JPH0648980Y2 - ALC circuit - Google Patents

Description

[Detailed Description of the Invention] (a) Industrial Application Field The present invention relates to an ALC (automatic level control) circuit.

(B) Conventional technology An ALC circuit is usually used when converting a signal of which amplitude changes into a signal of a constant level like a recording circuit of a tape recorder. The characteristic of the input signal to the output signal of the ALC circuit is generally as shown by the solid line (a) in FIG. In the case of the ALC circuit using the variable gain amplification circuit, the variable gain amplification circuit operates at the maximum gain until the level of the input signal reaches a predetermined value (V ₁ ) and the level of the input signal is When the value is equal to or higher than the value (V ₁ ), the gain of the variable gain amplifier circuit gradually decreases according to the level of the input signal, and an output signal of a constant level is obtained.

(C) Problems to be Solved by the Invention However, with the input / output characteristics as shown by the solid line (a) in FIG. 2, when the input signal of a predetermined value (V ₁ ) or more is applied, the level of the output signal is Since it becomes constant, there is a problem that it is unnatural in terms of hearing. Recently, various kinds of software (compact discs, etc.) are commercially available, but some of them are recorded at a very good recording level. When applying ALC to such software, In many cases, an input signal of the predetermined value (V ₁ ) or more arrives, and at this time, if the level of the output signal is constant,
It was a hearing problem.

(D) Means for Solving the Problems The present invention has been made in view of the above points, and an adjusting circuit that adjusts the level of an input signal according to a control signal, an output signal of the adjusting circuit, and a reference power source. And a smoothing circuit for smoothing the output signal of the comparing circuit, and a first adjusting circuit for the adjusting circuit according to the output signal of the smoothing circuit. A control circuit that applies a second control signal to the reference power source, and the value of the reference power source is continuously changed according to the second control signal. To do.

(E) Operation According to the present invention, the value of the reference power source of the comparison circuit is continuously changed according to the output signal of the comparison circuit.
Even if an input signal having a level higher than the start level of C is applied, the level of the output signal can be gradually increased according to the level of the input signal.

(F) Embodiment FIG. 1 is a circuit diagram showing an embodiment of the present invention. (1) is a variable gain amplifier circuit for amplifying an input signal from an input terminal (2), and (3) is the variable gain. A buffer for deriving an output signal of the amplifier circuit (1) to an output terminal (4), ( 5 ) first and second transistors (6) and (7) having emitters commonly connected, and the first and second A constant current source (8) connected between the common emitters of the transistors (6) and (7) and ground; a bias source (9) connected to the base of the first transistor (6); A current mirror circuit ( 10 ) connected between the collectors of the first and second transistors (6) and (7), and connected between the emitter of the second transistor (7) and the constant current source (8). Resistance (5
And a reference power supply ( 11 ) composed of (0) and a comparison circuit for comparing the base voltage of the second transistor (7) constituting the reference power supply ( 5 ) with the output signal branched from the output terminal (4), 12 ) is a current mirror circuit for inverting the output current of the third transistor (13) which constitutes the comparison circuit ( 11 ),
( 14 ) is a smoothing circuit that smoothes the output current of the current mirror circuit ( 12 ), and (15) supplies a current according to the output voltage of the smoothing circuit ( 14 ) to the input end of the current mirror circuit ( 16 ). A transistor, and (17) is the current mirror circuit ( 16 )
Of the variable gain amplifier circuit (1) according to the output current of the
And a second control signal to the reference power source ( 5 ).

In FIG. 1, an input signal applied to an input terminal (2) is amplified by a variable gain amplifier circuit (1) and then led to an output terminal (4) via a buffer (3). At that time,
A part of the signal derived to the output terminal (4) is branched and applied to the base of the transistor (13) of the comparison circuit ( 11 ). Then, it is compared with the base voltage of the second transistor (7) of the reference power source ( 5 ), and a current corresponding to the difference flows into the current mirror circuit ( 12 ). Then, the collector (18) is charged according to the current, and the current according to the charging voltage flows into the collector of the transistor (15), which is inverted by the current mirror circuit ( 16 ) and is then controlled by the control circuit (17). Is supplied to. Then, the control circuit (17) applies the first control signal to the variable gain amplifier circuit (1) according to the supplied current, and adjusts the gain.

