SU1059679A1 - Radio link with power control - Google Patents

Abstract

RADIO LINES WITH POWER CONTROL, containing a transmitting station including a transmitter with an antenna whose power control input is connected to the output of a service channel receiver with an antenna through a serially connected decoding unit and a power control unit f intermediate station consisting of series-connected receiver with an antenna, an additional output which is connected to the input of the signal power measuring unit, and a transmitter with an antenna, the power control input is connected to the output of the p Power control, and the transceiver of the service channel with the antenna, the input of which is connected to the output of the coding unit, and the output connected to the input of the decoding unit, and the receiving station consisting of the receiver with the antenna, an additional output of which is connected through serially connected power measurement unit signal unit and a coding unit with a service channel transmitter input, which is different from the fact that, in order to increase the noise immunity in the optimal power redistribution of transmitted signals The first and second paths, each consisting of a series-connected variable gain unit, a memory unit and an addition unit, as well as a synchronization unit and 4) Power correction signal generator, the output of the power measurement unit of the Sigal are connected to the stations of the radio link; to the input of the adjustable gain unit of the first track I, the control input of the adjustable gain unit is combined with the input of the coding unit and connected to the output of the adder unit, the second input of which is combined with the second input of the second path and connected to the output of the power correction signal generator, the first and second inputs of which are connected by the cosSP responsibly to the outputs of the memory blocks of the first and second paths, controlling the current inputs of the pa1 "1ti first and O) second paths of the second paths and connected to the output of the synchronization unit, and the output of the addition unit in the second D path is connected to the combined inputs of the adjustable gain unit, the control input of which is connected to the output of the decoding unit and the power change unit.

Description

The invention relates to radio engineering and can be used in radio communication systems with UHOHHMivtH repeater stations. The radio link is known, and from the Transmitting Station, which contains a serially connected transmitter and antenna. The transmitter control input is connected to the output of the decoding unit, the input of which is connected to the output of the receiver of the service channel, and the receiving station containing the antenna, receiver. The receiver output is connected to the input of the signal power measuring unit, the output of which is connected to the service channel nepie sensor. In its separate sections, communication conditions are taken into account and the transmitter power control signals are generated for each section independently for each section Cl However, this device has low noise immunity. The closest to the proposed is a radio link with power control, containing a transmitting station, consisting of a transmitter with an antenna, the power control input of which is connected to the output of the service channel receiver. An antenna is connected through a sequentially connected decoding unit and a power control unit, an intermediate station, consisting of a series-connected receiver with an antenna, the additional output of which is connected to the input of measuring the power of a signal and a transmitter with an antenna, the input of the power control The core of which is connected to the output of the POWER control unit and the transceiver of the service channel with the antenna, the input of which is connected to the output of the coding unit, and the output is connected to the input of the decoding unit and the receiving station consisting of the receiver with the antenna, the output of which is connected via a serially connected signal power measurement unit and a coding unit with the transmitter input of the service channel L2J. However, the known radio link does not provide information for the required noise immunity optimal distribution of power between its individual sections. The purpose of the invention is to increase the immunity during OPTIMAL power redistribution of transmitted signals over sections of the radio link. This goal is achieved in a radio link with power control containing a transmitting station that includes a transmitter with an antenna, the power control input of which is connected to the output of the receiver of the service channel with the antenna through a serially connected decoding unit and a power control unit, an intermediate station consisting of a series-connected receiver with ante The additional output of which is connected to the input of the signal power measurement unit and the transmitter with antenna, the power control input, which is connected to the output of the power control unit, and the transceiver of the service channel with the antenna, whose input is connected to the output of the coding unit, and output connected to the input of the decoder unit, and the receiving station, the state from the receiver with the antenna, the additional output of which is connected through a serially connected signal measuring unit and a coding unit The first and second paths, each consisting of a series-connected variable gain unit, a memory unit and an addition unit, as well as a synchronization unit and a power correction signal generator, the output of the signal power measuring unit are connected to the input of the variable gain block of the first path; the control input of the variable gain block is combined with the input of the coding block and connected to the output of the adder, the second input of which is It is connected to the second input of the second path addition unit and is connected to the output of the power correction signal generator, the first and second inputs of which are connected respectively to the memory outputs of the first and second paths, the control inputs of the memory memories of the first and second paths are combined and connected to the output of the block synchronization, and the output of the addition unit in the second path is connected to the combined inputs of the variable gain unit, the control input of which is connected to the output of the decoding unit, and the power variation unit. In the drawing, the structure of the proposed radio link 1c with power control is given; Radiolini with power control contains transmitting station 1 consisting of transmitter 2 with antenna 3, receiver 4 of service channel with antenna 5, decoding unit 6 and unit 7 for adjusting power, intermediate station 8 consisting of receiver 9

with antenna 10, signal power measurement unit 11, transmitter 12 with antenna 13, power adjusting unit 14, service channel transceiver 15 with antenna 16, coding unit 17 and unit

18 decoding; the first path 19 is the second path 20, each of which contains a variable gain unit 21, a memory unit 22 and an addition unit 23, the intermediate station 8 also comprises a synchronization unit 24 and a power correction signal generator 25; receiving station 26 consisting of receiver 27

with antenna 28, signal power measurement unit 29, coding unit 30, and service channel transmitter 31 with antenna 32,

Radiolini works as follows.

