SU634464A1 - Multibeam radio communication system - Google Patents

Description

I

The invention relates to radio and can be used to transmit and receive serial frequency-diversity signals with relative phase telegraphy in multipath channels of tropospheric and ionosphere radio communication systems.

A multipath radio communication system is known, which contains a pulse selector on the transmitting side and a series-connected phase manipulator and transmitter, and on the receiving side an input matching unit connected to the information and auxiliary paths, each of which consists of a series-connected phase detector, integrator and regenerator and also to the input of the multiplier, to the other input of which the output of the regenerator of the auxiliary path is connected, the output of the multiplier is connected to the first electronic key moves, the outputs of which through, narrowband filters are connected to the first inputs of additional electronic keys, the second inputs of which and electronic keys are connected to the corresponding outputs of the synchronization unit, two additional outputs of which are connected to other inputs of regenerators, and the outputs of additional electronic keys are combined and connected with the second inputs of phase detectors i.

However, the known radio communication system is complex and has a low noise immunity.

The purpose of the invention is to increase the verbosity of the received information while at the same time simplifying the transmitting side by eliminating functional blocks.

Claims (1)

For this, in a radio-based radio communication system, which contains a clock pulse selector and a serially connected phase manipulator and transmitter on the transmitting side, and an input unit connected to the information and auxiliary paths on the receiving side, each of which consists of a serially connected phase detector and integrator and the regenerator, as well as to the input of the multiplier, to the other input of which the output of the regenerator of the auxiliary path is connected, the output of the multiplier is connected to the first inputs With electronic keys, the outputs of which are connected to the first inputs of additional electronic keys through two-band filters, the second inputs of which and electronic keys are connected to the corresponding outputs of the synchronization unit, two additional outputs of which are connected to other inputs of regenerators, and the outputs of additional electronic keys are combined and connected to the second the inputs of the phase detectors, on the transmitting side, a reference generator and a series-connected harmonic generator, a comb filter, and a switching matrix, the control input of which is connected to the output of the clock pulses, the input of which and one input of the phase manipulator are combined and are the device input, the output of the switching matrix is connected to another input of the phase manipulator, and the output of the reference generator is connected to another input of the transmitter and harmonic generator input. The drawing shows a structural electrical circuit of the proposed radio communication system. The multipath radio system contains a reference generator 1, a transmitter 2, a phase handler 3, a 4 clock pulse selector, a switching matrix 5 ,. comb filter 6, generator 7 harmonics, input matching unit 8, phase detectors 9 and 10, integrators 11 and 12, regenerators 13 and 14, electronic keys 15, multiplier 16, narrowband filters 17, additional electric keys 18, synchronization block 19. Multi-path radio system works as follows. The transmitted video signal is fed to the phase manipulator 3 and to the selector of 4 clock pulses. The sequence of clock pulses goes to the control input of the switching matrix 5, which in a certain sequence connects to the phase manipulator 3 each of the outputs of the comb filter 6, which extracts harmonics, oscillations of the reference oscillator 1, generated by the harmonics generator 7, thereby the spaced signal, which is a segment of sinusoidal oscillations of the same duration but different frequency, continuously following one another. The oscillation of the reference oscillator 1 is fed to the transmitter 2 to form the frequency range of the radio link. The signal from phase manipulator 3 enters transmitter 2 and forms on the transmitting side of the radio link a transmitted phase-shift keyed signal with multiple frequency diversity without a phase interruption. The received signal through the input matching unit 8 is fed simultaneously to phase detectors 9 and 10, to the second inputs of which a reference signal is generated, formed using narrowband filters 17 and additional electronic switches 18. The input signal also goes to the input of the multiplier 16, to the second input of which The detected and regenerated video signal is fed along an auxiliary path. The inevitable delay of the signal in this path is normalized using the synchronization unit 19. At the moments of arrival of the signal frequencies, the keys 15 are opened at the input of the corresponding filters 17 and the accumulation of reference signals occurs. Due to the manipulation of the phase of the input signal in the multiplier 16, the signal at the considered times is demanipulated, and the filters 17 are supplied with radio pulses with high-frequency filling phases determined only by fluctuations of the signal phases in the propagation channel. The bandwidth of the filters 17 is chosen to be sufficiently small, starting from the phase fluctuation rate, which is many times lower than the information transfer rate; Thereby, reference signals for synchronous-phase detection of the incoming signal are allocated at their outputs. The final reference signal, driven by the synchronous phase detectors 9 and 10, is generated by electronic switches 15, which switch the outputs of the filters 17 in accordance with the order of the frequencies in the input signal, and are controlled by the synchronization unit 19, by which the output detected signal is generated in an integrator 11 and a regenerator 13 and is fed to the output of the device. A multi-beam radio communication system comprising a clock pulse selector and a serially connected phase handler and a transmitter on the transmitting side, and an input matching unit connected to the information and auxiliary paths on the receiving side, each of which consists of a serially connected phase detector, integrator and regenerator, as well as to the input of the multiplier, to another input of which the output of the auxiliary path regenerator is connected, the output of the multiplier with the first inputs of electronic keys, the outputs of which through narrow-band filters are connected to the first inputs of additional electronic keys, the second inputs of which and electronic keys are connected to the corresponding outputs of the synchronization unit, two additional outputs of which are connected to other inputs of the regenerators, and the outputs of the additional electronic keys and connected with the second inputs of phase detectors, characterized in order to increase the reliability accepted information while simplifying the transmitting side by eliminating functional blocks, a reference generator and sequentially connected harmonic generator, a comb filter and a switching matrix, the control input of which is connected to the output of the clock separator, whose input and one phase manipulator input are combined are introduced on the transmitting side and are the input of the device, and the output of the switching matrix is connected to another input of the phase manipulator, and the output the reference generator is connected to another input of the transmitter and the input of a harmonic generator. Sources of information taken into account in the examination: I. USSR author's certificate No. 510790, cl. H 04 B 7/22, 1973. Ch2