JP2522936B2 - Automatic loudness control circuit - Google Patents

Description

The present invention relates to an automatic loudness control circuit suitable for use in car radios, headphone stereos, and the like.

(B) Conventional technology As shown in the catalog of the headphone stereo "Budokan," an automatic loudness control circuit that improves the audibility by controlling the boost amount of the low-frequency component according to the output signal level of the power amplifier. It has been known. The automatic loudness control circuit has a structure as shown in FIG. 2, for example. In FIG. 2, the input signal is amplified by the preamplifier (1), then by the amplifier (2), and applied to the adder circuit (3). The low frequency component in the output signal of the preamplifier (1) is taken out by the low pass filter (4) and applied to the variable attenuation circuit (5). The variable attenuation circuit (5) includes a power amplifier (6)
Is controlled by the output control signal of the control circuit (7) which generates a control signal according to the level of the output signal of the above-mentioned (1) to attenuate the low frequency component. The output signal of the variable attenuation circuit (5) is amplified by the boost amplifier (8) and then applied to the addition circuit (3) to be added to the output signal of the amplifier (2). The output signal of the adder circuit (3) is applied to the power amplifier (6) via the volume (9), and the power amplifier (6)
Is applied to a load (10) such as a speaker or headphones.

It is generally known that boosting a low-frequency component in an input signal can produce a powerful sound in relation to human hearing characteristics, and can improve hearing. Since the circuit of FIG. 2 boosts the low-frequency component by the low-pass filter (4), the variable attenuation circuit (5) and the boost amplifier (8), it is possible to obtain a realistic sound. Moreover,
Since the control circuit (7) is provided and the boost amount is varied in accordance with the level of the output signal, more effective improvement of the listening feeling can be achieved.

(C) Problems to be Solved by the Invention However, the circuit configuration as shown in FIG. 2 has a problem that distortion occurs when the volume is reduced. That is, when the volume (9) is reduced, the output signal level of the power amplifier (6) decreases and the output signal of the control circuit (7) also decreases accordingly. Therefore, the amount of attenuation of the variable attenuation circuit (5) is minimized. In this state, input terminal (1
A large input signal is applied to 1) and a low pass filter (4)
When the output signal level of is increased, the low level component of high level is not attenuated by the variable attenuation circuit (5) and is applied to the boost amplifier (8) as it is, and the output signal of the boost amplifier (8) is It becomes saturated and distorted. This distortion was extremely offensive to the listener due to listening at a low volume, and greatly impaired the sense of hearing.

(D) Means for Solving the Problems The present invention has been made in view of the above points, and a control circuit for detecting the level of the output signal of the level control circuit and controlling the level control circuit is provided. Characterized by points.

(E) Operation According to the present invention, when a large input signal is applied in a state where the volume is reduced, the output signal level of the power amplifier is lowered, and the level control in the level control circuit is not performed, the control circuit Since the output of the level control circuit is detected by the above and the level control circuit is controlled, saturation does not occur in the boost amplifier and the distortion rate is improved.

(F) Embodiment FIG. 1 is a circuit diagram showing an embodiment of the present invention.
A first control circuit for detecting the output signal level of the power amplifier (6) and controlling the variable attenuation circuit (5); and (13) detecting the output signal level of the boost amplifier (8), It is a second control circuit for controlling (5).
The variable attenuator circuit (5) and the boost amplifier (8) form a level control circuit. In FIG. 1, the same circuits as those in FIG. 2 are designated by the same reference numerals, and the description thereof will be omitted.

When the output signal level of the power amplifier (6) is high, the output signal of the first control circuit (12) is high, the attenuation amount of the variable attenuation circuit (5) is high, and the input of the boost amplifier (8) is high. The signal becomes small. Therefore, the boost amplifier (8)
Also becomes small, and the ratio of the boosted low frequency component contained in the output signal of the adder circuit (3) becomes small. Therefore, the power amplifier (6) applies to the load (10) a signal whose low frequency range is not boosted so much.
When the output signal level of the power amplifier (6) decreases, the output signal of the first control circuit (12) decreases accordingly,
The amount of attenuation of the variable attenuation circuit (5) becomes small. Therefore, the input signal of the boost amplifier (8) becomes large, the output signal thereof also becomes large, and the ratio of the boosted low frequency component contained in the output signal of the adding circuit (3) increases. Therefore, the speaker as the load (10) can generate a realistic sound in which the low range is boosted.

