KR890007291Y1 - Auto control circuit of amplifier output level - Google Patents

Abstract

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Description

Automatic control of amplifier output level of sound equipment

1 is a conventional circuit diagram.

2 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

A: Amplifier B: First differential amplifier

C: second differential amplifier

The present invention relates to the automatic adjustment of the amplifier output level of an acoustic device, and in particular, to control the magnitude of the signal applied to the input of the amplifier by comparing and detecting the level of the reference level set with the differential amplifier and the signal output to the amplifier. Therefore, the present invention relates to the configuration of an automatic output device for the amplifier output level of an acoustic device that enables automatic level adjustment.

As shown in FIG. 1, in the conventional apparatus for automatically adjusting the amplifier output level of an acoustic device, the output signal V ₀ of the amplifier A ₃₀ is blocked by the DC component through the capacitor C ₃₂ to prevent the diode D ₃₁ . Half-wave rectified by the capacitor C ₃₃ and the resistor R ₃₅ , and the DC voltage indicated at the point A is divided by the resistors R ₃₁ and R ₃₂ and applied to the base of the transistor Q ₃₁ . chopping Ars of (Q ₃₁₎ - When this emitter conduction voltage or more that is, the amplifier (a _30), the power to be output is exceeded, the transistor (Q ₃₁₎ is turned on is applied to the amplifier (a ₃₀₎ according to the power (+ Vcc) A part of the current ISIALC is bypassed to ground via the resistor-R ₃₃ and the collector-emitter of transistor Q ₃₁ , resistor R ₃₄ , so that current flowing into amplifier A ₃₀ is passed. Since the amount of (IS) is reduced and the amplification degree is lowered, the level of output voltage is controlled.

However, since the conventional circuit operates unconditionally when the base-emitter voltage of the transistor Q ₃₁ is greater than 0.6 V, the voltage level cannot be changed, and the operation of the transistor Q ₃₁ becomes unstable because there is no compensation for temperature. According to the correct level automatic adjustment was not possible because of the problem that the reliability of the device was lowered.

In order to solve this problem, the present invention allows the amplifier output level automatic control device of an acoustic device to be able to vary the voltage level to automatically adjust, and to perform a stable operation of the characteristic change according to the temperature. In order to increase the reliability, first, the configuration of the present invention will be described with reference to FIG.

The collector of transistor Q ₉ , the reference level of which is input to the base, and the transistor Q ₈ , of which the output signal of the amplifier A is input to the base, is grounded, and the emitter is current through diodes D ₁ and D ₂ , respectively. Connect to the base of transistors Q ₃ and Q ₅ with emitters connected to the collectors of transistors Q ₁ and Q ₂ 0 constituting the miller, the collector of transistor Q _{3 being} grounded through transistor Q ₄ In addition, the collector of transistor Q ₅ is grounded through transistor Q ₆ and diodes D ₃ and D ₄ , and the base of transistor Q ₆ is grounded through transistor Q ₇ to first differential amplification. the transistors constituting the unit, and ever constituting the (B) emitter current mirror of the first differential amplifier section (B), a transistor (Q _7), the collector, but connected to the base of the transistor (Q ₁₇₎ transistor (Q ₁₇₎ of the Differential output transistors (Q ₁₂ , Q ₁₅ O) and temperature compensation for (Q ₁₃ , Q ₁₄ ) Above transistor transistor (Q ₁₀₎ of the (Q _11, Q _16), a second differential amplifier unit (C) which is the emitter of the is connected to the collectors in common, it consists of an emitter grounded transistor (Q ₁₀₎ constituting the base The transistor (Q ₁₅ ) base of the second differential amplifier (C) is connected to the input of the amplifier (A) to which the signal to be amplified through the resistor (R ₈ ) is input.

In the figure, reference numeral Vcc is a power supply, D ₁ D ₅ is a diode, R ₁ -R ₇ is a resistor, C ₁ is a capacitor.

As shown in FIG. 2, the effect of the present invention is to set a voltage at which the reference level is a predetermined level to adjust the output level of the amplifier (A) in the base of the transistor (Q ₉ ) of the first differential amplifier (B). Is applied.

