JP3129071B2 - Voltage controlled amplifier - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a voltage controlled amplifier used for various audio equipment.

[0002]

2. Description of the Related Art A conventional voltage controlled amplifier will be described with reference to the drawings.

FIG. 2 is a circuit diagram showing a conventional voltage-controlled amplifier. Transistors 31 to 38 and transistors 38 and 38 are provided at both ends of an operational amplifier 50 and a negative feedback resistor 49 of a phase inverting amplifier constituted by resistors 48 and 49. 41, 42, 44, 4
A circuit (hereinafter, referred to as a transconductance amplifier) whose resistance value is equivalently changed by an external control voltage terminal 43 composed of resistors 5, 46 and resistors 39, 40 is connected to change the amplification degree of the phase inversion amplifier. Had to be configured.

[0004]

However, in the above conventional configuration, three current mirror circuits (transistors 3
1 to 33, 34 to 36, and 44 to 46) and a voltage between the base and the emitter (hereinafter referred to as V
_{(Referred to as BE} ), an offset voltage of a magnitude that cannot be ignored is generated in the output of the operational amplifier 50 when the gain changes.

The present invention solves such a conventional problem,
An object of the present invention is to provide a voltage controlled amplifier having excellent characteristics with a reduced output offset voltage.

[0006]

In order to solve the above-mentioned problems, a voltage controlled amplifier according to the present invention comprises a resistor (hereinafter referred to as an emitter resistor) inserted into each current mirror circuit and an emitter of a transistor of a current source. In addition, a transistor is added to the current mirror circuit at the output stage of the transconductance amplifier to form a symmetrical configuration.

[0007]

According to this structure, the variation in V _BE of the transistor is absorbed by the emitter resistance, the accuracy of the current mirror circuit at the output stage is improved, and an excellent voltage controlled amplifier with a small offset voltage can be realized.

[0008]

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

FIG. 1 is a circuit diagram showing a configuration of a voltage controlled amplifier according to the embodiment. Resistor 1 is R _E1 and resistor 2 is R
_E2 , where the currents flowing through the respective resistors are I ₁ and I ₂ , I ₂ = (R _E1 / R _E2 ) I _1, and the current value is always determined by the resistance ratio (R _E1 / R _E2 ). You.

However, when there is no emitter resistance as in the current mirror circuit of the conventional voltage controlled amplifier, the emitter currents of the transistors 1 and 2 are set to I _E1 , I _E2 ,
Base, the emitter voltage and V _BE1, V _{BE2 respectively, I 2 = (I E2 ·} e VBE1 / VT) / (I E1 · e VBE2 / VT) ·
I ₁ (where V _T = (kT) / g), and the variation in V _BE of the transistor greatly affects.

That is, unless the collector currents of the transistors 11 and 12 are accurately transmitted to the next stage, an offset voltage is generated as a result. If the current mirror circuit with the emitter resistor inserted is used, the accuracy of the current mirror circuit is determined only by the resistance accuracy, so that a highly accurate current mirror circuit can be realized relatively easily. Thus, the emitter resistances 1, 2, 3, 4, 17, 18, 23,
Insert 24. The emitter resistance of the transistors 15 and 16 as a current source has a function of matching the current from the gain control voltage input terminal 25 with the internal control current.

As in the current mirror circuit, if the control input current is I _c , the emitter current of the transistor 16 is I _E , the resistor 17 is R _c , and the resistor 18 is R _E , I ₀ = (R _c / R _E ) I _c, and the internal current value for the control current is also determined only by the resistance accuracy. Further, the outputs of the current mirror circuits connected to the collectors of the transistors 11 and 12 are output from the transistors 7 and 10, respectively.
Currents are combined in a current mirror circuit composed of 20, 21, 22 and emitter resistors 23, 24. The effect of the emitter resistance is the same as described above.

This current mirror circuit combines the outputs of the two current mirror circuits. If the output current changes due to a power supply fluctuation, an offset voltage is generated and the distortion characteristic is deteriorated. The conventional current mirror shown in FIG. 2 is composed of three transistors.
The current value changes as the power supply voltage changes.

To improve this, the transistor 19 of FIG. 1 is added. When this symmetric current mirror circuit is used, if the resistor 23 is R, the current flowing through the transistor 21 is I ₀ , and the voltage across the resistor 23 is V _R , then I ₀ = V _R / R, and the collector voltage of the transistor 19 is obtained. Current can be transmitted without being varied.

[0015]

As described above, by improving the current mirror circuit of the transconductance amplifier, the offset voltage generated from the phase inversion amplifier when the gain of the voltage control amplifier changes is reduced (300 mV _max → 20 mV).
_max ) and reduce the distortion factor (4.2% → 3.6)
%)be able to.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing a configuration of a voltage controlled amplifier according to one embodiment of the present invention.

FIG. 2 is a circuit diagram showing a configuration of a conventional voltage controlled amplifier.

[Description of References] 1-4, 13, 14, 17, 18, 23, 24, 27,
28 resistor 5-12,15,16,19-22 transistor 25 control voltage input terminal 26 input terminal 29 operational amplifier 30 output terminal

Claims (1)

(57) [Claims] 1. A phase inverting amplifier having a configuration in which a resistor is connected to a minus input terminal of an operational amplifier, a negative feedback resistor is connected to the minus input terminal and an output terminal, and a plus input terminal is grounded, and two transistors. Are connected to each other, a current source composed of two more transistors is connected to the emitter, and a current mirror circuit composed of three more transistors is connected to each collector of the two transistors connected to each other. A current mirror circuit composed of three more transistors is connected to the outputs of the two current mirror circuits, a resistor is connected to the base of the transistor to which the emitters are connected, and one end is connected to 1/2 _Vcc ; Connect a resistor to the base of the other transistor and connect one end to the resistor. A control voltage for connecting the output of the current mirror circuit connected to the output terminal of the phase inversion amplifier, the output of the current mirror circuit connected to the collector of this transistor to the minus input terminal of the phase inversion amplifier, and applying the current of the current source from outside In the voltage controlled amplifier utilizing the fact that the resistance value of the negative feedback resistor of the phase inversion amplifier changes equivalently, the emitter and power supply of two current mirror circuits connected to the collectors of the transistors connecting the emitters to each other The output of the current mirror circuit connected to the respective collectors of the transistors connected to each other is connected to the emitter of the current source connected to the place where the emitters are connected. Add another transistor to another current mirror circuit to make it symmetric And to the configuration and the voltage-controlled amplifier for the ground via a further resistor to the emitter.