SU1190535A2 - Device for demodulating phase-difference-shift keyed signals which passed via communication channel with multipath branching - Google Patents

Abstract

THE DEVICE OF DEMODULATION OF SIGNALS RELATIVE PHASE TELEGRAPHY, PASSED CHANNEL OF COMMUNICATION WITH MAGICULARITY ON AUT.St. No. 341170, characterized in that, in order to increase noise immunity, a partial block is inserted into each channel except the last one, overlapping interference suppression block and determining the polarity of the additional part of the dressing, the first additional multipliers and the first additional adders, in the last block of partial overlapping interference suppression and determining the polarity of the additional part of the feed - the second additional multipliers, in the block for selecting the channel impulse response and determining the polarity of the part of the received premises - the second additional adders, while the outputs of the amplifiers for removing manipulation through the corresponding second additional adders are connected to the inputs of the respective integrators, the outputs of the delay line with the outlets of the last block of partial suppression of overlap and determining the polarity of the additional part of the link are connected to the first inputs of the corresponding second additional multipliers , the second inputs of which are connected to the output of the additional decisive cascade of the last partial suppression unit overlap interference and determine the polarity of the additional part of the outputs of the second additional multipliers through the corresponding first additional sequences but connected adders are connected to the second inputs of the corresponding second additional adders, the outputs of the delay lines with the branches of each but the last partial overlap interference suppression block and polarity determination the additional part of the parcels are connected to the first inputs of the corresponding first additional ones; multiply s, second inputs of which are connected to VELHODU complement & 0 01 tional decisive stages of each, except the last block of the partial interference cancellation overlap and determining the polarity of the additional part parcels, the second inputs of the first additional adders are connected to outputs sootvetstvunltsih first additional multipliers.

Description

The invention relates to radio engineering and can be used in trunk receivers and is an improvement of the invention according to the author. No. 341170.

The purpose of the invention is to increase noise immunity.

The drawing shows a structural electrical circuit of the proposed device.

A device for demodulating relative phase telegraphy signals that have passed through a communication channel with multiple frequencies. It contains block 1 in Dividing the impulse response of the channel and determining the polarity of a part of the received downlink, blocks 2 for partially suppressing overlapping interference and determining the polarity of the additional part of the parcels, the first 3 and second 4 quadrature channels, first 5 and second 6 multipliers, generator 7, delay lines 8, multipliers 9 for removal of manipulation, integrators 10, inverter 11, third multipliers 12, first adders 13, co a channel 14 filter adhered to channel multipath, a second adder 15, a decisive cascade 16, subtractive cascades 17, delay information lines 18, fourth multipliers 19, third adders 20, additional multiplex-matched channels 21, fourth adders 22, additional decisive cascades 23, adders 24 the information is the first additional multipliers 25, the first additional adders 2 the second additional adders 27, the second additional factors 28.

The device works as follows.

The received signal is a superposition of channel impulse responses of a duration on a single information packet of T duration, and T T. The impulse responses are manipulated in phase on Oi T in accordance with the manipulation of the original transmitted parcels. Decoding the received signal, i.e. extracting information from it is carried out in parts in a series circuit consisting of a block 1 for extracting the impulse response of a channel and determining the polarity of a part of the received messages and from blocks 2

partial suppression of overlapping interference and determining the polarity of an additional part of the parcels.

In the first block 1, extracting the channel impulse response and determining the polarity of a part of the received premises from the received signal, the channel impulse response to a single informational message is selected and decisions are taken on the part of the polarity of the dressing from the general information flow.

The signal received from the receiver (not shown) at the intermediate frequency is split into two quadrature components at the video frequency and, with the output of multipliers 5 and 6, is fed into two identical quadrature channels 3 and 4. Each quadrature component of the signal enters a delay line B with taps. The delay time is equal to or more than the multipath time of channel 1 ,,. The taps are taken at a time interval T equal to the duration of one information package.

Assume that the multiplier 9, in order to remove manipulation, is supplied with a Positive or Negative voltage, expressing a decision about the polarity of that option, all of whose rays fully entered the delay line 8 with taps. Then in multiplier 9, in order to remove the manipulation, the manipulation is removed for the voltage of the rays received from the taps of the delay line 8 with the taps. Ray stresses are integrated in integrators 10 with a fixed time much greater than the duration of the information row. In order for the system to continuously monitor the change in the channel impulse response, the time constants of the integrators 10 are selected depending on the rate of fluctuations in the channels and have an order for a short wave channel of 0.1 s. The delays present in the line 8 with taps from other information feeds do not receive the correct removal of the manipulation in the multipliers 9 to remove the manipulation and do not accumulate in the integrators 10.

