SU1026156A1 - Device for multichannel magnetic recording and reproducing of pulse sequence - Google Patents

Description

The invention relates to instrumentation and can be used in magnetic recording and in other related areas of technology for channel compression in the transmission of digital signals. A device for tmoro-channel magnetic recording is known, comprising a modulator associated with a frequency divider and outputs of keys connected to input bearings, a switch, outputs connected to other inputs of keys, a pulse driver connected to a splitter input, as well as triggers connected in series , connected to the input of the capacitor, and additional keys connected to the outputs of the modulator. The device simply enough provides the recording of information from different sources on one track of the magnetic carrier. The drawback of the device is associated with the difficulty of correctly deciphering the signals of different channels, which are modulated by one carrier with the native phase and spaced in time. A magnetic recording device is known comprising filter plugs connected through a switch, a voltage-code converter, diodes and differentiating chains with magnetic heads, a register connected to differentiating chains through additional diodes and connected through elements And with a distributor, the outputs of which are connected via diodes, delay lines and elements to the counting trigger input connected through the elements AND to two additional magnetic heads, and the output of another register connected to the outputs The elite is connected via a trigger and a differential chain with the third additional flywheel. The device performs a sequential polling of the output buses of the signal converter and recording the signal on magnetic media simultaneously with sequential recording of the multi-digit code of the signal number, which simplifies information retrieval and improves the fidelity of its reproduction 2. The most significant drawback is the complexity of circuit recording and recording reproduction, i.e. for recording and reproducing; Sequences of pulses coming from one sensor require 1 Two main and one auxiliary tracks and Lazal converters. In addition, the accuracy of the recorded consecutive pulses significantly depends on the quality of the tuning of converters (filters of analog and digital signals, blocks of magnetic heads manufacturing quality of the magnetic tape and a number of other factors that lead to errors in recording (reproducing) analog signals with different levels. An alternative method cannot be used for multichannel recording of time signals, especially for 5-10 or more channels on moving objects, where the recording is made under one condition and the reproduction is done on others. The device closest to the technical essence to the proposed device is for magnetic records containing a clock generator, a distributor, AND, OR, NOT elements, a magnetic head and a control panel (information sources}, while the magnetic head is connected through one element NOT to the generator output so ovyh impulses and to an input of the distributor, and through the other elements is not - to the output of OR gate whose inputs are connected to the distributor -Matching vyhodag br directly and via the AND gate, the other inputs of which are connected to respective outputs of the control console. The device provides for the expansion of the range of individual control checks of the information of sources Sz. The drawback of the device lies in the impossibility of accumulating information per channel through its subsequent display, and as a result, the low accuracy and efficiency of control of objects. The purpose of the invention is to increase the efficiency of control of objects. This goal is achieved by the fact that in a device for multi-channel recording and reproduction of a sequence of pulses, containing in the recording channel a magneto-recording unit, a clock generator, connected to the input of the first pulse distributor, which outputs are connected to one of the inputs of the first group of elements And, the other inputs associated with sources of information, a reproduction channel has been introduced, containing a magneto-reproducing unit, blocks for extracting information and clock pulses, selector, pulse expander, second pulse distributor, second and third groups of elements I, counters for the number of controlled objects, a key block and a digital display unit, and one-oscillators, drivers and amplifiers of information and clock pulses are entered into the recording channel, while the output of the magneto-reproducing unit connected through a block of clock selection with one input of the second distributor connected to the other input of the latter through a temporary selector, and through a series-connected block of allocation info and pulses and a spreader and schilkov with one of the inputs of the second group of elements And connected to other inputs and corresponding outputs of the second distributor, except the last output, and outputs to the digital display unit through the corresponding serially connected counters and elements of the third group other inputs of which are taken from the block of keys, and in the recording channel the clock pulse shapers are turned on. between the outputs of the first distributor, except the last output, and the pads from the inputs of the first group of elements I, the other inputs of which are connected to the corresponding inductive sensors of the objects, and the output is connected through sequentially connected one-shot and driver of information pulses with the input Each clock driver is connected to the input of the clock pulse amplifier, and the outputs of the amplifiers are connected to the input of the magnetic recording unit. Fig, 1 shows a block diagram of the proposed device; Figure 2 is time diagrams explaining his work. The channel for recording a sequence of pulses (figa) of the device contains a magneto recording unit 1, a generator of 2 clock pulses 3 connected to the input of the first distributor of 3 pulses, which is connected to the outputs from one of the inputs of the first group of elements I4, the other inputs of which are connected to sources 5 information (inductive object sensors), one-shot b, shapers 7 information pulses, shapers 8 - clock pulses, amplifier 9 information pulses and amplifier 10 clocks, while shapers 8 is connected between the (vi-l) outputs of the first distributor 3, where Vi is the number of objects, and one of the inputs of the first group of elements I4, the other inputs of which are connected to the corresponding inductive sensors 5, and the output is connected through the sequentially included one-shot 6 with the input of amplifier 9, the output of each driver 8 is connected to the input of amplifier 10, and the outputs of amplifier 9 10 are connected to the input of block 1. The reproduction channel of a sequence of pulses (fig. Lb) contains a magneto-reproducing unit 11, blocks 12 and 13 ct pulses, time selector 14, pulse spreader 15, second spreader 16, second and third groups of elements .17 and 18, counters 19, key block 20 and digital display unit 21, while the output of the magnetoresponsive unit 11 is connected via block 13 clock pulses with one input of the BTO, Rogo distributor 16 connected to another input of the latter through a temporary selector 14, and through serially connected information pulse extraction unit 12 and a pulse expander with one of the inputs of the second group of elements H 17, connected by other inputs and corresponding (vi -1 outputs, second distributor 16, and outputs to digital indication unit 21 through respective series-connected counters 19 and elements And 18 of the third group, the other inputs of which are connected to key block 20. The device operates as follows. Clock pulses with a frequency come from the generator output 2 clock pulses (Fig. 2a) to the input of the distributor 3 pulses and start it. The pulse distributor 3 has And outputs and continuously sequentially polls (Vi -1) the monitored units of the object by means of clock pulses generated by the pulse shaper 8 ((pig2 ()). From the shaper outputs, 8-pulse pulses are sent to the amplifier 10 and to one of the inputs I4 elements. After preamplification of amplifiers 10 clock pulses are recorded with one polarity in the magnetometer box 1 1, Fig. 2k). When moving the monitored object nodes from the initial state, sensors 5 are triggered. At their outputs, there appear temporary pulses that arrive at other inputs of the I4 elements. At their outputs, pulses appear (Fig. 26), which trigger the corresponding single-oscillators 6. As a result, at the outputs of the one-vibrators 6 (Fig. 2g) calibrated pulses, which, after being formed by the formers 7 (Fig. 23), are amplified by the amplifier 9 and are recorded with a different polarity. In the magnetic recording unit 1 (Fig. 21c), one magnetic track of the carrier. At the same time, information pulses of each object, displaying the operation time of the object nodes, are located next to the corresponding clock pulses, and at the | rth output of the distributor 3 pulses are used to form a synchronizing pause between clock cycles (Fig. 2a). This is due to the need for the operation of the distributor of 16 pulses of the pulses of the device in the start-stop mode. At the same time, the end of a long pause or the beginning of the next clock pulse is the start, and the beginning of the pause is stop, the operation of the playback devices (Fig. 2 (U) follows). From the output of the magnetic reproducing unit 11, the information and clock arrive at the input of the blocks 12 and 13 The selected clock pulses (FIG. 2L) simultaneously arrive at the inputs of the second distributor 16 pulses of the time selector 14. From the incoming fh-I clock pulses at the outputs of the distributor 16 impulses in turn but pulses appear (fig. which arrive at one of the inputs of the corresponding elements I17. Information pulses from the output of block 12 of the cadre of information pulses arrive at the input of the distributor 15 pulses whose output appears pulses whose durations are longer than the duration of the input I1 " Pulse (Fig. 2c). In this case, a reliable coincidence of the corresponding clock and information pulses is ensured, and their luck is created due to the synchronizing pauses of the created "ijin-i) to the first t such as are for the pulses. During the duration between the clock pulses / 2t, a pulse appears at the output of the time selector 14: the driving distributor 16 pulses to the initial state (Fig. 2p. Thus, after each (and-1) pulse, the pulse distributor 16 starts readout from the first pulse of the pulse, and since the information pulses are recorded next to its clock pulse, when the first clock pulse appears at the first output of the distributor at the output of one (the first, elements 17 of the second group, the first information pulse first channel n etc. Fig. 27. These information pulses then go to the corresponding inputs of the counters 19 and accumulate bitwise until the magnetic carrier is finished processing. After that, by pressing the corresponding keys of the key block 20 on the display unit 21, you can receive time pulses hours, tens of hours, nututs, tens of minutes, seconds, etc. Pulse sequences can be recorded at speeds in excess of 2 cm / s and up to 152.5 cm / s at any type of magnetic carrier. , What means flax reduces the time control, but does not reduce the accuracy in channel by channel accumulation of information about objects. In addition, the advantage of the proposed device in comparison with the known method is the ability to record single pulses with corresponding clock frequencies, the start-stop method as a function of time, the track of a magnetic carrier using simple technical means.

