RU2114509C1 - Multichannel communication device - Google Patents

Abstract

FIELD: radio communications; space and ground radio communication links. SUBSTANCE: multichannel radio communication device has on sending end power splitter, two amplitude modulators, paraphase amplifier, and transmitting antenna; on receiving end, it has receiving antenna, polarization reversal device, sum-difference unit, and synchronous detector. Novelty is that standard oscillator, phase keyer, clock generator, frequency synthesizer, two mixers, and two switches are newly introduced on sending end and standard oscillator, frequency synthesizer, two mixers, adder, two filters, two detectors, subtracting unit, and multiplier, on receiving end. EFFECT: improved data transmission capacity due to enlarged functional capabilities. 1 dwg

Description

 The device relates to radio communications technology and can be used in space and terrestrial radio links.

 Known devices using polarization modulation of radio signals, in particular, with elliptical polarization of the wave by changing the parameters of the polarization ellipse (Gusev K.G., Filatov A.D., Sopalev A.P. Polarization modulation.-M .: Soviet radio, 1974, p. 63 - 161).

 The disadvantage of these devices is that they can be used in conditions where the propagation parameters of the signals along the path and the relative position of the transmitting and receiving antennas are constant, since otherwise a large level of mutual interference between the individual channels of the radio line occurs, however, in most practical cases they change both the parameters of signal propagation and the relative position of the antennas.

 A device is also known according to US patent N 4087818, in which frequency reuse in conditions of changing the parameters of the signal propagation medium and the relative position of the antennas is achieved by ensuring orthogonality in polarization of two simultaneously transmitted signals with circular or linear polarization. This orthogonality is maintained using an automatic circuit in the form of a closed loop control using special pilot signals. It contains a transmitting device that generates two signals with the same frequency and orthogonal polarization of the wave, a receiving device that provides separate reception of these signals due to their orthogonal polarization.

 However, this device, due to the high requirements for the necessary accuracy of ensuring orthogonality in the polarization of the transmitted signals, has a complex auto-tuning system. In addition, the implementation of this device requires a special additional communication line.

Closest to the invention, in technical essence is a device for radio communication with frequency reuse (ed. St. N 1385305). In the transmitting part of the device, the output of the signal generator of the main messages 1 is connected to the input of the power splitter 2, the first and second outputs of which are connected to the first high-frequency inputs of the first 3 and second 4 amplitude modulators, respectively, the second (control) inputs of which are connected respectively to the first and second outputs of the antiphase amplifier 5, to the input of which additional information is supplied, the outputs of the first 3 and second 4 amplitude modulators are connected respectively to the first 6 and second 7 irradiators incoming antenna 8; in the receiving part, the output of the first 9 and second 10 irradiators of the receiving antenna 11 are connected respectively to the first and second inputs of the sum-difference block 12, the output of the adder 13 through the amplitude limiter 16 is connected to the inputs of the phase detector 22 and the first delay line 20, the output of which is connected to a key signal input 21, a control input coupled to an output switch 25 and this switch output is connected to the input of the demodulator 17 main messages from the first output signal which is removed major messages S _est, and the second output of this demodulator is connected to the input of the phase shifter 23, the output of which is connected to the reference input of the synchronous detector 15 and the second input of the phase detector 22, the output of which through the second filter 24 is connected to the comparator 25, and the differential output of the subtractor 14 through the second delay line 26 is connected to the signal input of the synchronous detector 15, the output of which through the first filter (low pass) 18 is connected to the control input of the polarization rotation device 19, in addition, additional Additional information S _d .

 To transmit an ever-increasing amount of information, it is necessary to increase the transmission rate or the number of radio channels, which in both cases leads to an expansion of the radio frequency band. As you know, the range of radio frequencies, from the lowest - VLF to the highest - microwave, is currently very overloaded, so the task of allocating any part of the radio frequency range is becoming more and more problematic.

 The proposed device multi-channel radio to some extent solves the problem of increasing the amount of transmitted information.

