SU987792A1 - Push-pull amplifier - Google Patents

Description

, (54) TWO-TIME AMPLIFIER

Isophilic matter relates to radio engineering, in particular, to amplifying devices of automatic control systems.

A push-pull amplifier is known, containing in each arm a series-connected amplifier, resistor and output stage on a transistor connected in a common emitter circuit, an emitter connected to an inverting amplifier through an feedback link, and between the input source and the inverting input of the operational amplifier of the first arm and the noninverting, 5 input of the operational amplifier of the second arm are included the corresponding g

A disadvantage of the known push-pull amplifier is a high level of 20 harmonic distortion.

The goal of isophene is to reduce nonlinear distortion by staking the input resistance.

This goal is achieved by the fact that in a push-pull amplifier containing in each arm a series-connected operational amplifier, a resistor and an output stage on a transistor connected according to the scheme with a single-amp emitter,; the emitter of which is connected to the inverting input of the operational amplifier through a feedback resistor, while the respective additional resistors are connected between the input source and the inverting input of the operational amplifier of the first arm and the non-inverting input of the operational amplifier of the second shoulder included appropriate diode.

The drawing shows a push-pull amplifier circuit.

The push-pull amplifier contains two arms 1 and 2, which contain a series of connected via resistors 3 and 4, operational amplifiers 5 and 6 and output transistors 7 and 8, respectively, the emitters of transistors through resistors 9 and 10 are connected to the common circuit, and the collectors to resistors 11 and 12 terminals, an input signal source 13, are connected to opposite inputs of operational 1X amplifiers 5 and 6 through resistors 14 and 15, diodes 16 and 17 are connected between the inverting inputs of operational amplifiers 5 and 6 and their outputs, respectively, and a negative reverse circuit Noah connection resistors 18 and 19, 20. The device works as follows. With a positive T-floor, the input signal at the negative output of the 5 bodies has a negative half-period. The transistor 7 is closed, the current through the resistor 11 and the resistor 9 does not flow, the negative feedback formed by the resistor 18 is broken. However, this half-wave closes: x :: through diode 16 to the INPUT of the operational amplifier 5, forming an actual earth at the inverting input. Therefore, the input impedance of the arm 1 at a positive half-wave of the input signal is equal to the resistance B71 of the resistor 14. At the same time, the base voltage of the transistor 7 has a reverse voltage equal to the direct drop of the voltage of the transistor. diode 16. In this half-period of the input signal, the output of the operational amplifier 6 is a positive half-voltage field. Transistor 8 opens. The current through the load flows in the direction: resistor 12, junction collector emitter of transistor 8, resistor 10, common bus. The feedback formed by resistors 19 and 2.0 is valid. The input impedance of the second arm tends to infinity. Therefore, the input resistance of a push-pull amplifier in the positive half-period of the input signal is equal to the resistance of the resistor 14. If the input signal has a negative half-wave, the output voltage of the operational amplifier 5 will have a positive half-wave voltage. Transistor 7 opens with, through the load current flows in the direction: resistor 11, junction collector emitter of transistor 7, resistor 9, common point. The feedback connected to the resistor 18 acts on the actual ground of the inverting input of the anion amplifier 5 amplifier. Ps-this is the input impedance of the shoulder 1 of the same resistance of the resistor 14. In the same half-period of the input signal at the output of the operational amplifier b, the half-wave will be negative. The transistor 8 is closed, the negative feedback is broken. However, this half-wave closes at the inverting input of the operational amplifier 6 through diode 17, so the opposite voltage is applied to the base of transistor 8, equal to the direct voltage drop across diode 17. The input impedance of the arm 2 tends to infinity, and the input impedance of the push-pull amplifier at negative the half-wave of the input voltage remains equal to the resistance of the resistor 14. Thus, the connection of two diodes between the inverting inputs of the operating insulators and their outputs favorably distinguishes the proposed stroystvo proximity, tak.kak input impedance amplifier nezimennym remains at positive and negative input si.gnala otzolnah but that lmegoshaet nonlinear distortion ftiaie O-voltage one, especially when. operation in systems of automatic regulation, where sources of signals are sensors with high internal resistances. In addition, the operation of transistors is assured when using transistors with small tolerances of the 5th reverse-voltage base-emitter without additional protection. BACKGROUND OF THE INVENTION A push-pull amplifier containing, in each arm, a series-connected operational amplifier, a resistor and an output stage on a transistor connected in a circuit with a common terminal, the emitter of which is connected to the inverting input of the operational amplifier through an ofatte resistor, between the input source and the inverting input of the operational amplifier of the first arm and the non-inverting input of the operational amplifier of the second shoulder are connected with the corresponding additional resistors, about t l and due to the fact that, in terms of reducing nonlinear distortion by stabilizing the input impedance, in each arm between inverter is 5 & 67X6

house operational amplifier and outputG. Electronic technology in automation,

The corresponding diode is turned on. Ed. Yu. I. Konev. Sovetsky ra Sources of information, Dio, 1974, no. 6. p. 94, p. 2

taken into account in the examination (protopgip).

Claims (1)

Claim A push-pull amplifier containing in each arm a series-connected operational amplifier, a resistor, and an output stage on a transistor connected in a circuit with a common emitter, the emitter of which is connected to the inverting input of the operational amplifier through a feedback resistor, while between the input signal source and the inverting input of the operating the amplifier of the first arm and the non-inverting input of the operational amplifier of the second arm include the corresponding additional resistors, resulting in that, with Strongly reducing nonlinear distortion by stabilizing the input resistance in each arm between the inverting vho907782 house operational amplifier and the output diode included appropriate.