SU403084A1 - INFORMATION - Google Patents

Description

one

The invention relates to the field of digital communication systems.

A device is separated diversity reception of discrete information in the definition of "nosyka or" pause. In the incoming signal, a simultaneous analysis of the amplitude values and phase deviations in all branches x is performed. Such an embodiment of the known device permits the m to be carried out a thorough analysis of the effect on the transmitted signal of both amplitude and phase distortions.

A disadvantage of the known diversity reception device is the impossibility of calculating the rate of change of phase shifts in the diversity branches.

In order to improve the accuracy of the selection of the diversity branch in the proposed device, in each branch of the diversity, the output trace is w, its filter of the reference frequency of the signal is connected through serially connected additionally entered key and memory circuit to one of the inputs of the additionally introduced threshold phase selector, to another the input of which is connected to the output of the following signal frequency filter, and the output of the threshold phase selector is connected to the input of the sample key and to the input an additional input the soil part of the difference calculator

sampling frequency, the output of the latter is connected to the third input of the solver, it has a circuit, and the output of the generator is connected to the clock inputs of the memory circuits

discrete phase values and following filters.

Thus, the selection of the diversity branch in the proposed device is carried out both taking into account the signal levels in the diversity branches, and taking into account the rate of change of the signal propagation time.

The drawing shows a block diagram of the proposed device.

In the proposed device, the outputs 1 of the two branches of the diversity pass through the bandpass filters 2, the amplifiers 3 are connected to the inputs of the detectors 4, the inputs of which are connected to the inputs of the amylptud unit 5, and the output of the latter

the control input of the solving circuit 6, the second input of this circuit by a double circuit is connected to the output of the computational 7 of the difference of the sampling frequency, and the output of the solving circuit is connected to the input terminal 8 of the device. The outputs of the detectors 4 are connected to the signal inputs of the trace of the 9 filters of the on-signal frequency and to the signal inputs of the solving circuit 6. The clock inputs of the trace of the filter 9 are parallel to the clock inputs of the circuits 10 of the memory of sampled values of phase

Dinei with the output of the frequency generator 11 reference frequency. The outputs of the following filters 9, as well as the outputs of the circuits 10 and these keys and the different inputs of the threshold phase selector 12, B1) whose inputs are connected to the inputs of the key control 13 5 and and from the signal. 1 moves 1 AND CLEANERS 7. Sipill inputs of keys 13 of the sample and keys to 1 outputs of the following filters 9, outputs of keys 13 of the sample to the signal inputs of circuits 10 and 60.

The device works as follows.

The signals that come from the output 1 of the receivers of the two branches of the diversity and after the passage of the band-pass filters 2, the amplifiers 3, are compared in amplitude at block 5 of the amplitude comparison. The signal inputs of the rotating circuit 6 from the outputs of the detectors 4 and the pulses of the transmitted discrete information are sent, the first control input of the cutting circuit 6 receives the result of the analysis of the levels of incoming signals.

The determination of the diversity branch with the minimum and unstable propagation time in the proposed device is performed as follows.

The following filters 9, made in the form of circuits of discrete auto-tuning of the phase, monitor the change in the temporal propagation of the signal with a time constant determined by the integration factor and the adjustment step. By choosing the integration factor and the adjustment step, it is possible to track the fastest changes in the propagation time, however, single phase spikes and edge distortions of the signal fronts and the operation of the following filters 9 should not be affected. The memory circuits 10, made i in the form of frequency dividers, are started in phase using the keys 13 in-phase with the controlled circuit dividers. discrete auto-pad - :) yk11 phase.

On the threshold phase selectors 12, the phases of two synchronous pulse sequences are compared. The pulse sequences from the memory circuits 10 vary in time with instability equal to the instability of the master oscillator, i.e. can practically be taken as stationary for a short time interval, and the sequences of the pulses from the next filters 9 change in time according to with variations in propagation time. If the temporal position of these two sequences changes to a certain value of the phase norm, then at the output of the normal phase selector 12 an impulse appears at. the aid of which memory circuit 10 is set to the initial position, and the selector 12 again begins to measure the phase difference of the two pulsed positions.

An impulse from the output of the selector 12 simultaneously arrives at one of the inputs of the calculator 7 of the difference in frequency of the two asynchronous NMs of the rear horn. If, in the interval between pulses from the output of the selector 12 of one branch of diversity, a pulse comes from the output of selector 12 of another branch of diversity nln vice versa, then the output is calculated; | it is 7; there is no, as a result, the instability of the propagation time in both branches x is the same, and the separation branch should be selected on the basis of the average

signal amplitudes. If, in the interval between pulses from the output of the selector 12 of the same branch, two pulses are output from the output of the selector 12 of the other branch of the diversity, then the output 14 of the calculator 7 causes a pulse, the arrival of which at the input of the decisive circuit 6 indicates that the instability of the propagation time the signal sticking to the input from one branch of diversity is two times worse than the instability of the propagation time of a signal that is input to the other branch of diversity.

The discretization step in the variable of the propagation time is determined by the threshold phase shift to which the selector 12 can react. Increasing the resolution ability of the latter reduces the error in the discretization of the change in the time distribution, which leads to increased frequencies of the pulsed sequences received from the inputs, and the result of the measurements. more efficient management of the work of repuip; to her scheme 6.

A specific choice of such a sampling step can be made only after analyzing a specific path but autocorrelation functional distortion of multipath.

11 p e d m e t invent

A device of separated discrete information containing a bandpass filter, amplifier, detector and trace in each branch of the diversity, a filter of the reference frequency of the sigal, and in the group part a geierator of the reference frequency and serially connected unit of amplitudes and a decisive circuit to another input The latter is connected to the detector output, to the input of which the input of the block is compared compared to the amplitudes, characterized in that, in order to improve the accuracy of the diversity branch selection, in each branch of the diversity d

the following filter of the iodine frequency of the signal iod; night, through sequentially connected, the additionally entered sample key and the circuit 1 of sampled phase values to one of the inputs of the previously entered threshold phase selector, to the other input of which the output of the follower filter of the reference frequency of the signal is connected, and the output of the threshold phase signal The selector is connected to the key selected on the input of the additionally entered j; The rpyiiiiojiyio is part of the computation of the bodies of the difference in the sampling frequency, the output of the latter is connected to the third input of the solving circuit, while the output of the reference frequency generator is connected to the clock inputs of the circuits of the discrete phase values of the 11 following filters.