 To increase the amount of information transmitted to a device containing a power splitter on the transmitting side, the two outputs of which are connected to the first inputs of the first and second amplitude modulators, respectively, the second inputs of which are connected to two outputs of an out-of-phase amplifier, the input of which is the third information input of the device, the outputs of the amplitude modulators connected respectively to the first and second transmitting antenna trainers; on the receiving side, the first and second irradiators (pathogens) of the receiving antenna through the polarization rotation device are connected to two inputs of the total-difference device, the adder output of which is connected to the limiter input, and the subtractor output through the synchronous detector and the first filter is connected to the control input of the polarization rotation device , the output of the synchronous detector is the third information output of the device, the second filter and the delay line is introduced on the transmitting side, the reference oscillator is it is connected to the phase manipulator, the first mixer and the first key, the output of which is connected to the first input of the second adder, the output of which is connected to the input of the power splitter, the output of the phase manipulator, in addition, connected to the first input of the second mixer, the output of the reference generator, in addition, connected to the inputs of a clock shaper and a frequency synthesizer, two outputs of which are connected to the second inputs of the first and second mixers, respectively, and the output of the second mixer through the second key is connected to by the input of the adder, the output of the clock generator is connected to the first input of the synchronizer, the other two inputs of which are information, the first output of this synchronizer is connected to the second input of the phase manipulator, and the second output to the control input of the first key and through the phase inverter to the control input of the second key , on the receiving side, a reference oscillator connected by an output to the input of the synthesizer, two outputs of which are connected to the inputs of the first and second mixers, respectively, the outputs of which are connected to the first and second inputs of the adder, respectively, through a second filter connected to the inputs of the multiplier, the output of which is the first information output of the device and the delay line, the output of which is connected to the second input of the multiplier, the third and fourth filters, the inputs of which are interconnected with the output of the limiter and the second input of the synchronous detector, the outputs of the third and fourth filters, respectively, through the first and second frequency detectors are connected respectively to the inputs of the subtractor, the output of which is second the information output of the device, the outputs of the third and fourth filters, in addition, are connected to the second inputs of the first and second mixers, respectively.

 The drawing shows a functional diagram of the proposed device, which adopted the notation: 1 - reference generator; 2- power splitter; 3 and 4 - the first and second amplitude modulators; 5 - antiphase amplifier; 6 and 7 - the first and second transmitting antenna feeds; 8 - transmitting antenna; 9 and 10 - feed antenna feeds; 11 - receiving antenna; 12 - total-difference block; 13 - adder; 14 - subtractive device; 15 - synchronous detector; 16 - amplitude limiter; 17 - phase manipulator; 18 - the first filter (low pass); 19 is a polarization rotation device; 20 - delay line; 21 is a first transmitter mixer; 22 - the first key; 23 - adder; 24 - second filter; 25 - clock generator; 26 - transmitter synthesizer; 27 - second transmitter mixer; 28 - the second key; 29 - synchronizer; 30 - phase inverter; 31 - the third filter; 32 - the first frequency detector; 33 is a subtractive block; 34 - the fourth filter; 35 is a second frequency detector; 36 is a first receiver mixer; 37 - adder; 38 - multiplier; 39 - reference generator of the receiver; 40 - receiver synthesizer; 41 is a second receiver mixer.

 The proposed device has the following connections.