And since the base of the transistor (Q ₈₎ it is applied the output of the amplifier (A) When the voltage applied to the base of the transistor (Q ₈₎ becomes larger than the reference voltage applied to the base of the transistor (Q ₉₎ of transistor emitter -The current through the collector decreases.

Therefore, the current flowing from the power supply Vcc to the transistors Q ₂ , Q ₅ and Q ₆ , the diodes D ₃ and D ₄ , and the ground is reduced.

At this time, a constant current flows through the transistor Q _{2 due} to the current mirror action of the transistor Q ₁ , the resistor R ₁ , and the diode D ₅ .

Therefore, transistor (base emitter voltage + diode of the transistor (Q _6), (D _3, D _4), the voltage across) the base voltage of (Q ₆₎ and to the reduction, the previous pressure is caught by the base of the transistor (Q ₁₇₎ When the collector-emitter conduction voltage of the transistor Q ₁₇ is equal to or greater than the transistor Q ₁₀ , the transistor Q ₁₀ is turned on.

When the transistor Q ₁₀ is turned on, current flows from the power supply Vcc to the resistor R ₇ and the ground through the resistor R ₄ , the transistors Q ₁₃ , Q ₁₂ , Q ₁₁ , and Q ₁₀ .

Therefore, current flows to the resistor R ₅ , the transistors Q ₁₄ , Q ₁₅ , Q ₁₆ and Q ₁₀ , the resistor R ₇ and the ground by the current mirroring action of the transistors Q ₁₃ and Q ₁₄ . A portion of the signal input to the amplifier via R ₈ flows into the base-emitter of transistor Q ₁₅ , transistors Q ₁₆ and Q ₁₀ , and resistor R ₇ ground.

That is, since the magnitude of the signal input to the amplifier is reduced, the output of the amplifier is reduced. In other words, when the output voltage level of the amplifier A becomes larger than the reference level applied to the transistor Q ₉ base of the first differential amplifier B, a large portion of the signal input by the amplifier Q is transmitted to the transistor Q ₁₅ . Bypassing the amplifier reduces the size of the input signal to reduce the size of the output to the set reference level.

And if the output of the amplifier (a) is to be the opposite to the above.

The base of there is grounded through the emitter of the transistor (Q ₁₆₎ of the transistor (Q ₁₅₎ in the subject innovation transistor (Q ₁₆₎ - the collector is connected, so the transistor (Q ₁₆₎ is to have a diode characteristic between the diode according to the temperature rise As the voltage increases, the influence of the transistor Q ₁₅ due to the temperature rise is compensated for.

In this way, the amplifier output level automatic control device of the sound equipment according to the present invention can conveniently change the desired output level of the amplifier according to the setting of the reference level, convenient, temperature compensation can perform a stable operation for the device It is possible to increase the reliability.

Claims (1)

In the differential amplifier, the collectors of transistors Q ₉ , in which the reference level is input to the base, and transistors Q ₈ , in which the output signals of the amplifiers A are input, are grounded, and the emitters are diodes D ₁ , D, respectively. ₂ ) is connected to the base of the transistors (Q ₃ , Q ₅ ) where the emitter is connected to the collectors of the transistors (Q ₁ , Q ₂ ) constituting the current mirror, and the collector of the transistor (Q ₃ ) is the transistor (Q ₄ ) Ground through, the collector of transistor Q ₅ is grounded through transistor Q ₆ and diodes D ₃ and D ₄ , and the base of transistor Q ₆ is grounded through transistor Q ₇ , a first differential amplifier section (B), and the ever driven, the first differential transistor (Q _7), the collector of the amplifier section (B) is, but connected to the base of the transistor (Q _17), the emitter current of the transistor (Q ₁₇₎ The transistors constituting the Miller (Q ₁₃ , Q ₁₄ ) and the differential output transistor (Q ₁₂ , Q ₁₅ ) and a second differential amplifier (C) configured to be connected to a collector of transistor Q ₁₀ having an emitter grounded in common to transistors Q ₁₁ and Q ₁₆ constituting the temperature compensation circuit. transistor (Q ₁₀₎ and connected to the base, a second differential amplifier unit (C) transistor (Q _15), a base amplifier (a) amplifier output level of the sound device connected to the signal input terminal through a resistor (R _8), but connected to the input of Automatic regulator.