SU964713A1 - Device for control of magnetic recording of digital information - Google Patents

Description

The invention relates to a magnetic recording technique, in particular, to digital data recorders for the production of at-sea surveys, carried out with the aim of creating typographic shelf maps.

There are known devices for recording digital information on magnetic tapes used in ship measuring systems.

In automated navigation and geophysical complexes designed for complex marine geophysical surveys on the shelves of the oceans, information is recorded on magnetic tape. I The disadvantage of such devices for magnetic digital recording is the impossibility of accurately determining the recording rhythm that meets the requirements for displaying real relief of the bottom. and registration of either insufficient, or libra excess information on bottom relief.

The closest in technical essence to the invention is a device for recording and reproducing digital data, comprising a keyboard for manually entering the necessary data.

information, an encoder for converting the input data into code 8-4-2-1, memory registers for storing information attachments, an indicator device. for displaying recorded data on the light panel, recording unit with recording head, standby generator, decoders, counters,

Q control unit, single pulse shaper, end-of-record shaper, playback unit with a playback head, four coincidence circuits for automatic control of T2 information recorded on a tape}.

The main disadvantage of the known device is the lack of automatic analysis, selection and recording of the amount of information that is necessary and sufficient for building a marine topographic map.

The aim of the invention is to expand the scope by increasing the number of recorded

25 digital information.

Claims (3)

The goal is achieved by the fact that the device for controlling NIN magnetic recording of digital information, contains serially connected element OR, a register block and a coding block connected by an output to an information output of a device, the control output of which is connected to the output of a command generation unit, an operator console connected the output through the switch to the control inputs of the register blocks and the coding (avan and to the first input of the element. OR, the second input of which is connected to the control output of the coding block) , and a display unit connected by an input with an output of a register unit, a polling unit and a logic unit are interconnected, and the information output of the polling unit is also connected to the TgeTtKM input of the OR element, the input from the device 1 input, and the synchronization output to the synchronization input the switch, the output of the logic unit is connected to the input of the command generation unit.In addition, the polling unit contains the first, second and third memory nodes connected to the input of the unit, and the polling switch, whose inputs are connected to the information output E uzlo memory data output - with an information output unit, and a control output - with output yloka synchronization control vyho wherein the first memory node is connected to councils l yuschimi inputs of the second and third .uzlov memory. At that, the logic block contains the command pulse generator, and the formation input of which is connected to the block input, the increment input - with the output of the first comparison element, the sign input - with the output of the second Comparison element, the command output with the output of the block, and the information output - with the generator input a sawtooth voltage, with the first inputs of the fourth, fifth, and sixth memory nodes; the second input of the fourth memory node is connected to the output of the sawtooth voltage generator, and the output is connected to the second input of the sixth memory node and with the first inputs of the first and second comparison elements, the second inputs of which are connected to the outputs of the fifth and sixth memory nodes, respectively. FIG. 1 is a schematic diagram of the device in FIG. 2 is a diagram of a polling unit, in FIG. 3 is a logical block diagram. Device Sfig. 1) contains a polling unit 1, an operator console 2, an element OR 3, a logic unit 4, a display unit 5, a register unit 6, a switch 7, a coding unit 8, and a command generation unit. Block 1 of the survey I. FIG. 2) contains the first 10, second 11 and third 12 nodes of the Memory and switch 13 of the poll. Logic unit 4 includes (fig. -3) sawtooth generator 14, fourth 15, fifth 16 and sixth 17 memory nodes, first 18 and second 19 comparison elements and driver of 20 command pulses. . The device operates in two modes - in automatic recording mode and in standby recording mode from the keyboard. The information necessary for recording goes to block 6 of registers either from polling block 1 (automatic recording mode) or from operator's console 2 (standby recording mode.) Information can be sent to the recording channel, represented in parallel code 8-4-2 -1. Recorded in block 6. The information is output to the digital indicators of block 5. Recording from block 9 a signal is recorded from block 4, recording of information from the information output of the device to a magnetic tape begins. For this, block 9 gives the command to turn on the tape recorder of the mechanism, and with the help of the switch 7, the registers of block 6 are polled. The information converted into a serial binary code in block 8 is recorded. In automatic mode, point numbers are recorded on the tape, time (minutes, seconds 7, planned coordinates of points- (X , Y), depth- (Z), mark of the operational mark.In the course of automatic operation, the operator from the remote control 2 can, at any moment of time, file the mark of the additional operational mark. . Using the remote control 2 in the standby mode, the operator enters groups of coded numbers on the magnetic tape, indicating the navigation area, the date of work, the name of the vessel, hydrometeorological conditions, corrections to coordinates, and other necessary data. In automatic mode, block 4 promptly analyzes and obtains permission to register the necessary depths with the corresponding time and planned coordinates. At 10–12, the depth, planned coordinates, and time codes arrive at the device input. The polling switch 13 sequentially transmits these slots to block 6 sequentially, and the depth and time codes to block 4. With the arrival of the depth code from blocks 1, the driver 20 (Fig. 3; allows the first depth value to be written), for which a signal is written to the block 9. The code for the depth value goes through generator 14 to node 15 and directly to nodes 16 and 17. Depth value codes: from nodes 15, 17 goes to element 18 to determine the depth increment value and to element 19 to determine the sign of the depth increment. Criterion for changing the sign of the increment. The values are the tolerances of the maximum accuracy of the removal of the Z coordinate at the corresponding scale on the depth echogram. other operational data is not produced. Thus, unit 4 in the automatic mode of operation of the device will issue permission to record data only when the sign of the depth increment is changed, and with a constant sign - in the case of of the increment of depth that exceeds the absolute accuracy of the Z coordinate. The proposed device allows automatically recording only characteristic points on the magnetic tape that characterize the topology of the relief. Claim 1. Device for controlling magnetic recording of digital information, containing serially connected element OR, register block and coding block connected by output to information output / device, control output of which is connected to output of block formed by commands, operator console connected output through the switch to the control inputs of the register and coding units and to the first input of the OR element, the second input of which is connected to the control output of the coding unit, and the display unit, connecting enny input to the output of D giste, characterized in that, in order to expand the application areas 1 device therein cc Dena interrogation unit and a logical blrk interconnected, wherein the polling information output unit; It is also connected to the third input of the OR element, the input is connected to the input of the device, and the synchronization output is connected to the synchronization input of the switch where the output of the logic unit is connected to the input of the command generation unit. . 2. The device. According to p. 1, which is based on the fact that the polling unit contains the first, second and third memory nodes connected to the input of the unit, and the polling switch, the inputs of which are connected to the information outputs of the nodes memory, information output with information output of the block, and control output with synchronization output of the block, with the control output of the first memory node connected to the control inputs of the second and third memory nodes. 3. The device according to claim 1, characterized in that the logic block contains a command pulse generator, the information input of which is connected to the input of the block, the input of increments - with the output of the first comparison element, the sign input with the output of the second comparison element, command output - with the output of the block and the information output is with the input of the sawtooth generator, with the first inputs of the fourth, fifth and sixth memory nodes, the second input of the fourth memory node is connected to the output of the sawtooth voltage generator, and the output is from the second input of the sixth memory node and with the first inputs of the first and second comparison elements, the second inputs of which are connected to the outputs of the fifth and sixth memory nodes, respectively. . Sources of information taken into account in the examination of 1.;: 1. Automated navigation and geophysical complex based on the computer EC-1010 Mars. Avenue VDNH USSR, 1978. 2, USSR Copyright Certificate №578492, cl. G 11 5/09, 1978 (prototype) " L T1 ..I Phage.Z