 On the transmitting side, the reference generator 1, connected in series with the phase manipulator 17, the first mixer 21 and the first key 22, the output of which is connected to the first input of the adder 23, the output of the phase manipulator 17, is also connected to the first input of the second mixer 27, the output of the reference generator 1, in addition, is connected to the inputs of a clock generator 25 and a frequency synthesizer 26, two outputs of which are connected to the second inputs of the first 21 and second 27 mixers, respectively, and the output of the second 27 mixer through the second key 28 is connected with the second input of the adder 23, the output of the clock 25 is connected to the first input of the synchronizer 29, the other two inputs of which are information, the first output of this synchronizer is connected to the second input of the phase manipulator 17, and the second output is connected to the control input of the first key 22 and through the phase inverter 30 - with the control input of the key 28, the output of the adder 23 is connected to the input of the power splitter 2, two outputs of which are connected to the first inputs of the first 3 and second 4 amplitude modulators, respectively, to the second inputs of the cat the outputs of the antiphase amplifier 5 are connected, the input of which is the third information input, the outputs of the first 3 and second 4 amplitude modulators are connected respectively to the first 6 and second 7 irradiators of the transmitting antenna 8; on the receiving side, the first 9 and second 10 irradiators (pathogens) of the receiving antenna 11 are connected to the two inputs of the sum-difference block 12 through the polarization rotation device 12. The output of the difference block 12 is connected through the amplitude limiter 16 to the inputs of the third 31 and fourth 34 filters and the first input a synchronous detector 15, the second input of which is connected to the output of the sum-difference block 12, and the output of the synchronous detector 15 through the first filter 18 is connected to the control input of the polarization rotation device 19. The outputs of the third 31 and h of the fourth filter 34 are connected to the inputs of the first 36 and second 41 mixers and, through the first 32 and second 35 frequency detectors, with two inputs of the subtracting unit 33, a reference generator 39, the output of which is connected to the input of the frequency synthesizer 40, two outputs of which are connected to the second inputs of the first 36 and second 41 mixers, respectively, the outputs of which are connected respectively to the first and second inputs of the adder 37, the output of which through the second filter 24 is connected to the inputs of the multiplier 38 and the delay line 20, the output of which is connected to the second input eremnozhitelya multiplier 38. The output 38 is the first data output. The output of the subtracting unit 33 is the second information output. The output of the synchronous detector 15 is the third information output of the device.

 The proposed device operates as follows.

The reference oscillator 1 generates harmonic oscillations, which are transmitted from one side to the clock 25, where the clock pulses are formed, which are used to synchronize the first and second information signals in the synchronizer 29. In addition, the frequencies f ₁ and f ₂ are generated from the oscillations of the reference oscillator in the frequency synthesizer 26, used as the local oscillator frequencies for the mixers 21 and 27. The first information signal INF.1, which was pressed in the synchronizer 29, is fed to one of the inputs of the phase manipulator 17, Torah which receives oscillations input from the reference oscillator 1. The output of the phase manipulator 17 thus obtained phase-shift keyed signal, which is supplied simultaneously to the first inputs of the first 21 and second mixers 27, to the second inputs of which as a local oscillator frequency oscillation frequencies f ₁ and fed f _2, respectively, from frequency synthesizer 26. The outputs of the first 21 and second mixers 27, intermediate frequency signals supplied to the signal inputs of first 22 and second 28 keys, to the control inputs of which are supplied to the second and formational signal INF.2, protaktirovanny a synchronizer 29, and a key 22 directly, and to the key 28 via the phase inverter 30, i.e., when the information "1" is received, the key 22 is opened, and when the information "0" is received, the key 28 is opened. From the outputs of the keys 22 and 28, signals of different frequencies are fed to the adder 23, the output of which is fed to the input of the power splitter 2. In the power splitter 2, the signal branches out into two channels and each half goes respectively to the inputs of the first 3 and second 4 amplitude modulators, made in the form of high-frequency amplifiers. The second inputs of the amplitude modulators through the antiphase amplifier 5 receives information from the third information input INF.3. In modulators 3 and 4, the amplitude of the transmitted signals changes out of phase according to the law of transmitted INF messages. 3. These signals from the outputs of the amplitude modulators are fed to the irradiators 6 and 7 of the transmitting antenna 8, which is radiated into space. Pathogens 6 and 7 create fields with orthogonal linear or circular polarization relative to one another. The signals emitted by the transmitting antenna 8 are received by the receiving antenna 11.

 Received by the receiving antenna 11, the signal from the irradiators (pathogens) 9 and 10 through the polarization rotation device 19 is fed to the total-difference block 12, in the adder 13 of which the signals from two irradiators 9 and 10 are summed, and the total signal is fed to the amplitude limiter 16 , and from the output of the subtractor 14, the difference signal is fed to a synchronous detector 15, to the second input of which a signal is supplied from the amplitude limiter 16. INF.3 is removed from the output of the synchronous detector and, in addition, through a narrow-band low-pass filter 18 is fed to the control input of the polarization rotation device 19. Using the filter 18, a constant component is extracted, the sign of which depends on the sign of the polarization mismatch angle α. From the output of the filter 18, this component enters the device for controlling the position of the polarization axes of the irradiators (pathogens) 19, which turns the irradiators so that the angle α becomes zero. If there is a mismatch in the other direction (angle α is negative), this component will be positive and the irradiators will be turned in the opposite direction. The filter 18 can only pass changing signals due to changes in the relative position of the antennas.

