SU1170622A1 - Tropospheric-scatter radio communication line - Google Patents

Abstract

The TROPOSPHERIC RADIO TELECOMMENDATION CHAIN contains a modulator on the transmitting side, the output of which is connected to the inputs of two transmitters connected to the antennas, and on the receiving side two antennas, each V3 of which is connected to the combined inputs of the receivers, a block of accumulators and a synchronizer. -l f J () whose input is connected to the inputs of the control of the storage unit, so that, in order to increase the noise immunity without increasing the energy potential of the tropospheric radio link when operating under frequency selective conditions signals, on the transmitting side, a quadruple coding block is inputted, the output of which is connected to the modulator input, and on the receiving side a combinational summation unit and a quadruple decoding unit, i, and the outputs of all receivers through the combinational circuit ming (connected to inputs A storage unit, which outputs are connected to inputs of a quaternary decoding unit, and outputs one of the receivers via a synchronizer connected to the control inputs of the combination unit and the adding unit quaternary decoding O5 IND to wHi / l 5 ri5:. A / G

Description

H3o6peTeHjie refers to radio communications and can be used in digital data transmission over tropospheric radio channels using frequency and spatial diversity of signals. A device for transmitting synchronous signals with frequency separation, containing two drops, each of which consists of a series-connected multiplier, a band-pass filter, a mixer and an amplifier, as well as an adder, a frequency converter, an additional mixer, a narrow-band filter, and a frequency modulator, is known. However, the use of such devices leads to a significant reduction in line noise immunity. The closest to the proposed is a tropospheric radio link containing a modulator on the transmitting side, the output of which is connected to the inputs of two transmitters connected to the antennas, and on the receiving side.two antennas, each of which is connected to the combined inputs of two receivers the drive unit and the synchronizer, the output of which is connected to the control inputs of the drive unit 2. One: ko, in terms of the frequency-selective fading of the interference signals, the efficiency of this line is insufficient both due to the small equivalent multiplicity of diversity and due to the short processing time at the reception, which affects the noise immunity with respect to thermal noise and lumped interference. The aim of the invention is to increase noise immunity without increasing the energy potential of tropospheric radio lines when operating under conditions of frequency-selective fading signals. The goal is achieved by having a modulator on the transmit side of the tropospheric radio link, the output of which is connected to the inputs of two transmitters connected to the antennas, and on the receiving side two antennas, each of which is connected to the combined inputs of two receivers, drives and synchronizer whose output is connected to the control inputs of the storage unit; on the transmitting side 22 a quadruple coding block is introduced, the output of which is connected to the modulator input, and on the receiving side - a combinational block summing and quad decoding block, where the codes of all receivers are connected to the inputs of the storage block through the combinational block, the outputs of which are connected to the inputs of the quad decoding block, and the codes of one of the receivers through the synchronizer are connected to the control inputs of the combinational block with:, mt and four blocks decoding. The drawing is a structural diagram of the proposed device. The device contains a quadruple coding unit 1, a modulator 27 transmitters 3, antennas A and 5, receivers 6, block 7 combinational summation, block 8 of accumulators, block 9 quadruple decoding, synchronizer 10. The device operates as follows .. Binary information input to block 1, it turns into a quadruple one (a pair of characters into one character of a four-digit code) reproduced by modulator 2 in the whole of a pair of manipulation frequencies that are successively transmitted in half of the resulting doubled clock interval to two transmissions tachki 3 operating in two different frequency bands. The law of coding binary information, represented, for example, by the sequence of data 0001101110010111011000 ..., may be as shown in the table. Signals separated by frequency ranges and space are received at the inputs of receivers .6. Each of the four receivers receives, filters, and amplifies the signals of all four manipulation frequencies and has separate outputs for each of these frequencies. The input impedances of the accumulators of block 8 choose malignant & w compared to the output impedances of receivers 6, so that when switching several outputs of receivers 6, signals are added at the input of the accumulator of block 8. The signals are switched in block 7, for example, by means of four groups of keys - according to the number of drives in block 8, and each group contains two pairs of keys. The keys of the first four are closed when 1 is applied to the control input of block 7 and open when 0 is applied, the second four keys are closed when applying 0 and open when 1 is applied. The signal from synchronizer 10 in this case is a square wave that performs alternate closing four keys The order of connecting the quadruples to the outputs of the receivers 6 is determined by the manipulation frequency coding chosen by the law. For the selected example, the first accumulator of block 8 is connected in series to the outputs of the first and third frequencies of all receivers 6: in the first half of the double clock interval, the drive accumulates the signals from the outputs of the first manipulation frequency of all receivers 6, and in the second half of the double clock interval - with outputs, the third frequency, the second drive - from the outputs of the third and second frequencies, the third - from the outputs of the fourth and first frequencies, and the fourth from the outputs of the second and fourth frequencies, often at the end of a doubled time interval b Block 9 compares the voltage at the outputs of the drives of block 8, selects the drive with the maximum level, and decodes the number of the drive of block 8 into two bits of binary 22.44 per line output. At this moment, the block 8 drives are discharged, and the moment is determined by a negative clock differential, thus the same signal from the synchronizer 10 output is used to synchronize all the blocks. For normal operation, it is necessary to correctly set the phase of the synchronization signal on the receiving side. This installation is performed when the line is screwed in by adding a single additional pulse in the synchronization circuit, if necessary, in the presence of a stream of unacceptable clamping. Another feature with this coding law is the possibility of simplified element-by-element reception (the first and third frequencies in all combinations; correspond to a logical zero, and the second and fourth to a logical one), which allows to simplify the synchronizer 10, as it normally works with phase mismatch on the reception of the synchronization signal. The advantages of the invention are explained by the fact that in accumulators of block 8, the diversity signals are summed and accumulated over a doubled interval, which allows to increase the noise immunity of the 1IO line with respect to noise and interference, and is equivalent to the diversity ratio under conditions selective in frequency zamrashrash Signals are increased by transmitting every quad

Claims (1)

TROPOSPHERIC RADIO LINKAGE, containing on the transmitting side a modulator, the output of which is connected to the inputs of two transmitters connected to the antennas, and on the receiving side - two antennas, each of which is connected to the combined inputs of two receivers, a drive unit and a synchronizer, the input of which is connected to the inputs control of the drive unit, which is characterized by the fact that, in order to increase noise immunity without increasing the energy potential of the tropospheric radio link when operating in conditions of frequency-selective fading of the signals, on the transmitting side, a quad-coding block is introduced, the output of which is connected to the modulator input, and on the receiving side, a Raman summing block and a quad-decoding block, and the outputs of all receivers are connected to the inputs of the drive block, the outputs of which are connected through the g Raman summing block to the inputs of the block of quadruple decoding, and the outputs of one of the receivers through a synchronizer are connected to the control inputs of the block of combinational summation and the block of quadruple decode IAOD. SU η. " 1170622