RU55231U1 - DEVICE FOR DIRECTED ADDITION OF POWER OF ELECTRIC OSCILLATOR GENERATORS - Google Patents

Abstract

The utility model relates to the field of radio engineering and can be used to directionally add the power of generators to one of the loads.

The problem to which the utility model is directed consists in the directed addition of the capacities of electric oscillation generators with the required summation coefficient at any output.

The device for directional addition of the power of electric oscillation generators contains four inputs, four outputs, eight transformers, each of which is a segment of a coaxial transmission line equipped with a magnetic circuit, and eight segments of a coaxial transmission line, and the input resistances are equal to the load resistances and wave resistances of all coaxial lines, making up the circuit.

Description

The utility model relates to the field of radio engineering and can be used to directionally add the power of generators to one of the loads.

A device for adding capacities is known, which contains four inputs, four transformers, each of which is a segment of a coaxial transmission line equipped with a magnetic circuit, with each beginning of the central conductor connected by inputs (AS USSR No. 527007 according to class N 03 N 7 / 48 dated 08/30/76).

This power addition device allows you to increase the efficiency while expanding the bandwidth. The disadvantage of this power addition device is that it does not allow the directional addition of the power of the electric oscillation generators with the required addition coefficient at any output.

The closest technical solution for the combination of essential features is a device for adding the capacities of electric oscillation generators, containing four inputs, four outputs, four transformers, each of which is

a segment of a coaxial transmission line equipped with a magnetic circuit, with each beginning of the central conductor connected to even inputs and outputs, respectively, and the external beginning of the conductors connected to a common bus (AS USSR No. 919049 according to class N 04 N 7/48 from 07.04. 82 g.).

This device for adding the power of electric oscillation generators allows you to increase the efficiency when adding power to one of the loads. The disadvantage of this device is that it does not allow you to directionally add the power of the generators of electrical oscillations with the required addition coefficient at any output.

The problem to which the claimed utility model is directed consists in the directed addition of the capacities of electric oscillation generators with the required summation coefficient at any output.

The problem is solved due to the fact that the device of directional addition of capacities of electric oscillation generators containing four inputs, four outputs, four transformers, each of which is a segment of a coaxial transmission line equipped with a magnetic circuit, with each beginning of the central conductor connected to even inputs and outputs accordingly, and the external beginnings of the conductors are connected to a common bus, four additional transformers and eight segments of the coaxial line are introduced in front of Ah, in each of which the outer conductor is connected at both ends with a common bus and the first four segments of the coaxial line

the gears at each beginning of the central conductor are connected to the odd inputs and outputs, respectively, whereby the end of the central conductor of the first segment of the coaxial line has a common connection point with the beginnings of the central conductors of the first and second additional transformers, and the end of the central conductor of the second segment of the coaxial transmission line has a common connection point with the beginnings of the Central conductors of the third and fourth additional transformers, and the end of the Central conductor of the third from cutting the coaxial transmission line has a common point of connection with the ends of the central conductors of the second and fourth additional transformers, and the end of the central conductor of the fourth segment of the coaxial transmission line has a common point of connection with the ends of the central conductors of the first and third additional transformers, and the common point of connection of the end of the outer conductor of the first transformer and the beginning of the outer conductor of the second additional transformer through the Central conductor of the fifth segment the coaxial transmission line is connected to a common connection point of the end of the external conductor of the third additional transformer and the end of the central conductor of the second transformer, and the common connection point of the end, the external conductor of the second additional transformer and the end of the central conductor of the third transformer is connected to the common connection point through the central conductor of the sixth section of the coaxial line end of the outer conductor of the fourth

transformer and the beginning of the outer conductor of the third additional transformer, with the common point of the end of the central conductor of the fourth transformer and the beginning of the outer conductor of the fourth additional transformer through the center conductor of the seventh segment of the coaxial line connected to the common exact ends of the outer conductors of the first additional and second transformers, and the common connection point of the beginning the outer conductor of the first additional transformer and the end of the central conductor p the first- transformer through eighth center conductor of the coaxial transmission line is connected to the common point of the fourth ends of the external conductors and the third additional transformers, the input impedance equal to the load resistance and the wave resistance of coaxial lines constituting the circuit.

Figure 1 shows a device for directional addition of capacities of generators of electrical oscillations.