 The device for controlling the position of the polarization axes 19 eliminates the mismatch between the polarization of the incoming signals and the polarization of the antenna feeds, while the control system operates on a received signal that carries information about the transmitted messages.

 The control system will work when the orthogonality of the incoming signals is violated.

The signal from the output of the amplitude limiter is fed to filters 31 and 34, where frequency separation is performed, which are fed to frequency detectors 32, 35 and then to a subtractor 33, from which the INF is removed. 2. From the outputs of the filters 31 and 34, in addition, the signal is supplied to the inputs of the mixers 36, 41, respectively, the second inputs of which receive signals with the local oscillator frequencies f _g1 and f _g2 generated in the synthesizer 40 from the oscillations of the reference oscillator 39. In the mixers 36 41, different frequencies of phase-shifted oscillations are reduced to one intermediate frequency, the signal of which is extracted by the adder 37 and filter 24. Of these oscillations, INF.1 is extracted using the delay line 20 and multiplier 38.

 To transmit an ever-increasing amount of information, it is necessary to increase the transmission speed or the number of radio channels, and this leads to the expansion of the band of the working frequency range. As is currently known, the range of radio frequencies, from the lowest - VLF to the highest - microwave, is very overloaded. Therefore, the task of additionally allocating any part of the radio frequency range every day becomes more and more urgent.

 In this regard, to increase the amount of information transmitted, the authors went along the path of expanding the functionality of transceivers. This allowed the transfer of information from three different sources, which is a positive effect of the proposed device in front of the prototype device, in which information is transmitted only from two sources.

Claims (1)

 A multi-channel radio communication device containing a power splitter on the transmitting side, two outputs of which are connected to the first inputs of the first and second amplitude modulators, respectively, the second inputs of which are connected to two outputs of an out-of-phase amplifier, the input of which is the third information input of the device, the outputs of the amplitude modulators are connected to the first and second transmitting antenna feeds, on the receiving side, the first and second receiving antenna feeds through the polarization rotation unit are given to two inputs of the sum-difference block, the total output of which is connected to the input of the amplitude limiter, the output of the synchronous detector through the first filter is connected to the control input of the polarization rotation block, the output of the synchronous detector is the third information output of the device, as well as the second filter and delay unit, which differs in that, on the transmitting side, a reference oscillator, a phase manipulator, a first mixer and a first key are introduced in series, the output of which is connected to the first input of the sum a mator, the output of which is connected to the input of the power splitter, the output of the phase manipulator is connected to the first input of the second mixer, the output of the reference generator is connected to the inputs of the clock generator and the frequency synthesizer, two outputs of which are connected to the second inputs of the first and second mixers, respectively, and the output of the second mixer through the second key is connected to the second input of the adder, the output of the clock generator is connected to the first input of the synchronizer, the second and third inputs of which are respectively the first and second information inputs, the first output of the synchronizer is connected to the second input of the phase manipulator, and the second output is connected to the control input of the first key and through the phase inverter to the control input of the second key, a reference oscillator, a third filter in series, the first frequency detector are introduced on the receiving side and a subtracting unit, a fourth filter and a second frequency detector connected in series, as well as a synthesizer, first and second mixers, an adder and a multiplier, and the output is sum-difference of the first block is connected to the first input of the synchronous detector, the second input of which and the inputs of the third and fourth filters are combined and connected to the output of the amplitude limiter, the output of the second frequency detector is connected to the second input of the subtracting block, the output of which is the second information output of the device, the output of the reference generator is connected to the input of the synthesizer, the first and second outputs of which are connected respectively to the first inputs of the first and second mixers, the second inputs of which are connected respectively to the output s third and fourth filters, the outputs of the first and second mixers are connected to inputs of the adder, the output of which is connected through the second filter to the first input of the multiplier and the input of the delay unit, whose output is connected to a second input of multiplier whose output is the first data output unit.