SU1688423A1 - Radio communication system - Google Patents

Description

one

(21) 4739476/09

(22) 09/25/89

(46) 10/30/91. Bul №40

(72) V.A.Tsimbal, V.E. Smirnoye, And I. Tymchinsky and V.Vladimirov

(53) 621.396.6 (088.8)

(56) Overseas electronics. 1984, No. 6, p. 12.27.

(54) RADIO COMMUNICATION SYSTEM

(57) The invention relates to radio engineering and can be used in radio signal sig. The purpose of the invention is to reduce energy costs while maintaining the amount of information transmitted. To reach2

On the transmitting side, the D-flip-flop and the alternator switch are entered on the specified target, and the first amplitude detector and the first D-flip-flop, the second amplitude detector and the second D-flip-flop, as well as the RS-flip-flop and linear addition block, The introduced blocks allow to transmit and receive information from two sources of information when used. --PII single transmitter. In this case, one transmission channel is organized by the method of angular modulation, and the other by the method of polarization manipulation 1 or

The invention relates to radio engineering and can be used in radio communication systems.

The purpose of the invention is to reduce energy costs while maintaining the amount of information transmitted.

The drawing shows a structural electrical circuit of the device.

The radio communication system contains the first encoder 1, the modulator 2, the D-flip-flop 3, the second encoder 4, the transmitter 5, the high-frequency antenna switch b, the first 7 and the second 8 transmit antennas on the transmitting side, the first 9 and the second 10 receive on the receiving side antennas, the first 11 and second 12 receivers, the first amplitude detector 13, the first D-flip-flop 14, RS-flip-flop 15, block 16 linear sum of signals, the second amplitude detector 17, the second D-flip-flop 18, demodulator 19, the first 20 and the second 21 decoders.

The radio system operates as follows.

The information intended for transmission over the main channel is serially converted into a discrete-shaped electrical signal, its noise-tolerant coding is performed in the first encoder 1, the high-frequency harmonic oscillation is modulated in the modulator 2, which uses angular modulation ECD, is transferred to the slave area. These frequencies are amplified in transmitter 5 and fed to one of the transmitting antennas 7 or 8, depending on which of them is connected by a high-frequency antenna switch 6 to the output of transmitter 5. At the same time, a wave with a certain type of polarization propagates in the signal propagation medium. At the receiving side, the incoming electromagnetic wave is received by one of the receiving antennas 9 or 10, the polarization type of which coincides with the polarization type of this wave. The resulting electromagnetic wave is converted into an electric wave, a signal, a selective

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chesu receiver 11 or 12 and at the intermediate frequency enters through the block 16 of the linear addition of signals in the demodulator 19. Next, the low-frequency signal enters the decoder 20, where, after processing, to the first recipient of messages

The information transmitted over the supplemental channel enters the second encoder 4, where it is converted into an electrical signal of a discrete form, and also its error-correcting coding. The binary sequence of symbols thus formed is fed to the input of the D-flip-flop 3, which operates as follows. If there is a single information symbol at its input, a high potential is present at the direct output of the D-flip-flop Za and at the inverse output a low potential, and vice versa, when a zero information symbol arrives at its input, the high potential is present at the inverse output.

High-frequency antenna switch 6 operates as follows. If the first control input has a high potential, it connects its information input with the first transmitting antenna 7, if the second control input has high potential, the high-frequency antenna switch 6 connects its information input with the second transmitting antenna 8. In this case, in the propagation medium The signals propagate electromagnetic waves with a certain kind of polarization. At the receiving side, the incoming wave is received by that receiving antenna 9 or 10, the polarization type of which coincides with the polarization type of this wave. Thus, single information symbols of an additional channel correspond to the transmission of signals of the main channel in the form of an electromagnetic wave with a given type of polarization, and zero symbols of the additional channel correspond to the transmission of signals of the main channel opposite to the specified type of polarization. On the receiving side, there are two receive branches, respectively, for single and zero symbols of the additional channel. Then at each time point, the signal at the intermediate frequency is present only at the input of one of the amplitude detectors 13 or 17. Accordingly, at the output of one of the amplitude detectors 13 or 17, a high voltage level is observed. To provide the required parameters of the received signal, the first and second D-triggers 14 and 18 are connected to the outputs of the amplitude detectors 13 and 17, the forward outputs of which are connected to

the inputs of the RS flip-flop 15, and the direct output of the second 6-flip-flop 18, belonging to a single unit, is connected to the S-input of the RS flip-flop 15, and the direct output of the first D-flip-flop 14, related to the zero branch, is connected to R-input RS flip-flop 15.

RS-trigger 15 operates as follows.

If there is a single signal at the S input, the corresponding transmission of information along the single branch, and a zero signal at the R input, a Log is observed at its direct output. 1, and vice versa, if there is a zero signal at the S input, a single signal at the R input corresponding to transmitting information along the zero branch, a Log is observed at the direct output of the RS flip-flop 15. A. Next, the received signal is decoded in the second decoder 21 and supplied to

to the second recipient of the messages.

Claims (1)

Claims of the Invention A radio communication system comprising, on a transmitter side, serially connected first encoder, modulator and transmitter, first and second Transmitting antennas, made in the form of antennas with horizontal and vertical polarization, as well as a second an encoder and, on the receiving side, serially connected first receiving antenna and first receiver, serially connected second receiving antenna and second receiver, serially connected, a demodulator and a first decoder, the output of which is the first information output of the radio communication system, as well as the second decoder, the output of which is the second information output of the radio communication system, wherein the first and second receiving antennas are made in the form of antennas with horizontal and vertical polarization, respectively, characterized in that, in order to reduce energy costs while maintaining the volume of transmitted information, a D-trigger and a high-frequency antenna switch are inputted on the transmitting side; the signal input is connected to the transmitter output, the first and second control inputs are connected to the forward and inverse outputs of the D-trigger, respectively The second outputs are connected to the first and second transmitting antennas, the output of the second encoder is connected to the input of the D-flip-flop, and on the receiving side - serially connected first amplitude detector and the first D-flip-flop, the second amplitude detector and second D-trigger, as well as RS-trigger and linear addition unit, output which is connected to the input of the demodulator, the first input is combined with the input of the second amplitude detector and connected to the output of the first receiver, the second input is combined with the input of the first amplitude 5 input to the second decoder. OmHCfOTISg-b detector and is connected to the output of the second receiver, the R and 5 inputs of the RS flip-flop are connected to the outputs of the first and second D-flip-flops, respectively, and the output is connected to 1Y1 in u rrf CLASS