SU1107276A1 - Power amplifier - Google Patents

Abstract

POWER AMPLIFIER containing a push-pull cascade, filled with transistors of different structure, load and the first current sensor, performed on the first resistor, the first view of which is connected to the emitter of the transistor of one arm, the connection point of which is connected to one input of the first adder, and the second adder, one the input of which is connected to the output of the source of the reference voltage, and the output to the control input of the source of the base bias, none other than that. that, in order to increase the stability of the quiescent current, a half-wave rectifier, a peak detector and a second current sensor, made on the second resistor, are introduced, while the reference voltage source is designed as a power source with a midpoint, parallel to which a potentiometer is turned on, and the reference voltage source is a potentiometer tap, the second output of the first current sensor is connected to the emitter of the transistor of the other arm of the push-pull stage, with one output of the second current sensor, the other output 8 th vgoodom coupled to a corresponding load and to an input of a half-wave rectifier, and a midpoint of the second power source and an output half-wave rectified E: Phone connected to the other input of the first adder, at ztom peak detector is connected between the output of the adder and another input of the second adder.

Description

 The invention relates to radio engineering, namely, to amplifying devices, and low-frequency amplifiers can be used. Known power amplifier, soda. sticking push-pull cascade, load, current sensor, as well as a quiescent current stabilization circuit, made on the detector and the comparison unit, the output of which is connected to the control input of the source bias source C 13. The closest in technical essence to the invention is a power amplifier containing a push-pull cascade made on transistors of different structure, load and the first current sensor made on the first resistor, the first output of which is connected to the emitter of the transistor of one arm, the connection point of which is connected to one input of the first mater, as well as the second adder, one input of which is connected to the output of the reference voltage source, and the output to the control input of the C 21 base offset source. Known power amplifiers do not have sufficiently high quiescent current stability. The goal is to increase the stability of the quiescent current. The goal is achieved by the fact that a power amplifier containing a push-pull cascade, implemented on transistors of different structure, load and the first current sensor made on the first resistor whose first output is connected to the emitter of a transistor of one arm, the connection point of which is connected to the one input of the first adder and the second adder , one input of which is co-in with the output of the Reference voltage source, and the output - with. A full-wave rectifier has been introduced to the control input of the base bias source. A peak detector and a second current sensor, made on the second resistor, wherein the "reference voltage source" is designed as a midpoint power supply parallel to which the potentiometer is connected, and the output of the voltage source is a potentiometer tap, the second output of the first sensor the current is connected to the emitter by a transistor of the other arm of the push-pull cascade, with one output of the second current sensor whose other output is connected to the corresponding load output and to the full-wave rectifier input, and with days, the point of the second power source and the half-wave rectifier output are connected to another input of the first adder, while the peak detector is connected between the output of the first adder and the other input of the second adder. FIG. Figure 1 shows the structural electrical circuit of the proposed power amplifier in FIG. 2, the diagrams of the operation of the power amplifier. The power amplifier contains a push-pull cascade made on transistors of different structures 1 and 2, the first current sensor 3 performed on the first resistor, the load 4, the second current sensor 5 powered on the second resistor, the first adder 6, the second adder 7, the reference source 8 , base-mix source 9, half-wave rectifier 10, peak detector 11, mid-point power supply 12, potentiometer 13. Power amplifier works as follows.1 At an input signal equal to zero, on the amplifier input, on the first sensor 3, a voltage is present that is proportional to the quiescent current; the voltage at the second current sensor 5 is zero. The device changes the quiescent current until the voltage at the output of the second adder 7 (error signal) becomes zero. When applying an input signal, for example, of a sinusoidal form, the voltage on the first current sensor 3 has the form. As shown in FIG. 2a, and on the second current sensor 5 shown in FIG. 26, the half-wave rectifier output voltage 10 is shown in FIG. 2c. The summation of this voltage with the voltage of the first current sensor 3 to determine the component of the quiescent current is carried out by the first adder 6. The amplitude of the output voltage of this adder (Fig. 2d is directly proportional to the quiescent current. The peak detector 11 forms a voltage proportional to the amplitudes output voltage of the first adder 6 which is compared with the reference voltage of the potentiometer 13. The error voltage generated by the second adder 7 is fed to the source 9 of the base Offset 9, (Fig. 2e) which changes the offset at the bases of transistors of various structures 1 and 2 r direction opposite change in quiescent current.

The stability of the quiescent current is determined by the gain of the open-loop feedback circuit. With a gain of 1000, the change in the quiescent current in the temperature range of -40 ° C 60 ° C is 2%.

vy choo

V

XX U

V

Tsh .. t

Vi

2

Claims (1)

A POWER AMPLIFIER comprising a push-pull cascade made on transistors of different structures, a load and a first current sensor made on a first resistor, the first output of which is connected to the emitter of the transistor of one arm, the connection point of which is connected to one input of the first adder, and the second adder, one whose input is connected to the output of the reference voltage source, and the output is connected to the control input of the source of the basic bias, characterized in that, in order to increase the stability of the quiescent current, half-wave input a rectifier, a peak detector and a second current sensor made on the second resistor, while the reference voltage source is made as a power source with a midpoint parallel to which a potentiometer is connected, and the output of the reference voltage source is a potentiometer outlet, and the second output of the first current sensor is connected with the emitter of the transistor of the other arm of the push-pull cascade, with one output of the second current sensor, the other output of which is connected to the corresponding 8 output of the load and to the input of half-wave rectifier, and with the midpoint of the second power source, and the output of a half-wave rectifier is connected to another input of the first g of the adder, with a peak detector connected between the output of the adder and the other input of the second adder. Fi /