SU811503A1 - Method and device for isolating principal mode from synchronized phase manipulatedreceived signal - Google Patents

Description

The second generator and two multipliers, the first inputs of which are combined, and the outputs are connected to the inputs of the respective integrators, the output of the main phase shifter is connected to the second input of the corresponding single multiplier, and the installation inputs of the integrators are synchronized with the 1st smgunal, an additional phase shifter, an addendum is supplied, a synchronizer of the 1st smgunal is added, an additional phase shifter, an adder, and two Adapters are supplied, synchronizing the 1st smgunal; The inputs of which are connected respectively to the outputs of the controlled generator and integrators, the inputs of which are connected to the inputs of an adder whose output is connected Valid lowpass filter, the outputs of controlled phase shifters respectively connected to the inputs of n basic additional phase shifter, the output of which is connected to the second input of the corresponding neremnozhitel.

The proposed method is as follows. Two auxiliary signals independently controlled in phase are formed, the received FM signal is constantly compared in phase with the auxiliary signals, the current results of the comparison of the phases of the received FM signal and the auxiliary signals control the phases of the corresponding auxiliary signals so that the phase difference between the current phase of the received signal and the current phases of the respective auxiliary signals tended to zero, the current phase of the reference oscillator being separated is defined as the arithmetic average e phase auxiliary current signals at timings of the start of each information symbol, which is used for opredelepn preset symbol timing is set both auxiliary signals phase jump pr; + 90 ° n -90 °, respectively, with respect to oscillations emitted by onopiHoro.

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

A reference oscillator extraction device from a synchronized FM received signal contains a low-pass filter (LPF) /, controlled oscillator 2, two multipliers 3, 4, two integrators 5, 6, main phase shifter 7, additional phase shifter 8, adder 9 and two controlled phase shifters 10, L1. The combined inputs of the multipliers 3, 4 are the input of the device, a synchronizing signal is applied to the installation inputs of the integrators 5, 6.

The device works as follows.

The signal inputs of the controlled phase shifters 10, 11 receive a signal from the controlled oscillator 2, which forms the selected reference oscillation. With the presence of phase mismatch by the received signal, which is fed to the inputs of interceptors 3, 4, and auxiliary signals, which are formed

on the outputs of adjustable phase shifters 10, 11, at the outputs of multipliers 3, 4 constant components appear, which, through integrators 5, 6, change the phases of the auxiliary signals. At the beginning of each information symbol, synchronizing imiuls enter the installation inputs of the integrators 5, 6, as a result of which the following values are set in the integrators 5, 6

signals at their outputs, at which the phase shifts at the outputs of controlled phase shifters 10, P with respect to the oscillation phase at their signal inputs are ± 90 °, respectively. This ensures the necessary jump-wise change of the phases of the auxiliary signals relative to the reference oscillation being extracted at the moments of the beginning of each information signal. After being introduced at the start

Each information symbol of phase jumps to auxiliary signals in the device begins the process of tracking these jumps. The values of the signals from the outputs of the multipliers 3, 4 are determined by

phase difference of the received signal and auxiliary signals. These signals are summarized in adder 9 and controlled by the low-pass filter / controlled by the generator 2. If the phase difference of the received signal and

the auxiliary signals are equal and have different signs, the signal at the output of the adder 9 is zero, and the phase of the oscillating wave is not corrected. If the signals at the inputs of the adder 9, do not

are opposite, then a non-zero signal appears at its output, which through the low-pass filter} acts on the control input of the controlled oscillator 2, causing a corresponding change in the frequency n of the phase of the extracted reference oscillation.

Claims (2)

Invention Formula I. A method for extracting a reference oscillation from a synchronized phase-suppressed annihilated signal, based on the formation of two auxiliary signals and the subsequent phase comparison of each of the auxiliary signals. signals with a received synchronized phase-shift keyed signal, characterized in that, in order to increase the accuracy of the reference oscillation, the phase difference between the adopted synchronized phase-shift key signal and each of the auxiliary signals is measured, form signals proportional to the measured phase differences that control the phases corresponding auxiliary signals, reducing the phase difference to zero, and the current phase of the extracted reference oscillation is defined as the arithmetic average The phases of the auxiliary signals change abruptly the phases of the auxiliary signals by + 9.0 ° and -90 °, respectively, relative to the reference oscillating waveforms. 2. An apparatus for carrying out the method of claim 1, comprising a series-connected low-pass filter and a controlled oscillator and two multipliers, the first inputs of which are combined, and the outputs connected to the inputs of the respective integrators, the output of the main phase shifter being connected to the second input of the corresponding multiplier, and A synchronizing signal is supplied to the installation inputs of the integrators, characterized in that an additional phase shifter, an adder and two controlled phase shifters are inputted into it, the inputs of which are connected Inen respectively with the outputs of the controlled generator and integrators, the inputs of which are connected to the inputs of the adder, the output of which is connected to the input of the low-pass filter, while the outputs of the controlled phase shifters are connected respectively to the inputs of the main and additional phase shifter, the output of which is connected to the second input of the corresponding multiplier The source of information taken into account in the examination: 1. Stifler J.J. Theory of synchronous communication. M., “Svy, 1975 (prototpp). h