RU2667979C2 - System for summation of power of radio transmitters - Google Patents

Abstract

FIELD: radio engineering.SUBSTANCE: invention relates to radio engineering and can be used at transmitting communication centers. For this purpose, the system for combining the power of radio transmitters consists of a subsystem controlling a transmitting center, radio transmitters, an antenna switch and a broadband power addition bridge, with adjustable artificial long lines connected to the inputs of the broadband bridge of addition, the first inputs of which are connected to the outputs of the antenna switch, the second inputs are connected to the control subsystem of the transmitting center, and the outputs are connected to the inputs of the broadband bridge of addition, the output of the broadband bridge of addition is connected to one of the inputs of the antenna switch, to the other inputs of which are connected the outputs of the radio transmitters, two of which are switched to two inputs of two artificial long lines on command from the control subsystem.EFFECT: technical result is increased efficiency of the functioning of the transmitting communication centers.1 cl, 1 dwg

Description

RADIO TRANSFER POWER COMPOSITION SYSTEM

The invention relates to radio engineering and can be used at transmitting communication centers.

Known systems for adding power A..C. No. 1596434 from 09/30/90, A.S. No. 1584066 dated 16.12.87, Model Z.I. Systems of addition and distribution of power of high-frequency oscillations. M., Sov. radio, 1980.

All of these radio transmitter power addition systems consist of a transmitter center control system, radio transmitters, antenna switches and broadband power addition bridges.

A common drawback of all known systems for adding power to radio transmitters is that the power addition bridges are constantly connected to the radio transmitters without the possibility of their rapid replacement when any of them fails, which reduces the functioning (increasing the recovery time of the communication channel) of the transmitting communication centers. This circumstance is due to the fact that broadband addition bridges require in-phase or antiphase signals of radio transmitters at the input of broadband addition bridges, which is associated with the specific design of the addition bridge.

The aim of the invention is to increase the efficiency of the functioning of the transmitting communication center.

This goal is achieved in that the power addition system of the radio transmitters, consisting of a control center of the transmitting center, radio transmitters, antenna switch and a broadband bridge of power addition, characterized in that the adjustable wide artificial lines are connected to the inputs of the broadband addition bridge, the first inputs of which are connected to the antenna outputs switch, the second inputs are connected to the control subsystem of the transmitting center, and the outputs are connected to the inputs of the broadband addition bridge, outputs One broadband addition bridge is connected to one of the inputs of the antenna switch, the outputs of the radio transmitters are connected to the other inputs, two of which are switched to two inputs of two artificial long lines upon command from the control subsystem.

A block diagram of an implementation of a system for adding power to radio transmitters is shown in FIG.

The designations adopted in FIG.

1. - broadband power addition bridge;

2. - adjustable artificial long lines;

3. - antenna switch;

4. - antennas;

PC - transmitting radio center.

The proposed system of adding power to the radio transmitters operates as follows. The signals from the radio transmitters arrive at the antenna switch 3. According to the control commands from the control center of the transmitting center, the switch sends the signals of the transmitters either to the inputs of the antennas 4 or to the input of the adjustable artificial long line 2 of the addition bridge 1. In the mode of adding power to the transmitters, the outputs of two transmitters are connected by the antenna switch to the two inputs of the addition bridge 1 through sequentially connected adjustable artificial long lines 2. Through the control and management circuit of the transmission control subsystem By adjusting the artificial long lines 2, the center sets the required phase ratio of the signals of the radio transmitters directly at the inputs of the power addition bridge 1. In this case, at the output of the broadband bridge 1, the high-frequency signal power is the sum of the powers of two radio transmitters connected to its inputs. The doubled power signal from the output of addition bridge 1 is fed to one of the inputs of the antenna switch 3 and, by a signal from the control center of the transmitting center, is switched to one of the antennas 4 connected to the switch.

Thus, the goal is achieved, to increase the efficiency of the functioning of the transmitting communication center, by realizing the ability to quickly replace a faulty radio transmitter operating in power addition mode and quickly restore a communication channel that requires an increased signal level.

The proposed system also allows you to increase the signal power through the use of 3 addition bridges connected to the antenna switch in a similar way. In this case, the power of 4 radio transmitters at the beginning is added up in pairs on 2 addition bridges, and then 2 outputs of these bridges are switched by an antenna switch to the input of the third bridge, the output of which is switched by an antenna switch to one of the free antennas.

Claims (1)

The power addition system of the radio transmitters, consisting of the control center of the transmitting center, the radio transmitters, the antenna switcher and the broadband power addition bridge, characterized in that the inputs of the broadband addition bridge are connected with adjustable artificial long lines, the first inputs of which are connected to the outputs of the antenna switch, the second inputs are connected to control center of the transmitting center, and the outputs are connected to the inputs of the broadband addition bridge, the output of the broadband addition bridge sub It is connected to one of the inputs of the antenna switch, to the other inputs of which the outputs of the radio transmitters are connected, two of which are switched to two inputs of two artificial long lines upon command from the control subsystem.

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