Now, assuming that the input signal is gradually increased from zero, until the predetermined value (V ₁ ) is reached as shown by the solid line (b) in FIG.
The transistor (13) of the comparison circuit ( 11 ) does not turn on and the current mirror circuit ( 12 ) stops operating. Therefore, the capacitor (18) is not charged and the operation of the current mirror circuit ( 16 ) is stopped, so that the control circuit (17) does not generate a control signal. Therefore, the input signal is amplified by the maximum gain of the variable gain amplifier circuit (1) and is led to the output terminal (4). Then, when the input signal level reaches the above-mentioned V ₁ , the transistor (13) of the comparison circuit ( 11 ) starts to turn on, current flows through the current mirror circuit ( 12 ), and the capacitor (18) is charged. . Then, the current corresponding to the charging voltage of the capacitor (18) produces a current mirror circuit ( 16 ).
To the flow control circuit (17). Then, the control circuit (17) responds to the supplied current by the transistor (19).
Variable gain amplifier circuit (1)
However, since the magnitude of the first control signal increases in accordance with the level of the input signal, the level of the output signal is controlled so as to be substantially constant in the range where the input signal level is V ₁ or higher. To be done.

By the way, the input signal level becomes V ₁ or higher and the control circuit (1
When current is supplied to 7), the transistor (20) in the control circuit (17) starts to turn on. The reference power source ( 5 ) is
When the transistor (20) is off, Vref + R
· I _0/2 (although, Vref is the bias source (9), the resistance value of R is the resistance (50), I ₀ is a constant current source (current value 8)) based voltage of the second transistor (7) Has occurred in
When the transistor (20) starts to turn on, the resistance (50)
Of voltage increases, and the base voltage of the second transistor (7) increases accordingly. Then, the output current of the comparison circuit ( 11 ) decreases and the charging of the capacitor (18) decreases, so that the level of the first control signal generated from the control circuit (17) is originally (reference power source ( 5 )). Value)
It is lower than the value of. Then, the variable gain amplifier circuit (1)
The decrease in the gain is slowed down, and the input signal is increased at a predetermined amplification factor. On the other hand, at the same time, the level of the second control signal also decreases, but there is no problem because the change of the second control signal is originally fine. After that, when the level of the input signal is further increased,
The same operation as above is performed by the comparison circuit ( 11 ), control circuit (17),
The variable gain amplifier circuit (1) and the reference power source ( 5 ) perform, and the level of the output signal increases as shown by the solid line (b) in FIG.

Here, the slope of the characteristic shown by the solid line (b) in FIG.
The transistors (19) and (2 that form the control circuit (17)
It can be arbitrarily changed by the value of the resistor connected to the emitter of (0).

Therefore, according to the ALC circuit of FIG. 1, the ALC which gradually increases after the predetermined value (V ₁ ) as shown by the solid line (b) of FIG.
It can exhibit characteristics.

Although the variable gain amplifier circuit is used as the means for adjusting the level of the input signal in the embodiment of FIG. 1, the present invention is not limited to this. For example, the input signal is bypassed by a transistor. It is also possible to use an adjusting means for adjusting.

(G) Effect of the Invention As described above, according to the present invention, the value of the reference power source of the comparison circuit that performs ALC detection is continuously changed according to the level of the detected input signal. It is possible to provide an ALC circuit capable of gradually increasing the level of the output signal even when the level of the input signal exceeds a predetermined value (V ₁ ).

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, and FIG.
It is a characteristic view showing an ALC characteristic. (1) ... Variable gain amplifier circuit, ( 5 ) ... Reference power source, ( 11 )
… Comparison circuit, (17)… Control circuit.

Claims (2)

[Scope of utility model registration request] 1. An adjustment circuit for adjusting the level of an input signal according to a control signal, and an output signal of the adjustment circuit and a reference power source are compared in level,
A comparison circuit that generates an output signal according to the difference, a smoothing circuit that smoothes the output signal of the comparison circuit, and a first control signal to the adjustment circuit according to the output signal of the smoothing circuit, and the reference power supply. And a control circuit for applying a second control signal to the ALC circuit, wherein the value of the reference power source is continuously changed according to the second control signal. 2. The reference power source includes first and second transistors having emitters commonly connected, a constant current source connected between a common emitter of the first and second transistors and ground, and the first power source. A bias source connected to the base of the transistor, a current mirror circuit having an input end connected to the collector of the first transistor and an output end connected to the collector of the second transistor, an emitter of the second transistor and the constant current A resistor connected between the source and a constant current source, a second control signal is applied to a connection point between the resistor and the constant current source, the second transistor is configured as a diode connection type, and a reference voltage is applied from a base of the second transistor. The ALC circuit according to claim 1, wherein the ALC circuit is derived.