SU858080A1 - Multichannel device for magnetic recording and reproducing - Google Patents

Description

. (54) MULTI-CHANNEL DEVICE OF DGS MAGNETIC RECORDING AND REPRODUCTION

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The invention relates to instrumentation, in particular to magnetic recording, and can be used to create specialized systems for accurate magnetic recording.

A multi-channel device is known for recording and reproducing several information signals on a single track of a magnetic medium, comprising input and output buses, switches, recording and reproducing heads, a generator, low-pass filters l | Γ

However, in this device there are significant restrictions on the increase in the number of channels, dictated by the bandwidth of the magnetic recording path, the temporal distortions are different in channels, the implementation of the technical solution is rather complicated.

The closest to the proposed technical result and the achieved result is a multichannel magnetic recording and playback device containing

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recordings, each of which is associated with corresponding (input data buses through serially connected recording amplifier, cyvsH & record torch and corresponding recording switch, and playback heads, each of which is connected to corresponding output information through serially connected playback amplifier, playback switch and low-pass filters, as well as a clock pulse generator, connected through the first counter to the input of the write driver, the outputs of which connect not connected to the control inputs of the write switches, and a second counter connected through the playback driver to the control inputs of the playback switches 2 J.

Claims (1)

A disadvantage of the known device is the comparatively small transverse recording density due to the presence of at least two separate tracks. The purpose of the invention is to increase the recording density by nejjeMHoft due to the inclusion of individual sync tracks. This goal is achieved due to the fact that a recording inverter is inputted to the device, the input of which is connected via the first track switch to the last input information bus of the same track, and the output to the last of the inputs of the first track's write adder and, moreover, the device is entered common adders and a playback inverter, and the output of the playback amplifier of the first track and the output of the playback amplifier of the second track include two electrical processing circuits of positive and negative pulses, each of which consists of a playback adder and two rectangular impulses connected to its two inputs, respectively, through two comparators, while the output of the first reproduction amplifier is connected to the combined inputs of one of the positive and negative impulses, and the output of the second reproduction amplifier is connected with the combined inputs of others, and the output of the adder of negative output pulses is connected to the first inputs of the common adder and the second counter via ertor reproducing and positive pulse adder coupled to the input common ring Mo adder whose output is connected to the second input of the second counter. The drawing shows a schematic diagram of the proposed device. The device contains input information buses 1 connected to the inputs of the coding keys of the first collator 2 records, the outputs of which are connected to the inputs of the adder 3 records, and the output of the j-key is encoded by the first switch 2 records connected J-input of the adder 3 records through the inverter 4. The output of the adder 3 records connected to the head 5 of the first track through the amplifier 6 record. A clock generator 7 is connected through the first counter 8 connected in series and the write driver 9 is connected to the control inputs of the coding keys of the first switch 2 record and the i-switch record in record bank 10. Block 10 of the record i - to the horns is similar to that described and its output is connected to the i - head 1 of the record. The playback head 12 of the first track is connected via serially connected playback amplifier 13, decoding keys of the first playback switch 14, and channel low-pass filters 15 with output information buses 16. The output of playback amplifier 13 is connected to the inputs of two chains of processing positive (negative) pulses consisting of serially connected rectangular impulse generator 17 (18) of comparator 19 (20), reproduction adder 21 {22). At the same time, the output of the processing chain of positive pulses is directly connected to the input of the common playback adder 23, and the output of the second chain is connected via an inverter 24, the playback head 25 of the i-track is connected to the output information buses 26 via serially connected playback amplifier 27, decoding keys I- the playback switch 28, the lowpass filters 29. The output of the playback amplifier 27 is also connected via the driver 30, the ompator 31 to the i-input of the sender 21, and through the driver 32 and the comparator 33 to the input of the adder I. The common playback adder 23 is connected to the playback driver 34 through the second counter 35, and the last reset input is connected to the output of the inverter 24. Playback shaper 