SU1262566A1 - Device for digital magnetic recording-reproducing - Google Patents

Abstract

This invention relates to magnetic recording devices. The purpose of the invention is to increase the reliability of the reproduction result. The device contains triggers 1 and 10, block 2 recording and playback, shaper 3 extreme and zero values, one-shot 4, 7, 8 and 9, shapers 5, 6, 11, 12 and 13 pulse differential, elements OR 14, 15 and 16, elements 17, 18 and 19, delay elements 21, 21 and 22, element NO 23, input bus 24 sync pulses, output bus 25 sync pulses, information output buses 26 and 27, information input bus 28. The introduction of new elements and the formation of new connections between the elements of the device allows the formation of a recording signal possessing the properties of self-synchronization, and when reproducing information, the signals of continuous synchronization are restored with high reliability, which leads to the achievement of the objective of the invention. 1 il.

Description

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Claims (1)

O5 O5 The invention relates to the field of magnetic recording, in particular to devices for digital magnetic recording-reproduction. The aim of the invention is to increase the reliability of the reproduction result. The drawing shows one of the possible variants of the proposed device for digital magnetic recording-reproduction. The device contains a first trigger 1 connected by an output to an input of a recording-reproducing unit 2 connected by an output to an input of an extreme 3 and zero values generator 3, a first one-oscillator 4 connected by an output to an input of a first differential driver 5 impulses of differences, the second one forming 6 differences of impulses, the second 7, the third 8 and fourth 9 one-shot and the second trigger 10. The output of the second one-shot 7 is connected to the input of the second driver 6 impulses of differences. The device also contains the third 11 and fourth 12 pulse impulse drivers, connected by inputs to the output of the second trigger 10, connected by inputs to the outputs of the imaging unit 3 extreme and zero values, one of which is connected to the input of the third one-vibrator 8, the fifth driver of 13 differential impulses, the first 14, the second 15 and third 16 elements OR, the first 17, the second 18 and the third 19 elements AND, the first 20, the second 21 and the third 22 delay elements and the element NOT 23. The input of the second shaper 13 differential pulses connected to the output of the fourth A second one-shot 9 connected to the input bus 24 sync pulses. The first input of the first element OR 14 is connected to the output of the first driver 5 impulse drops. The second element OR 15 is connected by the output to the input of the first trigger 1 and is connected by the first input to the output of the second driver 6 impulses of differences. The first input of the first element And 17 is connected to the output of the third one-shot 8. The output of the third element OR 16 is connected to the output bus 25 clock pulses. The output of the second element And 18 is connected to the information output bus 26, which is the output pulse bus of a logical unit. The first delay element 20 is made with an additional output bus 27 of information connected to its output and represented by it, an output pulse bus of logical zero. The output of the fourth one-shot 9 is connected to the input of the second one-shot 7, connected by the output to the input of the first one-shot 4. The input element NO 23 is connected to the input bus 28 information. The output of the fifth shaper 13 differential pulses connected to the second input of the first element OR 14 connected to the first input of the third element And 19, which is connected to the second input of the output element HE 23 and connected to the second input of the second element 11 the differential pulses are connected via the second delay element 21 to the second input of the first element AND 17, connected by an output to the input of the first delay element 20 and to the input of the fifth one-oscillator 29. The output of the latter is connected to the first input m second AND gate 18 which is connected via a second input of the third delay element 22 to the output of the fourth pulse generator 12 drops and the output connected to the first input of the third OR gate 16, a second input coupled to an output of the first delay element 20. Digital magnetic recording-playback is as follows. Clock pulses, 24 clock pulses arriving on the input bus, successively pass through the fourth 9, second 7 and first 4 one-shot. In this case, one-shot 4, 7 and 9 affect the first 5 second 6 and fifth 13 formers impulses of differences, which form short pulses at the moments of recovery of stable states of the first, second and fourth one-shot, respectively. The short pulses of the first 5 and fifth 13 delta pulse drivers are combined by the first element OR 14, acting on the third element AND 19. After the element 23 inverts, the information signal on the information input bus 28 is applied to the third element 19 and gates the pulse signals from the first 5 and the fifth 13 pulse formers of differences in the case of writing zeros. The signal of the third element AND 19 and the second driver 6 of the differential pulses are combined with the second element OR 15 and are fed to the first trigger 1, which forms the signal fed to the recording-reproducing unit 2. The playback result from the output of the recording-playback block 2 is fed to the extreme and zero-value thru shaper, which generates pulses at the moments of the extreme and zero values of the playback result and acts on the second trigger 10 and the third one-shot 8. In this case, the second trigger 10 generates differences a pulse signal at the instants of the appearance of pulses corresponding to extreme and zero values of the reproduction result. The third one-shot 8 produces pulses at the instants of the appearance of pulses corresponding to zero values of the reproduction result. The third and fourth and fourth differential pulse formers generate short pulses for the positive and negative drops of the pulse signal of the second trigger 10. The short pulses of the third generator 11 for differential pulses through the second delay element 21 are fed to the first element 17, which is affected by the third single vibrator 8. The first element And 17 generates pulses corresponding to zero code symbols. These pulses through the first delay element 20 arrive at the third element OR 16 and onto the additional output bus 27 of information. The pulses of the first element And 17 also arrive at the fifth one-shot 29, acting on the second element And 18, which receives short pulses of the fourth driver 12 of the differential pulses through the third delay element 22. The second element And 18 generates pulses corresponding to single code symbols. These pulses arrive at the information output bus 26 and at the third element OR 16, which generates a signal for synchronized clocks, supplied to the output bus 25 sync pulses. The invention The device for digital magnetic recording and playback, containing the first trigger connected to the input of the recording-playback unit connected to the input of the generator of extreme and zero values, the first one-vibrator connected to the output of the input of the first differential pulse generator, the second one-oscillator connected the output with the input of the second impulse generator drops, the third and fourth single vibrators, the second trigger, input and output bus information and input and output hydrochloric bus clock, characterized in that, in order to increase the reliability of the reproduction result. The third and fourth formers of impulse impulses are connected to it, connected by inputs to the output of the second trigger connected by inputs to the outputs of the former of extreme and zero values, one of which is connected to the input of the third one-vibrator, the fifth impregnator of impulses connected to the output of the fourth a one-shot connected to the input to the output clock of the clock pulses, the first OR element connected by the first input to the output of the first differential pulse generator, the second OR element, under The output connected to the input of the first trigger and connected by the first input to the output of the second impulse generator, the third OR element connected by the output to the output clock of the clock pulses, the first And element connected by the first input to the output of the third single vibrator, the second And element connected to the output information bus , the first delay element made with an additional output bus information connected to it, the element NOT connected to the input of the input bus information, the second and third elements of the delay ki, the fifth one-shot and the third element AND, and the output of the fourth one-shot is connected to the input of the second one-shot connected to the input of the first one-shot, the output of the fifth differential pulse generator is connected to the second input of the first element OR connected to the output of the first input of the third element AND, which is connected by the second input to the output of the NOT element and connected by the output to the second input of the second OR element, and the output of the third differential pulse generator is connected via the second delay element to the secondary the input of the first element And connected by the output to the input of the first delay element and to the input of the fifth one-oscillator, the output of which is connected to the first input of the second element And connected by the second input through the third delay element to the output of the fourth differential pulse generator and connected to the first input of the third element OR, the second input of which is connected to the output of the first delay element.