SU489252A1 - The device transmission and reception of multi-channel messages - Google Patents

Description

(54) TRANSMISSION-ACCEPTANCE DEVICE OF MULTI-CHANNEL MESSAGES 19, the outputs of which are connected in series to the corresponding regenerators 23-26, the outputs of which are connected to the line inputs of the corresponding channels, through a corresponding 2: 0, 21, and 22 output circuit 27, through which the output of the receiver 14 is connected to the phase shift register 28, made in the form of a chain of serially connected phase circuits 29, 30 and 31, with low frequency amplifiers 32, / having phase characteristics 1, sticks identical to Characteristics of phase loops 3-6 in the transmitting part, with the outputs of the phase shift register 28 connected to the inputs of the corresponding correlation detectors 16-19. The device works as follows. The reference signal generator 1 generates a reference signal with a given amplitude spectrum. The follow-up period of the reference signals is determined by the selected manipulation speed. These signals are connected to the input of phase circuits 3-6, which, without changing the amplitude spectrum, make such changes in the phase spectrum that the signals i, 3 4 removed from the phase contours 3-6 turn out to be mutually orthogonal. In the controllers 7-10, the sign of the orthogonal signals is reversed depending on the polarity of the square of the pulses arriving at the manipulators from the regeneration output and the relative coding 13. In the addendum 11, a group signal is generated which is fed to the input of the transmitter 12. At the receiving end, the group signal from the output of the receiver 14 enters the memory unit 27, where it is delayed by the duration of the elementary parcel. I The delayed signal goes directly only to the correlation detector 16, and the remaining correlation detectors 17, 18 and 19 after the preliminary conversion in the phase shift register 28. Each phase circuit 29, 30 and 31 of the phase shift register 28 converts the phase spectrum of the signal increasing its order number by one. So, if the output of the memory unit 27 is the sum of signals 8 × + 1234, the output of the phase circuit 29 is Sl- 2 f. +, At the input: 5 - 3% of the phase contour D0 + T,: j And at the output of the charging circuit “3 - “f. The spectral density of the signals V. Vg, 4 KIND S / 63HS ((0) where ISMI A7 - :: - and A is a constant value. The nonlinearity of the phase-frequency characteristic of the communication line leads to the same distortion of the phase spectra of the signals fj, V, Nz V. that is not violates their mutual orthogonality. I therefore, at the output of the last phase circuit 31, there is only one signal F, which after processing in the correlation detector 19, i.e., multiplying with the group signal at the output of the receiver 14 and integrating, creates a voltage at its output, the sign of which corresponds to the sign of the elementary parcel in the corresponding i channel i Q where K is the proportionality coefficient. The voltages at the outputs of the other correlation detectors 16, 17 and 18 are respectively equal: U -, (dU 1 .. K (G. – H and (/ + 18 3 V series-connected The subtraction circuits r 2 O, 21 and 22, which are supplied with voltages from the corresponding correlation detectors 16, 17, 18 and 19, separate the channel signals, Regenerators 23-26 convert the voltages into square pulses of a given duration. The subject matter of the invention is: 1. A device for transmitting and receiving multi-channel messages containing a reference signal generator with a synchronization unit on the transmitting Komie; manipulator circuits, manipulator outputs are connected to the transmitter via a folding circuit, and a receiver with a synchronization unit, correlation detectors and regenerators, characterized in that, in order to reduce crosstalk between channels, for orthogonality violations due to unevenness and group time of delay in the communication path, the output of the receiver through the memory block is connected to the register 21

phase shift, the outputs of which are connected to the inputs of the corresponding correlta r-iraoHHHx detectors, the outputs of which are, through the corresponding subtraction circuits connected in series, are connected to the appropriate regenerators ..

2. The device according to claim 1, characterized in that the phase shift register is made in the form of serially connected phase circuits having phase-frequency characteristics, identical, characteristics; phase kontut-. ditch in the transmitting part.