34 is connected to control the code inputs of decoding keys 1 of the i-switches 14 and 28 of the playback. The magnetic recording media - 36. The device operates as follows. The information enters the j-channel input buses 1 and, via the coding keys of the switch 2, records which are polled through the control inputs alternately, the resolution pulses are generated by the clock generator 7, the first counter 8, the write driver 9, goes to the adder 3, and the last channel is fed to the j input of the adder via the inverter 4. The group signal from the adder 3 is fed to the recording amplifier 6 and recorded by the recording head 5, the signal of the last j channel recording in antiphase on but Magnetic recording medium 36 Similarly, recording is performed on the i - tracks of the magnetic recording medium. When reproducing information, the group signal from the playback head 12 of the first track through the playback amplifier 13 is sent to the decoding keys of the first playback switch 14, the signal to the control inputs of which is formed as follows Channel information pulses of the first track (positive) from the playback amplifier 13 are fed to the chain processing of positive pulses, consisting of the former 17 of the comparator 19 and the adder 21. Similar processing of channel positive pulses m Jet be produced for each of the i-track unit. Negative pulses are processed in a circuit consisting of driver 18, comparator 20, and adder 22. Thus, adder 21 assembles positive impulses from all the tracks of the carrier, the number of which is equal to the number of information channels without one and builds with adder 22. all tracks of the carrier of negative pulses, corresponding to the last j-channel of information. The negative pulse from the adder 22 is inverted 41 by the inverter 24 and the sync pulses are assembled on the common playback adder 23. The latter arrive at the second counter 35, which is reset on the falling edge of the last f - pulse coming from the inverter 24. The generated sync pulses go to the playback generator 34, where the resolution pulses are generated that control the operation of the channel keys for decoding the playback switches 14 and 28 . The original channel information is restored by low-pass filters 15 and 26. Switchings 2,14 and 28 are recorded and reproduced in the form of coding and decoding keys with control inputs, which are controlled by polling pulses of the corresponding keys generated by the corresponding shapers (9 and 34). a) recording and playback. The latter are executed on the basis of logical elements AND NONE. Shapers (17,18,) are made in the form of series-connected limiting amplifiers and Schmitt trigger. Thus, tracks for recording sync pulses are completely eliminated (there are 4 such tracks in the known device), which makes it possible to significantly increase the transverse information recording density while maintaining the reliability of information transmitted through the magnetic recording path. . Using the proposed device can increase the number of information channels while maintaining the same recording medium. A multi-channel magnetic recording and reproducing apparatus comprising recording heads, each of which is connected to corresponding input information buses through a serially connected recording amplifier, a recording adder and a corresponding recording switch, and reproduction heads, each of which is connected to corresponding output information buses through a serially connected playback amplifier, a playback switch and a low-pass filter, as well as a generator and The pulses connected through the first counter to the input of the recording generator, the outputs of which are connected to the control inputs of the recording switches, and the second counter connected through the playback driver to the control inputs of the playback switches, in order to increase the transverse density, the device is entered by a recording inverter, the input of which is connected through the first track commutator to the last input to the information bus of the same track, and the output to the last of the first track moves of the first track and, in addition, two common adders and a playback inverter are inputted into the device, and the output of the first track reproduction amplifier and the output of the second track reproduction amplifier have two positive and negative impulse processing circuits, each of which consists of a playback adder and connected to its two inputs, respectively, through two comparators of two rectangular pulse shapers, while the transducer of the first playback amplifier is connected with the combined inputs of one ormirovateley positive and negative pulses, and output of the second reproducing amplifiers coupled to the other inputs of the joint, the reproduction output of the adder negative The pulses are connected to the first outputs of the common adder and the second counter through the playback inverter, and the Cz positive pulse module is connected to the second input of the common adder, the output of which is connected to the second input of the second counter. Sources of information taken into account during the examination 1, Copyright certificate -SSSR  445056, cl. Q П В 5/00, 11.02.73. 2, USSR Author's Certificate No. 732978, cl. Q П В 5/00, 03/04/78 (prototype),