SU652714A1 - Discrete-address communication system - Google Patents

Description

The invention relates to radio engineering. Discrete address communication system can be used to transmit discrete and continuous information.

Known discrete-address communication system, containing on the transmitting side of the low-frequency amplifier, the output of which is connected to the modulating unit, the output connected to the input of the delay element, the outputs of which are connected respectively to the inputs of the three gating units, while the output of the gating units are connected to the corresponding-1M the inputs of the group amplifier, the output of which is connected to the input of the power amplifier, and on the receiver side of the high frequency amplifier, the output of the Kofoporo is connected to the heterodyne unit, the output is connected connected to the input of the intermediate frequency amplifier, three detectors, the outputs of the two detectors are connected to the inputs of the delay lines, the outputs of the delay lines are connected to the first inputs of the corresponding first and second elements And, to the second inputs of which are connected the outputs of the third detector, the outputs of the first and second elements And connected respectively, with the first and second inputs of the third element And, the output of which is connected to series-connected pulse-width discriminator, decoder and low-frequency amplifier 1.

However, the known system has a relatively low resistance tolerance in channels susceptible to concentrated interference.

The aim of the invention is to improve the noise immunity of the discrete-address communication system.

To do this, to a discrete-address communication system containing a low-frequency amplifier on the transmitting side, the output of which is connected to a modulating unit, an output connected to the input of a delay element, the outputs of which are connected respectively to the inputs of three gating units, and the outputs of the gating units are connected to the corresponding the inputs of the group amplifier, the output of which is connected to the input of the power amplifier, and on the receiving side of the high-frequency amplifier, the output of which is connected to the heterodyne unit, the output of Connected to the input of the intermediate frequency amplifier, three children. tori, where the outputs of the detectors are connected to the inputs of the delay lines, and the outputs of the delay lines are connected to the first inputs of the corresponding first and second elements AND, to the second inputs of which are connected the outputs of the third detector, the outputs of the first and second elements And connected. Respectively, the first and second inputs of the third element I, the output of which is connected to a series-connected impedance-discriminator, a decoder and a low-frequency amplifier, have three frequency grid generation units on the transmission side, and three adaptive matching filters on the receiving side . Moreover, the outputs of the frequency grid generation units are connected to additional inputs of the corresponding gate blocks, the inputs of the adaptive matched filters are connected to the output of the intermediate frequency amplifier, and the outputs of the adaptive matched filters are connected to the inputs of the corresponding detectors.

FIG. 1 shows a structural electrical circuit of the front side; in fig. 2 - the receiving side of the i-proposed communication system.

The discrete-address communication system co- ordinates on its transmission side a low-frequency amplifier 1, modulating a batch 2, a delay element 3, three blocks of 4 forming a frequency grid, three strobe blocks 5, a group amplifier 6 and a power amplifier 7. On The receiving side of the discrete-address communication system contains (see Fig. 2) a high frequency amplifier 8, a heterodyne block 9, an intermediate frequency amplifier

10, three adaptive matched filters

11, three detectors 12, two delay lines 13, elements AND W, 15 and 16, a pulse-width discriminator 17, a decoder 18, a low-frequency amplifier 19..

The system of ev zi works as follows.

When transmitting information, the audio signal using low frequency amplifier 1 and modulating unit 2 is converted into a modulated pulse sequence that arrives at delay element 3. Each information pulse is encoded by a set of subpulses with different time shifts, which are removed from the corresponding delay element outputs 3, are fed to the respective inputs of the gate units 5 and open them. The additional inputs of gating blocks of outputs of blocks 4 of the grid formation are received and the voltage of several subcarriers that are fed to the group amplifier 6 at the time of arrival of the pulses through the open gating blocks. The thus-generated multi-frequency imimage signal is amplified by the power amplifier 7 and radiated by the transmitter antenna. At the receiving side, the signal is amplified by the high frequency amplifier 8, converted from the nbMouibib heterodyne block 9 to the intermediate frequency voltage. An intermediate-frequency amplifier with a gain of 10 r1rrg11ЯТ1) 1Y signal connects to the inputs of adaptive matched filters 11, which provide an optimal selection of each component of the signal with FJCCOM, inversely proportional to the intensity of the concentrated noise, affecting each component 10). The C adapters) 1x matched filters of the signals are detected by the detectors 12 and fed to the first and sub channels through the c) corresponding lines from the delays 13, d dm of the second sub channel directly to the And 14 and 15 points further to the And 16 element. , the output element And 16 Hik iopMaiuioHfn ie, the pulses arrive at the pulse-neutral discriminator 17, then the decoder 18 and the low frequency amplifier 19.

Thus, taking into account the multifrequency filling of each pitch | ul | 1s in the device and signal processing using adaptive matched || The 1x () iltr in the receiver allows to significantly reduce the probability of an error and, consequently, increase the noise immunity of discrete-address communication systems in channels with lumped interference.

Claims (1)

1. US patent No. 3239761, CL. 325-22, 1966.