The device of directional addition of capacities of electric oscillation generators contains four inputs 1-4 (electric oscillation generators not shown conventionally), four outputs 5-8 (conventionally not shown loads), four transformers 9-12, four additional transformers 13-16, each of which represents a segment of a coaxial transmission line equipped with a magnetic circuit, and eight segments of coaxial transmission lines 17-24.

A device for directional addition of capacities of electric oscillation generators works as follows.

Electric oscillation generators connected to the inputs 1-4 of the device have equal-amplitude oscillations, and with a certain ratio of the phases of these oscillations, the total power of all generators is summed up at one of four 5-8 outputs, to which identical loads are connected. The power at all inputs is assumed to be the same and the output power is normalized to the power level at one input.

In the operating mode, the oscillations of the generators at inputs 1-3 are equal-amplitude and in-phase, and the oscillations of the generator at the input 4 are in-phase. Due to the in-phase oscillations of the generators at inputs 1 and 2, there is no induction in the magnetic circuit of the first additional transformer 13 and, accordingly, the oscillations of these generators are fed to inputs 7 and 8 in-phase and uniformly-amplitude. Oscillations from antiphase generators at inputs 3 and 4 go to outputs 7 and 8 with opposite phases. As a result, at the output 7, the oscillations are summed, and at the output 8, they are mutually compensated. Thus, the total total power of generators 1-4 is summed up at load 7.

In other types of phasing, when the oscillations of one of the generators are out of phase with the other three, the total power will be at the corresponding output of the device.

When changing the phases of the input oscillations with a 90 ° discrete, it is possible to obtain a power distribution over the outputs in the ratio of 2.5: 0.5: 0.5: 0.5,

or modes are possible in which the total power of the generators will be supplied to only two outputs. With a voltage phase difference of 60 °, a binary power distribution over the outputs can be obtained in a ratio of 1.75: 0.25.

Thus, the proposed device allows for directional addition of the capacities of generators of electrical oscillations with the required summation coefficient at any output.

Claims (2)

1. A device of directional addition of capacities of electric oscillation generators, comprising four inputs, four outputs, four transformers, each of which is a segment of a coaxial transmission line equipped with a magnetic circuit, with each beginning of the central conductor connected to even inputs and outputs, respectively, and the external beginning conductors are connected to a common bus, characterized in that four additional transformers and eight segments of a coaxial transmission line are introduced, in each of which an external conductor is connected at both ends with a common bus, and the first four segments of the coaxial transmission line are connected by each beginning of the central conductor with odd inputs and outputs, respectively, and the end of the central conductor of the first segment of the coaxial line has a common connection point with the beginnings of the central conductors of the first and second additional transformers, and the end of the central conductor of the second segment of the coaxial transmission line has a common connection point with the beginnings of the central conductor of the third and fourth additional transformers, the end of the central conductor of the third segment of the coaxial transmission line having a common connection point with the ends of the central conductors of the second and fourth additional transformers, and the end of the central conductor of the fourth segment of the coaxial transmission line has a common connection point with the ends of the central conductors of the second and fourth additional transformers additional transformers, and the common point of connection of the end of the outer conductor of the first transformer and la external conductor of the second additional transformer through the Central conductor of the fifth segment of the coaxial transmission line is connected to a common point of connection of the end of the outer conductor of the third additional transformer and the end of the central conductor of the second transformer, and the common point of connection of the end of the outer conductor of the second additional transformer and the end of the central conductor of the third transformer through the central the conductor of the sixth section of the coaxial line is connected to a common connection point the end of the outer conductor of the fourth transformer and the beginning of the outer conductor of the third additional transformer, while the common point of the end of the central conductor of the fourth transformer and the beginning of the outer conductor of the fourth additional transformer through the center conductor of the seventh segment of the coaxial line is connected to the common point of the ends of the outer conductors of the first additional and second transformers, moreover, the common point of connection of the beginning of the outer conductor of the first additional transfer rmatora and the first end of the central conductor of the transformer via a center conductor of the coaxial eighth transmission line connected to the common point of the fourth ends of the external conductors and the third additional transformers. 2. The device according to claim 1, characterized in that the input impedances are equal to the load resistances and wave impedances of all coaxial lines making up the circuit.