SU1125744A1 - Power amplifier - Google Patents

Abstract

AMPTIC AMPLIFIER, containing an offset circuit and an output two-stage cascade, executed on two transistors connected in a circuit with a common collector and having a different structure, the emitter of one of the transistors being connected to the midpoint of the power source formed by two capacitors connected in series between the tires of the power source, about the same. so that, in order to increase its efficiency, the load is made in the form of the first primary winding of the output transformer, and between the midpoint of the power source and the emitter of the other transistor, a second one is introduced. The primary winding of the output transformer is switched on first.

Description

The invention relates to electrical engineering and can be used in various electronic devices.

A known power amplifier, a content output stage, is made on two transistors having a different structure connected in a common-collector circuit and a power source with a midpoint formed by two capacitors connected in series between the buses of the power supply Co.

The closest to the invention to the technical essence is a power amplifier containing an offset circuit and an output push-pull stage performed on two transistors connected in a common collector circuit and having a different structure, the emitter of one of the transistors being connected to the midpoint of the power source formed by two capacitors connected in series between the tires of the power source t2.

However, in known devices relatively low efficiency.

The purpose of the invention is to increase the efficiency of the device.

The goal is achieved by the fact that in a power amplifier (containing an offset circuit and an output push-pull stage, performed on two transistors connected in a circuit with a common collector and having a different structure, the emitter of one of the transistors is connected via a load to the midpoint of the power source capacitors connected in series between the power supply buses, the load is made in the form of the first primary winding of the encoder transformer, and between the midpoint of the power supply and this The second primary transient winding of the output transformer is inserted by the second transistor, and is connected in opposition to the first one.

The drawing shows a circuit diagram of a power amplifier.

The power amplifier contains a bias circuit 1 and a push-pull output stage, implemented on transistors 2 and 3, capacitors 4 and 5, the output transformer 6 from the first

7 and the second 8 primary windings and the power source 9.

The device works as follows.

When power source 9 is turned on, the initial mode is set in the power amplifier. At the outputs of the bias circuit, connected to the bases of the transistors 2 and 3, voltages appear that open the transistors 2 and 3 and provide a given initial shift of their operating point on the output characteristics. Through transistors 2 and 3 and the first 7 and second 8 primary windings of the output transformer 6, an initial DC bias current begins to flow. Since the first 7 and second 8 primary windings of the output transformer 6 are switched in opposite and contain an equal number of turns, the magnetic flux in the core of the transformer is not induced and there is no voltage on the output winding of the output transformer 6. The value of the voltages at the outputs of the bias circuit 1 ensures that both transistors 2 and 3 open equally and receive at the midpoint of the first 7 and second 8 primary windings of the output transformer 6 a voltage equal to half the voltage of the source 9 of the power supply. Capacitors 4 and 5 have the same capacity and. also half the voltage of the power source 9 is charged. In this case, the diodes of the bias circuit 1 and the active resistances of the first 7 and second 8 primary windings of the output voltage are. Matora 6 provides temperature stabilization of the power amplifier.

When a signal is applied to the input of the power amplifier, depending on the polarity of the input signal, one of the transistors 2 (3) locks and the other 3 (2) opens. Through the first (second) primary winding 7 (8) of the output transformer 6, connected to the emitter of the opened transistor 2 (3), a current begins to flow, the value of which is proportional to the value of the input signal, and an emf of the amplified signal is induced in the secondary winding of the output transformer 6.

31

The frequency response of the amplifier depends on the capacitance of capacitors A and 5, to the common point of which is connected the first 7 and second 8 primary windings of the output transformer 6. With a large capacity of capacitors 4 and 5, the power amplifier has a wide bandwidth almost identical to the passband of the output transformer 6. A decrease in the transmission capacity of capacitors 4 and 5 leads to a narrowing of the bandwidth, and the power amplifier acquires selective properties ..

257A44

Thus, in this power amplifier, changing the initial position of the operating point of the transistors 2 and 3, you can adjust the output type

5 characteristics of the power amplifier and increase its sensitivity to small input signals, maintain high thermal stability and increase efficiency by using active

10 resistances of the first and second primary windings of the step-down transformer and their counter-switching.

Claims (1)

A POWER AMPLIFIER comprising a bias circuit and an output push-pull cascade made on two transistors connected according to a common collector circuit and having a different structure, the emitter of one of the transistors connected via a load to the midpoint of the power source formed by two capacitors connected in series between the source buses power supply / о, characterized in that, in order to increase its efficiency, the load is made in the form of the first primary winding of the output transformer, and between the midpoint of the power supply At the same time, the second primary winding of the output transformer, included in the opposite direction of the first, is introduced by the emitter of another transistor. FFZ ^ TT’TiS