SU317099A1 - DEVICE FOR REPRODUCTION - Google Patents

Description

The invention relates to the technique of magnetic reduction and reproduction of electrical signals and can be used to create compact magnetic carriers using integrated circuits.

Devices for reproducing a phase-shift keyed signal from a magnetic recording medium are known, comprising a reproduction amplifier connected to a synchronizer, which includes a full-wave rectifier, a band-pass filter, a trigger pulse driver, a frequency divider, a clock driver. The synchronizer of the known device takes a long time to get into synchronism, which reduces the reliability of reproduction.

In the proposed device, in order to increase the noise immunity, the playback amplifier is connected to the AND circuit and to the inverter connected to another I. The second inputs of the "And" circuits are connected to the trigger output of the synchronizer, and the outputs are connected via a full-wave rectifier to one of the trigger inputs, the outputs of which are connected to the inputs of the other two I. The other inputs of these latter circuits are associated with the synchronizer trigger. The output of one of the circuits "And connected to the input of one of the mentioned triggers and to the input of the trigger, the other input

which is connected to the output of the other of these two schemes “Pi.

The drawing shows a diagram of the device. The device contains a reproducing magnetic head /, a playback amplifier 2, a synchronizer 3, consisting of a trigger 4 with a generator 5 connected to its counting input; inverter 6, circuits "And 7 and 8, trigger 9, two-wave half-rectifier 10, trigger Il, circuits" And 12 and 13, trigger 14. Information in binary code is recorded on a magnetic carrier with demolition with relative phase manipulation (OFM) . One period of a carrier signal generator 15 per binary unit of information is used. “The unit of information corresponds to one value of the phase difference of two periods (parcels), 0 °, and“ to zero information is another value of the phase difference, for example, 180 °. Such a write current coding is performed in the phase manipulator 16. The signal generated by the manipulator 16 is recorded on magnetic media by the recording head 17.

The reproduced signal, having passed through the playback amplifier 2, is fed to the inputs of the synchronizer 3, the inverter 6, and the “And 7” circuits in the form of voltage drops. In the synchronizer, the coherent voltage is restored, from which two sequences of eynchronous pulses are formed with the help of formirovagels IS n 19. One of the sequences is shifted relative to the reproduced information sequence by a quarter of a period. Between themselves, these sequences of clock pulses are shifted by half Nernod. One sequence of sync pulses goes to the inputs of the “And 7 and 8” circuits, and another to the inputs of the “12 and 13” circuits. At the output of the trigger 9, there are drops of nanrushi corresponding to the phase jumps in the initial sigale. From the output signal of the thrpg 13, using a two-luide rectifier 10, pulses are formed, the number of which is equal to the number of phase jumps in the source signal, and therefore, the received modulation type is equal to the number of zeros in the information sequence. The circuit next to migrale 10 performs the function of separating the "bullet and" units and generates an output signal in the form of nonrepads of trigger level 14. For this, the output emulator from rectifier 10 triggers trigger 11 on one input. At another input, trigger 11 returns to its initial position by the output signal of the circuit “And 12. Depending on the nolo / keni of the transponder // sync pulses, paired with the period, appears at the output of the circuit“ And 12, or at the output of the circuit “PI 13. The number of pulses at the output of circuit 12 corresponds to the number of “zeros, and the number of emulsions at the output of circuit 13 to the number of units reproduced from the magnetic carrier. Output trigger 14 is disabled by pulses. Thus there is an imitation of information. The effect on the accuracy of detecting the fluctuations of the time scale of the reproduced signals is very different from the non-disparity of the carrier's speed, which is significantly weakened, as the selection of information is performed by gating the sigals by narrow synchro-pulses. A change in the number of sync pulses within half of the elementary premise does not entail a malfunction (onshock). Changing the phase of a reproducible sigal to an inverse (measuring the duration of more than one half of one parcel) causes the loss of only one binary unit of information. The synchronous pulses, allocated by the synchronous signal from 1G: 1 (|) () of a signal, are always rigidly applied to it. When the signals on the i-cell are dropped, the clock pulses retain their temporary position, determined by the phase of the latter before the release of the grid. This is achieved by the fact that the synchronizer has an internal master oscillator, the oscillation phase of which varies in time with the phase variation of the information signal. Since the doubled carrier frequency is always present in the OFM signal, the generator operates at the binary frequency. The frequency of the generator is split by a trigger4. The device and the device for reproducing the phase of the fusion signal from the carrier of the magnetic recording, containing triggers, schemes "And, a two-wave period finder and a counter-magnetic head connected to the synchronizer, consisting of trigger and connected to its counting generator input, characterized in that, in order to increase the immunity of the device, the playback amplifier is connected to the AND circuit and to the inverter connected to another AND circuit, the second inputs And are connected to the output of the synchronizer's parallel trigger and are connected via a two-loop rectifier to one of the trigger inputs, the outputs of which are connected to the input n of the two AND switches, the other inputs of which are connected to the synchronizer trrnper, the output one of the two last mentioned schemes “And connected to the input of one of the mentioned triggers and to the input of the trigger, the other input of which is connected with the outputs of the other of these two schemes“ I.