In multiplier 12, the voltages from the taps are multiplied by the samples of the channel impulse response, i.e. on the voltages of the corresponding beams, accumulated and filtered from interference in the integrators 10. The voltages obtained at the outputs of the multipliers 12, which are proportional to the energies of the corresponding beams, are summed in the adder 13. Line 8 delays with taps with multipliers 12 in the leads to the pulses of the impulse response in the adder 13 forms the following filter matched with the channel's multipath channel 14. Based on the total energy of all the rays of both quadrature components, as a result of summation in the adder 15, a decision is made on the polarity of the part of the parcels and in the decisive cascade 16. The solution is fed to the next block 2 of partial suppression of overlapping and determining the polarity of the additional part of the link and through the feedback circuit to the multipliers 9 to remove the manipulation, which removes the phase shift. At the outputs of the adders 13, in addition to the creeping voltage, there is a voltage of auto-interference from neighboring parcels shifted in line 8 of the delay with taps for a time ± T, ± 2Т,; J; nT, where n -; Е--. However, it can be shown that the average signal-to-car interference ratio cannot be the same for one quadrature component and worse than two for the sum of two quadrature components. The signal / auto disturbance ratio of 2 is not enough for reliable reception, therefore in the decisive cascade 16 high thresholds are set. Decisions on the polarity of the packages in it are made only for a part of the packages, the likelihood ratio for which turned out to be rather high. For the rest of the parcels of the decision in this. the block is not accepted, and their decryption is postponed until they pass through subsequent blocks 2 of partial suppression of overlapping interference and determining the polarity of the additional part of the string. Decisions on the polarity of the parcels are issued by the decisive cascade 16 in the form of pulses of duration T with amplitude 1 or -1 if the decision is made with zero amplitude, if no decision has been made. By the beginning of deciphering in block 2 of partial suppression of overlapping and determining the polarity of the optional part of the parcels, the polarity of the part of information packets and the shape of the channel's impulse response are already known, therefore, the channel impulse responses to those packets, the polarity of which is already known, are regenerated. and these impulse responses are subtracted in the subtractive cascade 17 from the total signal transmitted through the delay line 8 with the taps of the first block 2 of the partial suppression of overlap and polarity determination Noah part of the feed. The regeneration of the impulse responses is carried out as follows. The information delay line 18, having taps at a time interval T, receives the decisions made in block 1 of the impulse response of the channel and determining the polarity of the part of the received feed. Multipliers 19 are applied to the tapes of the information delay line 18, which are supplied with voltage pulses of the impulse response, and the adder 20. Each positive or negative decision pulse, run by the delay information line 18, generates a total impulse response at the output of the adder. Since the operation of generating the impulse response to the impulse sent is linear, then several time-shifted impulses of the solutions, mileage delays) 18 give the superposition of impulse responses at the output of the adder 20. The level of mutual interference in the total signal after subtraction from it in the subtractive cascade of 17 parts and pulsatory responses decreases, therefore, the level. in addition, at the output of the additional multipath-consistent filter channel 21 is smaller. In the additional decisive cascade 23, taking into account this circumstance, lower thresholds are set and decisions are made on the part of the not yet decoded parcels. These solutions, taking into account the time shifts obtained in the second cascade, are fed to the inputs of the additional multipliers 25 and, in the decision information adder 24, the zeros remaining after the decisions made in the first cascade are replaced. Starting with the first block 2 partial interference suppression

and determining the polarity of the additional part of the quadrature channels 3 and 4, determines the weighting factor of the voltage correction of the impulse response of the channel according to the decision made in this block 2 of partial suppression of overlapping interference and determining the polarity of the additional part of the link. For this purpose, additional voltage multipliers 23 are included from the taps of delay line 8 with taps with additional voltage of additional decisive cascade 23. The result of multiplication goes to the second inputs of additional adders 26, the first inputs of which receive voltage from the outputs of additional adders 26 of the second block 2 partial suppression of overlapping interference and determining the polarity of the additional part of the feed. The outputs of the additional adders 26 are connected to the inputs of the additional adders 27j included in block 1 of the impulse response of the channel and determine the polarity of the part of the received feed, between the outputs of multipliers 9 to remove the manipulation and the corresponding integrators 10.

In the third and subsequent blocks 2 of the partial suppression of the overlapping interference and the determination of the polarity of the additional part of the parcels, if necessary, the same operations are repeated.

In the last block 2 of partial suppression of overlapping and determining the polarity of the additional part of the quadrature channels 3 and 4, the distinguishing feature is that the outputs of the additional multipliers 28 are connected to

5 to the first inputs of additional adders 26 of the previous block 2 of partial suppression of overlapping interference and determining the polarity of the additional part of the feed.

In the proposed device in each

The block 2 for the partial suppression of overlapping interference and for determining the polarity of an additional part of the premises of the TURR1SH channel 3 and 4 is reversed. communication by decision, which allows the impulse response to be received across all received information packages, and not according to their part, as in the known device.

Claims (1)

DEVICE FOR DEMODULATION OF SIGNALS RELATED TO PHASE TELEGRAPHY, PASSED BY A MULTI-RELAY COMMUNICATION CHANNEL according to ed. No. 341170, characterized in that, in order to increase the noise immunity, a partial block is introduced into each channel except the last one: suppression of overlapping interference and determining the polarity of the additional part of the packages, the first additional multipliers and first additional adders, into the last block of partial suppression of overlap and determining the polarity of the additional part of the packages - the second additional multipliers, in the block allocation of the impulse response of the channel and determining the polarity of the part of the received packages - the second additional the total adders, while the outputs of the multipliers for removing manipulations to the inputs of the corresponding integrators, the outputs of the delay line with the taps of the last block of partial suppression of overlap interference and determining the polarity of the additional part of the packages are connected to the first inputs of the corresponding second additional multipliers, the second inputs of which are connected to the output of the additional decision cascade of the last block of the partial suppression of interference overlap and determine the polarity of the additional part of the sprinkles x additional multipliers through the corresponding first additional series-connected adders are connected to the second inputs of the corresponding second additional adders, the outputs of the delay lines with taps of each, except for the last, block partial suppression of overlap and determine the polarity of the additional part of the packages are connected to the first inputs of the corresponding first additional multipliers, second the inputs of which are connected to the output of an additional decision stage of each, except the last , Block overlapping partial suppression of interference and polarity determination portion further parcels, the second inputs of the first additional adders are connected to respective outputs' tion through respective second additional adders connected first additional multipliers. 1 1190535 2