The information signal passes the path from the transmitting station 1 via the information channel (transmitter 2, antenna 3) through intermediate station 8 (antenna 10, receiver 9, transmitter 12 and antenna 13) to receiving station 26, i.e. antenna 28 and receiver 27.

In the course of operation, based on actual communication conditions, the power of transmitters 2 and 12 is automatically adjusted. Before commencing communication, the power of each of transmitters 2 and 12 is set to an average value known from previous communication sessions or a predetermined calculation. Then, when the intermediate station 8 is turned on at the outputs of the memory path 22 units

19 and 20 are set, the values of the signals proportional to the values of the power of the transmitters 2 and 12 are necessary to ensure the specified noise immunity and the transmit signals on each of the sections of the radio link, i.e. between stations 1.8 and 8.26 due to the need to increase transmitter power

2 and 12, when creating the end-to-end information channel, the signals of blocks 22 in paths 19 and 20. In addition blocks 23, a correction signal is added, equal to the geometric mean of these signals, which is formed in the power correction signal generator 25. Total whitefish

The NSS comes from the output of the blocks 23 of the corresponding path 19 and 20 to the input of the block 14 and adjusts the power of the transmitter 12, to the input of the coding block 17 and through the service kangsha transceiver 15, the antenna 16, the antenna 5, the receiver 4 and the decoding block 6 to the block input 7, changing the transmitter power 2 of the transmitting station.

In the communication process, the power of the received signals is measured at the additional outputs of the receivers 9 and 27 by the signals power measurement units 11 and 29 for generating correction signals. The signals corresponding to the measured power at receiving station 26 are encoded in block 30 and transmitted over the service channel to intermediate station 8 via transmitter 31, antenna 32, antenna 16 and transceiver 15, the received signal is decoded in block 18 and fed to control input block 21 of the controlled path gain 20. At the same time, from the output of block 11, the signal arrives at the input of block 21 of path 19, the other inputs of block 21 of paths 19. and 20 receive signals that determine the radiated power of transmitters 2 and 12.

Thus, the magnitude of these signals varies in proportion to the actual sensitivity of the corresponding information receiver 9 and 26 to the power of the information signal received by the receiver. By controlling the signals of the synchronization unit 24, the signals from the outputs of the blocks 21 of the paths 19 and 20 are stored in the blocks 22 of the corresponding path, and the above-described change in the power of the transmitters 2 and 12 and the correction of the signal in the imager 25 are carried out. 2 and 12 are performed at intervals of the arrival of the sync signals from the synchronization unit 24.

In the proposed radio link with power control, noise immunity is enhanced with an optimal redistribution of the power of the transmitted signals over the sections of the radio link, i, e, taking into account the conditions of communication.

Claims (1)

POWER CONTROLLED RADIO LINES, comprising a transmitting station including a transmitter with an antenna, the power control input of which is connected to the output of the overhead channel receiver with the antenna through a decoding unit and a power adjustment unit connected in series, an intermediate station consisting of a receiver and antenna connected in series, an additional output of which connected to the input of the signal power measuring unit, and a transmitter with an antenna, the power control input of which is connected to the output of the p power control, and a service channel transceiver with an antenna, the input of which is connected s to the output of the encoding unit, and the output is connected to the input of the decoding unit, and a receiving station, consisting of a receiver with an antenna, the additional output of which is connected through a signal power measuring unit connected in series and a coding unit with an input of the service channel transmitter, characterized in that, in order to increase the noise immunity with optimal redistribution of the transmitted signal power over the line, the first and second paths are inserted into it at an intermediate station, each consisting of a series-connected variable gain block, a memory block and an addition block, as well as a synchronization block and a power correction signal shaper, the output of the signal power measuring unit connected to the input of block g adjustable gain, the first track ·; ® that, the control input of the variable gain unit is combined with the input of the coding unit and connected to the output of the addition unit, the second input of which is combined with the second input of the unit addition of the second path and is connected to the output of the power correction signal shaper, the first and second inputs of which are connected respectively to the outputs of the memory blocks. 1059679 of the first and second paths, the control inputs of the memory blocks of the first and second paths are combined and connected to the output of the synchronization unit, and the output of the addition unit in the second path is connected to the combined inputs of the variable gain unit, the control input of which is connected to the output of the decoding unit and the change unit power>