When the volume (9) is reduced, the output signal level of the power amplifier (6) becomes extremely small, and the output signal of the first control circuit (12) does not occur. As a result, the variable attenuator circuit (5) is no longer attenuated, and the output signal of the low-pass filter (4) remains as it is in the boost amplifier (8).
Is applied to and amplified. Therefore, boost amplifier (8)
Of the boost amplifier (8) is detected by the second control circuit (13) and the control signal generated from the second control circuit (13) is variably attenuated. Since it is applied to the circuit (5) and is attenuated according to the control signal, the output signal level of the boost amplifier (8) becomes constant.

Therefore, as shown in FIG. 1, if the variable attenuation circuit (5) is controlled according to the output signal of the power amplifier (6) and the output signal of the boost amplifier (8), the volume (9) is reduced. Even when a large input signal is applied, saturation does not occur in the boost amplifier (8) and distortion does not occur.

FIG. 3 shows a specific circuit example of the low-frequency component boost circuit section of FIG. 1, in which the low-frequency component in the input signal applied to the input terminal (14) passes through the low-pass filter ( 15 ). ,
The impedance is converted by the amplifier (16). The output terminal of the amplifier (16) is connected via a resistor (17) to a variable attenuation circuit ( 22 ) composed of four diodes (18) to (21). And the diodes (18) to (21)
Has a first control circuit (12) applied to a control terminal (23)
A current flows according to the output signal of the diode (18)
The impedances of (21) to (21) correspond to the current. Therefore, the output signal of the amplifier (16) is divided by the resistance (17) and the impedances of the diodes (18) to (21) and applied to the boost amplifier (24). When the level of the output signal of the first control circuit (12) changes, the impedances of the diodes (18) to (21) also change, so that the voltage division ratio changes and attenuation corresponding to it changes.

While the output signal level of the power amplifier (6) is high,
Since the base voltage of the input transistor (25) becomes low and the current flowing through the input transistor (25) and the current inversion circuit becomes large, the current flowing through the diodes (18) to (21) increases and the amplifier (16) The output signal of is greatly attenuated. When the level of the output signal of the power amplifier (6) decreases, the current flowing through the diodes (18) to (21) decreases, the impedance of the diodes (18) to (21) increases accordingly, and the attenuation amount decreases. Decrease. When the level of the output signal of the power amplifier (6) becomes equal to or lower than a predetermined level, no current flows in the input transistor (25) and no current flows in the diodes (18) to (21), so that the power amplifier is turned off. Therefore, the damping operation is not performed and the amplifier (1
The output signal of 6) is directly applied to the boost amplifier (24). Therefore, when the level of the input signal is low, or when the volume (9) is sufficiently reduced, the variable attenuation circuit (5) becomes inoperative.

When the volume (9) is reduced, the output of the power amplifier (6) becomes small, and a high level input signal is applied with the diodes (18) to (21) turned off, the amplifier (16) A large output signal is applied to the boost amplifier (24) without being attenuated, and the output signal of the boost amplifier (24) also becomes large. Since the differential detection circuit ( 26 ) is provided at the output terminal of the boost amplifier (24), the reference voltage of the reference power supply (27) and the output signal of the boost amplifier (24) are compared. When the output signal of the boost amplifier (24) exceeds the reference voltage, the transistor (28) of the comparison circuit ( 26 ) turns on and the output transistor (29) turns on, so the transistor (30) turns on and its collector current. Is applied to the diodes (18) to (21) through the inverting circuit, and the output signal of the amplifier (16) is attenuated by the diodes (18) to (21) forming the variable attenuation circuit ( 22 ). Therefore, the output signal of the boost amplifier (24) is suppressed to a predetermined level, and distortion is prevented from occurring.

(G) Effect of the Invention As described above, according to the present invention, loudness control can be performed according to the output signal level of the power amplifier. In particular, when a large level input signal is applied with the volume being turned down, it is possible to prevent the occurrence of distortion due to saturation of the boost amplifier, so that it is possible to provide an automatic loudness control circuit with a low distortion rate.

[Brief description of drawings]

1 is a circuit diagram showing an embodiment of the present invention, FIG. 2 is a circuit diagram showing a conventional automatic loudness circuit, and FIG. 3 is a circuit diagram showing a concrete circuit example of FIG. (4) ... Low-pass filter, (5) ... Variable attenuation circuit, (6) ... Power amplifier, (8) ... Boost amplifier, (9) ... Volume, (12) ... First control circuit,
(13) …… Second control circuit.

Claims (1)

(57) [Claims] 1. A main signal path for passing an input signal, a low-pass filter for extracting a low-frequency component of the input signal, and a level control for controlling the level of the output signal of the low-pass filter according to the output signal level of a power amplifier. An automatic loudness control circuit comprising a circuit and an adder circuit for adding an output signal of the main signal path and an output signal of the level control circuit and applying the added signal to the power amplifier via a volume, An automatic loudness control circuit provided with a control circuit for detecting a signal level and controlling the level control circuit.