SU1462465A1 - Amplifier - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to expand the CCT, the Amplifier contains an input phase-inverse cascade 1 with a split load, pre-exit and output push-pull stages 2 and 7, a bias circuit 10, an autotransformer 11, a load 15 and a negative feedback circuit 16. When the input signal is received, the amplifier operates in class B mode. The goal is achieved by introducing an autotransformer 11, which ensures that the transistors 8 and 9 of the cascade 7 are fully opened. 1 Il.

Description

The invention relates to radio engineering ⁴ and can be used to enhance the fashionability of electrical signals. $

The purpose of the invention is improving efficiency.

The drawing shows a circuit diagram of an amplifier,

The amplifier contains an input phase inverse stage 1 with a divided load, an output push-pull stage 2 made on transistors 3 and 4 and resistors: 5 and 6, output 15 push-pull stage 7 made on transistors 8 and 9, bias circuit 10, transformer 11 with primary winding 12 and the secondary windings 13 and 14, the load 15 and the circuit 16 of the negative, 20 negative feedback (LLC).

The amplifier operates as follows.

The input signal is fed to input 25 of the input phaeo-inverse stage I. Since the amplifier operates in class B mode, the signal increases with an increase in the negative half-wave. the collector current of the transistor 3, and with a 30 increase in the positive half-wave of the signal, the collector current of the transistor 4. When opening the transistor 3. or 4, the base terminals of transistor 8 or .9 are alternately connected to the negative or positive bus of the power supply source i, which leads to the alternate opening of transistor 8 or 9. As a result, the amplified alternating voltage on the primary winding 12 of the autotransformer 11 - 40, allocated at the load 15 and simultaneously on the secondary windings 13 and 14, connected in series to the collector circuit of transistors 3 and 4. The output of the secondary windings 13 and 14 is turned on so that when the transistor 3 is fully open, it additionally increases negative the voltage at the base of transistor 8, and when transistor 4 is fully open gg, the positive voltage at the base of transistor 9 is additionally increased. In this case, transistors 8 and 9 open more fully than in the case when there are no secondary windings 13 and 14, which ensures full opening of transistors 8 and 9 and an increase in the CODE (power output) of the amplifier.

The power consumed by the secondary windings 13 and 14 of the autotransformer 11 is relatively small, since the transformation coefficient between the secondary windings 13 and 14 and the primary winding 12 is significantly less than unity, and the currents without transistors 8 and 9 are many times less than their collector currents. ' the power spent on increasing the buildup of transistors 8 and 9 is approximately 1-3% of the power supplied to the load 15. In some cases, the secondary windings 14 and 13 must be shunted with resistors whose resistance is 50-200 times greater oprotivleniya load 15, in order to be able to suppress the self-excited at high frequencies. I

Secondary windings 13 and 14 can also be included in other parts of the circuit of the output stage 2, for example, in an open circuit between the resistors 5 and b and the corresponding busbars of the power source. In this case, the divided load of the input stage 1 must also be disconnected from the power buses and connected to the connection points of the terminals of the resistors 5 and 6 with the terminals of the secondary windings 13 and 14.

Claims (2)

Claim An amplifier covered by a common negative feedback circuit and containing a series-connected input phase-inverse stage with a divided load, an output and output push-pull stages and a load, while the output terminal push-pull stage is made on two transistors having a different structure and connected in a circuit with a common emitter and resistors in emitter circuits, the output push-pull cascade is made on two transistors having a different structure and connected according to the scheme with a common collector, the bases of which are connected between y through a bias circuit, the difference I ayuschiyic in that, in order to increase the RCD, it introduced autotransformer configured with two secondary windings, one terminal of the primary winding of which is connected to the emitters of transistors push-pull output stage and the other terminal is 3. 1462465 input for connecting the middle point of the power source, while the load is connected between the tap and the output of the primary winding of the autotransformer, two secondary windings of which are connected each between the collector of the transistor of the corresponding arm of the pre-output push-pull cascade $ and the base of the transistor of the same arm of the output push-pull cascade.