SU1141586A1 - Demodulator of phase-difference-shift keyed signals - Google Patents

Abstract

DEMODULATOR SIGNALS WITH RELATIVE PHASE MODULATION, containing three phase demodulators, the first inputs of which are combined and are the device's input, the second inputs through the corresponding delay lines connected to the output of the source of the reference signal, as well as the selection unit, which, for the purpose of looking at the reference, the output of the reference signal source, as well as the selection unit, will be connected to the output source of the reference signal, as well as a selection unit that is connected to the source signal of the reference signal , three comparison blocks were introduced, the output of the first phase demodulator connected to the first input of the first comparison block, the second input of which and the first input of the second comparison block are connected to The output of the second phase demodulator, the output of the third phase demodulator is connected to the second input of the second comparison unit, the output of which is connected to one input of the third comparison unit, kn the other input of which is connected to the output of the first comparison unit, the output of the third comparison unit is connected to the input of the selection unit.

Description

The invention relates to electrical communication and can be used in digital information transmission systems with relative phase modulation in interrupt channels.

The in-phase quadrature demodulator is known, which contains two mixers, one input of which is connected and IS the device input, the other inputs are connected respectively to the sources of reference signals, a. outputs to the inputs of the integrators connected to the Cl3 microprocessor.

However, the known device is inherent lack of immunity.

The closest technical solution to the invention is a de-modulator of signals with relative phase modulation, containing three phase demodulators, the first inputs of which are combined and are the input of the device, the second inputs are connected to the source of the reference signal via corresponding delay lines block selection 21.

However, the known demodulator is not very robust.

The purpose of the invention is to improve noise immunity.

The goal is achieved by the fact that the demodulator of signals with relative phase modulation, containing three phase demodulators, the first inputs of which are combined and the input of the device, the second inputs through the corresponding delay lines connected to the output of the source of the reference signal, as well as the selection unit, three comparison units, the output of the first phase demodulator connected to the first input of the first comparison unit, the second input of which and the first input of the second comparison unit are connected to the output of the second phase demodulator , the output of the third phase demodulator is connected to the second input of the second comparison unit, the output of which is connected to one input of the third comparison unit, the other input of which is connected to the output of the first comparison unit, the output of the third comparison unit is connected to the input of the selection unit.

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

The demodulator of signals with relative phase modulation contains phase demodulators 1-3, the source 4 of the reference signal, delay lines 5-7, comparison blocks 8-10, selection block 11.

The demodulator works as follows.

On one inputs of phase demodulators 1-3 of the first, second and third channels, an input signal is received with relative phase modulation, on the other - reference signals of source 4, having different initial phases (O, 60 °, 120 °) after passing through delay lines 5-7. In this case, the magnitudes of the signals at the output of the phase demodulators 1-3 of the first, second, and third channels are different, since they are determined by the magnitude of the projection of the signal vector to the corresponding vectors of the reference signals. The highest signal level will be at the output of that phase demodulator, the phase of the reference signal of which is closest to the phase of the input signal. Three differing in magnitude signals from the outputs of phase demodulators 1-3. arrive at the inputs of the comparison unit 8 and the comparison unit 9 in pairs. In the first comparison unit 8, the highest signal from the output of the phase demodulator 1 of the first channel and the output of the phase demodulator 2 of the second channel is compared and selected. In the second comparison block 9, the largest signal is compared and selected from the signals from the output of the phase demodulator 2 into the second channel and from the output of the phase demodulator 3 of the third channel. Comparison unit 10, which receives signals from the outputs of comparison units 8 and 9, compares these signals and selects the largest one, which then goes to selection unit 11, which checks this signal for code compliance. After npoBepKij for matching the code, this largest signal goes to the output.

Thus, the introduction of the three comparison blocks included in the proposed pattern allows the selection of a channel with the maximum

311415864

signal, which is significant (more than the pressure of the remaining two signals with

than 6 dB) increases noise immunity — increased likelihood

How to receive a digit code due to false numbers.

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Claims (1)

SIGNAL DEMODULATOR WITH RELATIVE PHASE MODULATION, containing three phase demodulators, the first inputs of which are combined and are the input of the device, the second inputs are connected through the corresponding delay lines ^{to the} output of the source of the reference signal, as well as a selection unit, so that that, in order to increase the noise immunity, three comparison units are introduced, the output of the first phase demodulator connected to the first input of the first comparison unit, the second input of which and the first input of the second comparison unit connected to the output of the second phase of the second demodulator, the output of the third phase demodulator is connected to the second input of the second comparison unit, the output of which is connected to one input of the third comparison unit, the other input of which is connected to the output of the first comparison unit, the output of the third comparison unit is connected to the input of the selection unit.