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Claims (1)

(57? DEVICE FOR MULTI-CHANNEL MAGNETIC RECORDING AND PLAYBACK OF A PULSE SEQUENCE, containing in the recording channel a magnetic recording unit, a clock generator connected to the input of the first pulse distributor, which outputs are connected to one of the inputs of the first group of AND elements, the other inputs of which are connected to information sources , characterized in that, in order to increase the efficiency of monitoring objects, a playback channel is introduced into it, comprising, a magnetically reproducing block, information extraction blocks clock and clock pulses, time selector, pulse expander, second (pulse distributor, second and [third groups of AND elements, counters according to the number of controlled objects. key block and digital indication block, and one-shot ', shapers and amplifiers of information and clock pulses, while the output of the magnetically reproducing unit is connected via a clock pulse isolation unit to one input of the second distributor, pulses connected to another input of the latter through a time selector ry through series-connected information, pulses extraction unit and a pulse expander with one of the inputs of the second group of AND elements connected by other inputs to the corresponding outputs of the second pulse distributor, except for § the last output, and outputs to the ι digital display unit through the corresponding | £ Л corresponding sequentially connected | «« valuable counters and AND elements of the third jCZ group, the other inputs of which are connected to the key block, and in the recording channel, pulse shapers are connected between the outputs of the first the master selector, pulses, except for the last output, and one of the inputs of the first group of AND elements, the other inputs of which are connected to the corresponding inductive sensors of the objects, and each output is connected through the one-shot and information pulse shaper connected in series with the input of the information pulse amplifier, the output of each clock driver is connected to the input of the clock amplifier, and the outputs of the amplifiers are connected to the input of the recording unit.