JPH0351325B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an automatic level adjustment circuit that automatically adjusts a signal level.

The automatic level adjustment circuit is equipped with an electronic volume circuit that adjusts the signal level by changing the equivalent resistance according to the input signal level.

Conventionally, it has been proposed that this electronic volume circuit is provided with a differential amplifier and a current amplifier that controls the operating current of the differential amplifier in accordance with the input signal level.

Such automatic level adjustment circuits have drawbacks such as the temperature characteristics of the current amplifier affecting the automatic level adjustment characteristics and the level adjustment sensitivity not being freely adjustable.

SUMMARY OF THE INVENTION An object of the present invention is to provide an automatic level adjustment circuit that improves temperature characteristics and allows level adjustment sensitivity to be set arbitrarily.

That is, the automatic level adjustment circuit of the present invention includes a reference voltage setting circuit in which a constant current source 22 is connected to a resistor 24 and generates a constant reference voltage (V _TH ) by the constant current of the constant current source, and an emitter. First and second transistors 10 and 14 are installed in common, and a constant current source 1 is provided on the emitter side.
8 is installed, the input signal V _{IN is} applied to the base side of the first transistor, the reference voltage is applied to the base side of the second transistor, and when the level of the input signal is below the reference voltage, a differential amplifier 2 that outputs a current according to the level of the input signal, and suppresses the output of the constant current when the level of the input signal exceeds the reference voltage; fourth transistor 3
1 and 32, an output section is installed to combine and take out the outputs taken out from the third and fourth transistors, and the output of this output section is entirely sent to the base side of the fourth transistor. A current amplifier 26 is installed on the emitter side of the third and fourth transistors to receive the current from the second transistor, amplify the current, and supply an operating current to the differential circuit. A constant bias voltage V _B at the base of the transistor No. 3,
The input signal is applied to the base side of the fourth transistor via a resistor 36 in common with the differential amplifier, and the internal resistance to the input signal is increased by the operating current flowing to the differential circuit by the current amplifier. The device is characterized by comprising an electronic volume circuit 4 which adjusts the level of the input signal by increasing or decreasing the voltage division ratio between the internal resistance and the resistor and outputs the output signal from the output section.

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

FIG. 1 shows an embodiment of the automatic level adjustment circuit of the present invention. In FIG. 1, this automatic level adjustment circuit is provided with a differential amplifier 2 and an electronic volume circuit 4, each of which has a common input terminal 6 formed therein.

The differential amplifier 2 is comprised of a differential comparison circuit that controls the operating current of the electronic volume circuit 4 in response to the input signal level exceeding a reference level. That is, the differential amplifier 2 is provided with a first Tr8, a second Tr14, and Tr10, 12, and the transistors 8 and 10, and the transistors 12 and 14 are connected in a Darlington manner. transistor 10,
The 14 emitters are connected in common, and a constant current source 18 is connected between this emitter and a power line on which a power supply terminal 16 is formed. The collectors of each transistor 8, 10, 12 are connected to a common terminal 20.
are connected to a common line formed. An input signal V _IN is applied to the base of the transistor 8 from the input terminal 6, while a constant current source 22 and a resistor 24 connected in series between the power supply line and the common line are connected to the transistor 12. A reference level arbitrarily set by a reference voltage setting circuit consisting of a circuit is added. The level adjustment sensitivity of the electronic volume circuit 4 is determined by setting this reference level.

The output of this differential amplifier 2 is the transistor 14
The operating current value of the differential amplifier constituting the electronic volume circuit 4 is determined via the current amplifier 26. The current amplifier 26 is composed of transistors 28 and 30, and these transistors 28 and 30 are connected in a Darlington manner.

The electronic volume circuit 4 is provided with third and fourth transistors 31 and 32 that have common emitters and constitute a differential circuit, and the current amplifier is connected between the emitters of these transistors 31 and 32 and the common line. 26 have been installed. A predetermined bias is applied to the input terminal 34 formed at the base of the transistor 31, and the output point of the electronic volume circuit 4 is shared to the base of the transistor 32, and the input terminal is connected to the base of the transistor 32 via the resistor 36. 6 is formed.

The collector output of each transistor 31, 32 is
It is taken out via transistors 38 and 40 which are diode-connected between each collector and the power supply line, and added to the bases of transistors 42 and 44, respectively. That is, the transistor 38 and the transistor 44, and the transistor 40 and the transistor 42 each constitute a current inversion circuit, and the current flowing through the transistor 31 is reversed and flows to the collector of the transistor 44, and the current flowing through the transistor 32 is as follows. The current is reversed and flows through the transistor 42. A capacitor 45 forming a filter is connected between the base and collector of the transistor 44.
is connected.

