SU566390A1 - Demodulator of phase telegraphy signals - Google Patents

Description

one

The invention relates to radio engineering and may find substitutions in information transmission systems, in particular in radio relay and space, pin communications.

A phase telegraphy demodulator containing a carrier regenerator is known, the outputs of which are connected to one of the inputs of the main and additional phase detectors, the other inputs of which and the input of the carrier regenerator receive an input signal, and the outputs of the main and additional phase detectors are connected to the inputs of the comparator unit and the output threshold the block - to the control input of the inversion block t - l

However, this device has a low noise immunity of receiving phase telegraphy signals.

The purpose of the invention is to enhance, interfere with the stability of the demodulator.

To do this, the demodulator of phase telegraphy signals containing a regenerator of hens, whose outputs are connected to one of the inputs of the main and additional phase detectors, to the other inputs

which and the carrier regenerator input is fed into the input signal, moreover, the outputs of the main and additional phase detectors are connected to the inputs of the comparison unit: and the output of the threshold unit is connected to the control input of the inverting unit, the K - bit shift register, clock generator and T-bit are entered a single shift register, to the signal output of which the output of the comparison unit is connected, and the outputs are connected to the inputs of the threshold unit, the output of the main phase detector is connected to the input of the clock generator directly The signal input of the inversion unit is through the Diffusive Shift Register, to the synchronization input of which and to the Synchronization Input T is a bit of the shift register, the output of the sync pulse, where,, 2,3, is connected. . . .

The drawing shows a structural electrical circuit of the demodulator of phase telegraphy signals.

The demodulator of phase telegraphy signals contains a carrier regenerator 1, the outputs of which are connected to one of the inputs of the main 2 and additional 1) Nogo 3 phase detectors, the other inputs of which and the input of the carrier regenerator are fed to the main and additional phase detectors connected to the inputs comparison block 4, the output of the threshold block 5 to the control input of the inverting unit 6, K-bit shift register 7, shaper of sycosymposes 8, T-bit discharge shift register 9, to the signal input of which The output of the comparison unit is switched on, and the outputs are connected to the inputs of the threshold unit, the output of the main phase detector is connected directly to the input of the clock generator, and to the signal input of the inverting unit through K - the discharge register register, to the synchronizing input of which is connected to the synchronizing input T - the bit shift register is connected to the output of the sync pulse generator, where,, 2,3. . . . The demodulator works as follows. The input phase-manipulated signal is demodulated in parallel with the main 2 and additional 3 phase detectors. At the output of the main phase detector there is a mixture of a demoled noise signal passing through the signal input of the main phase detector and the phenomenon of feedback, which is due to periodic changes in the sign of the groups of packages due to phase jumps at 1180 in the carrier regenerator 1. Noise; that has passed through the signaling output of the main phase detector 2 is an individual received incorrect burst. Fraternity work covers many hundreds of further parcels. At the output of the additional phase detector 3, there is a mixture of the demodulated signal to noise, which is a separate received incorrect packet. The phenomenon of inverse operation at the output of the additional phase detector 3 is absent. The probability of damaging a parcel at the output of the additional phase detector 3 is significantly higher than at the output of the main phase detector 2. At the output of the comparator 4 unit, a voltage of the first magnitude is generated when the signs of the parcels at the outputs of both the detector 2 and 3 and the second value are generated when the detector does not coincide. The synchro shaper 8 synchronizes p €; shift masters 7, 9 for the packages, from 1 for the bit register from the WIG Q and the threshold block 5 each, and the 1st time monitor of the axis, and 1ST1 for 1 analysis of T packages with output h of comparison block 4, where T is 2K + 1,, 2.3 ... If more than half of the parcels indicate a mismatch of the signs of the parcels at the outputs of both detectors 2 and 3, the threshold of block 5 is exceeded, the signal for inverter 6 that changes the polarity of the sequence of parcels from the output of the main phase detector 2. Ta In this way, the reverse work is corrected. From the moment of the beginning of the reverse operation, or its termination, until the control signal about the threshold unit 5 is sent to the inverting unit 6, the time interval passes that is equal to the duration of the K packages. To eliminate the passage. The unsolicited messages from the output of the main phase detector 2 to the output of the demodulator of the phase telegraph signals are in the specified time interval between the output of the basic phase detector 2 and the signal output of the inversion unit 6 is turned on To the bit shift register 7, which delays the demodulated signal by time equal to the duration of the packages. Its inclusion-eliminates a delay in correcting reverse work. The formula of the invention and the demodulator of phase telegraphy signals containing a carrier regenerator, the outputs of which are connected to one of the inputs of the main and additional phase detectors, the other inputs of which and the input of the carrier regenerator are supplied with an input signal, and the outputs of the main and additional phase detectors are connected to the inputs of the block comparison, and the output of the threshold unit is connected to the control input of the inverting unit, which means that, in order to improve the noise immunity, K is entered. hectare, the sync pulse shaper and T are the bit shift register, the output of the comparison unit is connected to the signal input, and the outputs are connected to the inputs of the threshold unit, the output of the main phase detector is directly connected to the input of the sync pulse generator, and to the signal input of the inverting unit through K - the bit shift register, to the sync input of which and to the sync input T - of the bit shift register, the output of the sync pulse generator, where T-2K. + 1, K 1,2,3 .... is connected. taken into consideration. mania during examination: 1. US Patent No. 3826990, cl. 32950, 1974 - a prototype.

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