SU900309A1 - Device for reproducing frequency-modulated signals from magnetic carrier - Google Patents

Description

I

The invention relates to the field of instrumentation, namely to a device for reproducing frequency-modulated signals using magnetic recording equipment.

A device for reproducing frequency-modulated signals is known, having a channel for information signals and a separate channel for reference frequency signals p.

However, provided that it is possible to compensate for either the detonation itself or the distortions that occur during detonation, which the Shaper, the generator and a number of blocks operating in the discrete switching mode contribute to in each channel, such a device is difficult to use on unattended objects, since the accuracy of the reproduced signals will be not high enough due to the need to block the circuit with a number of auxiliary units to compensate for distortions arising in connection with detonation.

The closest to the present invention is a device for reproducing frequency-modulated signals from a magnetic carrier, comprising a tape drive connected to a common shaper, one output of which is connected to the first input of the amplitude distortion compensator through the demodulator of the other signals through the ds; ; the reference frequency signal generator - with the second input of the same compensator.

However, this device creates relatively high temporal suits.

20, which reduces the accuracy of information reproduction.

Claims (2)

The purpose of the invention is to improve the accuracy of information reproduction by reducing the effect of temporal distortion. The goal is achieved in that the device for reproducing frequency-modulated signals from a magnetic carrier, containing a tape drive, connected to a common driver, one output of which is connected to the first input of the amplitude distortion compensator through the demodulator torus of reference frequency signals - with the second input of the same compensator, three consecutive electrical circuits were introduced, the first of which contains a sampler, analog-digital th converter, memory block and code-analog converter, second — frequency modulator, shunting address shaper, address comparison and magnetic movement displacement speed corrector, and a third master oscillator and shunting playback address, while the frequency modulator input is connected to the output the demodulator of the reference frequency signals, the first input of the sampler to the second input of the analog-digital converter and to the output of the frequency modulator, the second input of the memory unit to the first input of the comparison element the third input of the memory unit to the output of the playback address generator and to the second input of the address matching element, the second output of the addressing address generator to the second input of the playback address generator, the output of the speed control of the magnetic carrier to the input of the tape drive mechanism and the second sampler input - to the output of the amplitude compensator. The drawing shows a block diagram of the proposed device. Drive 1 of the tape drive mechanism (the tape drive mechanism is not shown in the drawing) through searches shaper 2, demodulators 3 and 4, compensator 5 amplitude distortion, sampler 6, analog-digital converter 7 and block 8 of data are connected to converter 9 code - analog Demodulator 3 is a demodulator of information signals, and demodulator 4 is a demodulator of reference frequency signals. The shaper 10 of the address of the address is connected to the output of the demodulator 4 via a frequency modulator 11, and the outputs of this ff shaper are connected to the address comparison element 12 and to the playback address generator 13, to the second input of which the oscillator 14 is connected. and the input of the actuator 1 is a corrector 15 of the speed of movement of the magnetic carrier (in the drawing, the magnetic carrier is not shown). The device is made according to a scheme that does not require special decryption: the name of each block and element unambiguously determine their purpose and operating principle. The reproduced frequency-modulated signal after forming in shaper 2 and demodulation gets simultaneously to the compensator 5 and to the frequency modulator 11. The advantage of frequency modulation is that it is perfectly safe for the quality of the main signal to cut amplitude noise and bursts. This function is performed by the amplitude distortion compensator 5, which can operate not strictly in the limiting mode, namely in the compensation mode, which improves the quality of the signals received at its output. At the output of the extractor 6, a certain pulse (discrete) sequence is formed. The moments of occurrence of pulses at the output of the sampler are determined by pulses recovered in demodulator 4, i.e. recovered only from the signals of the reference frequency. These pulses after converter 7 receive a digital form, and then digital information signals are input into memory block 8 at a frequency corresponding to the frequency of signals received from demodulator 4. Playback from block 8 occurs at a frequency determined by the operating mode of the master oscillator 14. Block the memory will function normally (i.e. not overflow) in the case when the maximum amount of its memory would be at least equal (and better if greater) to the maximum number of binary characters per unit of time. This conditional maximum number must in real conditions exceed the number of reproducible binary signs. The device provides the ability to accurately determine the discrepancy between the play addresses and the addresses of the entries (and vice versa). For this, the signals from the drivers of the named addresses are entered into the address comparison element 12. When the addresses fully correspond to each other, the signal does not develop at the output of the comparison element and the carrier’s moving speed will remain unchanged, if there are differences in the signal levels, the corrector 15 will enter will give the appropriate command to the drive 1 of the tape drive mechanism. As a result of the implementation of the invention, it is possible to compensate not only amplitude distortion, but also compensate for parasitic frequency modulation, which is especially important for facilities that are either not at all serviced, or are rarely subjected to adjustment and adjustment. This saves the cost of prematurely creating new magnetic recorders, and consequently, labor, materials, energy, and other costs. Formula of the Invention A device for reproducing frequency modulated signals from a magnetic carrier containing a tape recorder connected to common driver, one output of which through the demodulator of information signals is connected to the first input of the compensator of amplitude distortions, and the other through the demodulator of the reference frequency signals 96 to the second input of the same A compensator, characterized in that, in order to improve the reproduction accuracy of information by reducing the effect of temporal distortions, three consecutive electrical circuits are introduced in it, the first of which contains a sampler, an analog-to-digital converter, a memory block and a code converter, and the second is a frequency the modulator, the shaper of the addresses of the entry, the element of the comparison of the addresses and the corrector of the speed of movement of the magnetic carrier, and the third is the master oscillator and the shaper of the addresses of the reproduction, while the input is This modulator is connected to the output of the demodulator of the reference frequency signals, the first input of the sampler to the second input of the analog-digital converter and to the output of the frequency modulator, the second input of the memory unit to the first input of the address comparison element, the third input of the memory unit to the output the replay address shaper and to the second input of the address matching element, the second output of the shuffle address shaper to the second input of the replay address shaper, the output of the magnetic carrier movement speed equalizer - to the input of the tape drive mechanism and the second input of the sampler - to the output of the amplitude distortion compensator. Sources of information taken into account in the examination, 1. USSR author's certificate №472369, cl. SPB 5/04, 1974. 2. USSR author's certificate №458856, cl. G 11 5/02, 1973 prototype).