SU434561A1 - DEVICE FOR DISTINGUISHING FOUR-POSITION PHASE-MANIPULATED SIGNALS - Google Patents

Description

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The invention relates to the field of communication technology and can be used as a phase detector in receivers of discrete information transmission systems with phase telegraphy or relative phase telegraphy.

The known devices for distinguishing four-position phase-shift keyed signals STATE from the reference oscillator, phase shifter, two multipliers, two integrators, and a decision block. The most complex nodes of such devices are multipliers.

The aim of the invention is to increase the reliability of the device.

This is achieved by including in the circuit of the proposed device an amplifier and threshold blocks instead of a single multiplier and phase shifter, which simplifies the circuit of the device.

The drawing shows a functional diagram of the proposed device.

The device consists of an amplifier 1, a multiplier 2, a generator 3 of the reference oscillation, a differentiator 4, threshold blocks 5-8, integrators 9-12 and a block 13 for choosing a solution.

The device works as follows.

The input signal x can be equal to one of four signal samples having

equal amplitudes and initial phases shifted by 90 °: Si sinco, 82 -sin 0 /, 83 cosco /, 4 -cosa t. The unit consisting of amplifier 1 and multiplier 2, included in the negative feedback circuit of the amplifier and controlled by generator 3, performs the operation of dividing input signal voltages xn of a sample of signal Si generated by reference oscillator 3. The output voltage of amplifier 1, equal to the x / Si ratio, is fed to the inputs of differentiator 4 and threshold blocks 5 and 6. The differentiated voltage from the output of differentiator 4 is fed to the inputs of threshold blocks 7 and 8. The outputs of threshold blocks are connected to the inputs of the corresponding integrators 9- 12, in which the output voltages of the threshold units are integrated for the duration of one signal burst. The integrator outputs are connected to a decision block 13.

If a x Si signal arrives, the voltage at the output of amplifier 1 is positive (equal to + 1) and constant, and the output voltage of differentiator 4 is zero. If signal S2 arrives, the voltage at the output of amplifier 1 is negative (equal to -1) and constant, and the output voltage of differentiator 4 is also zero. If a 5z signal arrives, the voltage at the output of amplifier 1

It can take any value, and the voltage at the output of differentiator 4 is always negative and in absolute value is greater than level / Cf (where K is the transfer coefficient of the differentiator at the frequency). Similarly, if signal 54 arrives, the voltage at the output of amplifier 1 can be any value, and the output voltage of differentiator 4 is always positive and higher than the Ls level.

In accordance with this, phase-shift keyed signals are distinguished. The thresholds in the threshold blocks are set so that the maximum output voltage of each integrator corresponds to the arrival of a particular signal. The output voltage of the threshold unit 5 is positive if the output voltage of amplifier 1 is positive; output

-4iaitpH "eHHe threshold block 6 is positive if the output voltage of amplifier 1 is negative. Thus, the signal: Si corresponds to the maximum output voltage of the integrator 9, and to the signal Sg - the maximum output voltage of the integrator 10. At the output of the threshold block 7, the voltage is positive if the output voltage of the differentiator 4 is less than the threshold equal to-Ki. At the output of the threshold block 8, the voltage is positive if the output voltage of the differentiator 4 is greater than the threshold equal to + / С (о. Therefore, the signal s corresponds to the maximum output voltage of the integrator 11, and the signal 54 is the maximum output voltage of the integrator 12. As a result Comparing the output voltages of all four integrators, the decision block determines which of the signals is input to the device.

Subject invention

A device for distinguishing four-position phase-shift keyed signals containing a multiplier controlled by a reference oscillator and four threshold blocks, each through its own

The integrator is connected to the appropriate input of the decision block, characterized in that, in order to increase the reliability of the device, the multiplier is connected to the negative feedback circuit of the amplifier, the output of which is connected to one pair of threshold blocks directly and to the other pair through a differentiator.

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