Further, a diode-connected transistor 46 is installed between the collector of the transistor 42 and the common line. This transistor 46
The base and collector of the transistor 48 are commonly connected to the base and collector of the transistors 46 and 48.
constitutes a current inversion circuit. Therefore, the current flowing to the collector of transistor 42 is reversed and flows to transistor 48. This transistor 48 is connected between the collector of the transistor 44 and the common line with its emitter facing the common line.
constitutes a current combining circuit. The base of the transistor 32 is connected to the current combining point, and an output terminal 50 is formed therein.

The operation will be explained based on the above configuration. If the constant current given from the constant current source 22 is I, and the value of the resistor 24 is _R24 , then the reference level for determining the sensitivity is
V _TH is expressed as V _TH =I·R ₂₄ (1), and this value can be set freely in the design.

Now, if the signal level of the input signal applied to the input terminal 6 is lower than this reference level V _TH , the constant current applied from the constant current source 18 flows entirely to the transistors 10 and 8 side, and the differential No output of amplifier 2 occurs.

In this case, the operation of the electronic volume circuit 4 is stopped, and _the level adjustment characteristic shown in FIG.

In addition, in the range where the input signal level V _IN exceeds the reference level V _TH , the current amplifier 2
An operating current is applied to the electronic volume circuit 4 through the circuit 6, and the electronic volume circuit 4 enters an operating state.The operating current increases or decreases depending on the input signal level _VIN , and its gain is adjusted.

In this case, if the value of the resistor 36 is R ₃₆ and the value of the equivalent resistance seen from the output point of the electronic volume circuit 4 is Rx, then the output voltage Vo is Vo=V _IN {Rx/(Rx+R ₃₆ )}...( 2) is given by. This is given in the range B in the level adjustment characteristics shown in FIG.

As a result, the level-adjusted output Vo can be extracted.

According to this configuration, since the differential amplifier 2 is installed in the front stage of the current amplifier 26, the temperature characteristics of the current amplifier 26 are compensated by the differential amplifier 2, and the automatic level adjustment is almost completely compensated for by the temperature characteristics. It can be assumed that there is no effect. Moreover, by installing the differential amplifier 2, the level adjustment characteristics can be changed by the current amplifier 26.
It is possible to obtain characteristics equivalent to applying an input signal to the base of the transistor 28. Furthermore, the signal level adjustment sensitivity can be freely set.

As described above, according to the present invention, temperature characteristics are improved and level adjustment characteristics not affected by temperature changes can be obtained, and level adjustment sensitivity can be set arbitrarily.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the automatic level adjustment circuit of the present invention, and FIG. 2 is an explanatory diagram showing its operating characteristics. 2...Differential amplifier, 4...Electronic volume circuit, 10...First transistor, 14...Second
transistor, 18, 22...constant current source, 24
...Resistor, 26...Current amplifier, 31...Third transistor, 32...Fourth transistor, 3
6...Resistance.

Claims (1)

[Claims] 1. A reference voltage setting circuit in which a constant current source is connected to a resistor and generates a constant reference voltage by the constant current of the constant current source; A transistor is installed, a constant current source is installed on the emitter side, an input signal is applied to the base side of the first transistor, and the reference voltage is applied to the base side of the second transistor, A difference in which when the level of the input signal is below the reference voltage, a current is output according to the level of the input signal, and when the level of the input signal exceeds the reference voltage, the output of the constant current is suppressed. A differential circuit consisting of a dynamic amplifier and third and fourth transistors having a common emitter is installed, as well as an output section that combines and outputs the outputs taken out from the third and fourth transistors, and this output section The output of the transistor is fully fed back to the base side of the fourth transistor, and the emitter side of the third and fourth transistors receives the current from the second transistor and amplifies the current to be applied to the differential circuit. A current amplifier for passing an operating current is installed, a constant bias voltage is applied to the base of the third transistor, and the input signal is applied to the base side of the fourth transistor via a resistor in common with the differential amplifier, The operating current flowing through the differential circuit by the current amplifier increases or decreases the internal resistance to the input signal, and by changing the voltage dividing ratio between this internal resistance and the resistor, the level-adjusted output signal of the input signal is adjusted to the level of the input signal. An automatic level adjustment circuit characterized by comprising: an electronic volume circuit that takes out from an output section;