit 40 so that the potential of the contact point A is relative to the potential of the contact point B. FIG. Is high or the potential of the contact point B becomes relatively higher than the potential of the contact point A. FIG.

Of course, if the variable resistor VR1 is adjusted to balance the left and right audio signals output from the audio output terminals L and R, the potentials of the contacts AMB will be equal to each other.

In this case, the potentials of the contacts A and B are compared in the differential amplifiers of the comparison unit 31 and applied to the driver DR1, so that the driver DR1 has a voltage corresponding to the potential difference between the contacts A and B. Is applied to the motor (M) to drive the motor (M).

Accordingly, the motor M adjusts the variable resistor VR1 by moving the gear G so that the potentials of the contacts A and B by the distribution unit 40 are equally adjusted so that the left and right audio signals are adjusted. It is to balance.

At this time, when the potentials of the contacts A and B are applied to the main amplifier as they are, a "loading" noise occurs in the speaker, but the test signal of the signal generator 21 is output between. The transistors Q1 and Q2 of the controller 33 are driven to prevent the test signal from being applied to the main amplifier.

When a predetermined time elapses while the capacitor C2 charges the electric charge, a break-down voltage is applied to the zener diode D2, and thus the zener diode D2 becomes conductive.

The power applied through the zener diode D2 drives the transistors Q3 and Q4 of the switching unit 23.

The transistor Q3 cuts off the power applied to the signal generator 21 from the power supply 10, and the transistor Q4 is connected to the comparator 31 from the power supply 10. The driving of the signal generator 21 and the comparator 31 is stopped by cutting off the applied power.

Accordingly, since the control unit 32 and the output control unit 33 also stop driving, the left and right audio signals applied through the audio output terminals L and R are adjusted in such a way that the left and right audio signals are balanced. Is applied to the main amplifier.

Since the main amplifier amplifies an audio signal and applies it to a speaker, the user can hear stereo sound balanced in the left and right audio signals when the audio is initially driven.

That is, the present invention allows the signal generator 21 to apply the test signal to the distributor 40 by the delay unit 22, and then compares the output of the distributor 40 with the delay unit 22. In comparison, the control unit 32 adjusts the variable resistor VR1 to balance the left and right audio signals during initial driving of the audio device.

Claims (8)

A power supply unit 10 for outputting driving power, a signal generation circuit 20 connected to the power supply unit 10 and outputting a test signal for a predetermined time, the signal generation circuit 20 and an audio output terminal L; And a distribution unit 40 connected to R, for distributing and outputting a test signal of the signal generation circuit 20 and an audio signal of the audio output terminals L and R to the variable resistor VR ₁ . The control unit is connected to the distribution unit 40 and the signal generation circuit 20, and controls the variable resistor VR _{1 by} driving under the control of the signal generation circuit 20 and comparing the output of the distribution unit 40. Audio signal left and right balance control circuit, characterized in that consisting of a circuit (30). The signal generation circuit of claim 1, wherein the signal generation circuit 20 is connected to the power supply unit 10, and outputs a test signal using a power supply of the power supply unit 10. It is connected to the power supply unit 10, the delay unit 22 for delaying the power of the power supply unit 10, and is connected between the signal generator 21 and the control circuit 30, the delay unit 22 Audio signal left and right balance control circuit consisting of a switching unit 23 for controlling the power applied to the signal generator 21 and the control circuit 30 in accordance with the power of. According to claim 1, wherein the control circuit 30 is connected between the switching unit 23 and the distribution unit 40, driving under the control of the switching unit 23 of the distribution unit 40 The comparator 31 comparing the output and the comparator 31 and the variable resistor VR ₁ are connected to each other and adjust the variable resistor VR ₁ according to the output of the comparator 31. An output control unit synchronously connected to the unit 32 and the signal generator 21 and the distributor 40 to control the output of the signal generator 21 according to a test signal of the signal generator 21. Audio signal left and right balance control circuit composed of (33). 3. The Zener diode of claim 2, wherein the delay unit 22 is a charge / discharge capacitor C ₂ connected to the power supply unit 10, and a switching zener diode D ₂ connected to the capacitor C ₂ . Audio signal left and right balance control circuit. The method of claim 2, wherein the switching unit (23) for two switching coupled to the delay unit 22, the transistor (Q _3, Q _4), the left and right audio signal balance control circuits consisting of. The method of claim 3, wherein the comparison unit 31, the two transistors (Q _5, Q _6), left and right audio signal consisting of a differential amplifier consisting of a balance control circuit. 4. The motor of claim 3, wherein the controller 32 drives the driver DR ₁ to output a predetermined voltage according to the output of the comparator 31, and a motor driven according to the output voltage of the driver DR ₁ . And a gear (G) for adjusting the variable resistance (VR ₁ ) according to the rotation of the motor (M). The distribution controller of claim 3, wherein the output controller 33 is connected between the signal generator 21 and the distributor 40, and is driven according to a test signal of the signal generator 21. An audio signal left and right balance control circuit composed of two transistors Q ₃ and Q ₂ controlling the output of the 40.