SU1129230A1 - Device for displaying digital data - Google Patents

Abstract

A DEVICE FOR PLAYING DIGITAL INFORMATION containing a tape mechanism, magnetic media, playback heads, a multi-channel playback amplifier, and binary counters, which means that with a whole increase in recording density by providing the ability to play a multi-bit parallel code recorded with coding every two bits of the information word using one of the pre-defined valid code combinations using one-way pulse width modulation, a master oscillator, rdnovibrator with an input delay were entered into the composition of the device, and a selector-shaper of information and clock pulse sequence, three two-input elements AND-NOT, two shift registers, two registers, two code-to-voltage converter, analog arithmetic | mouth- An analog threshold device, five inverters, two I-NOT three-input elements, three ItNET three-input elements, and I. each output of the multichannel playback amplifier is connected to the input of the corresponding selector-generator of the information and clock pulse sequence, whose information output is connected to the first input of the first two-input element AND-NOT, to the control input of the first shift register and the input of the one-vibrator with input delay, .a output , the clock pulse sequence of the selector is connected to the first input of the second two-input element H-NOT and the control input of the second shift register, and The S9 input inputs of the first and second shift registers are connected to the output of the first inverter, whose input is connected by a common bus, the synchronization inputs of the first and second shift registers, and the second inputs of the first and second two-input elements AND-NOT are connected to the output of the master oscillator, the outputs of the first and second of the two-input elements of the NAND are connected respectively to the information inputs of the first and second meters, the installation inputs of which are connected to the first outputs of the first and second the shift registers, the outputs of the first and second counters are connected to the corresponding information inputs of the first and second registers, the synchronization inputs of which are connected respectively to the second outputs of the first and second shift registers, the outputs of the first and second, registers are connected to the corresponding inputs of the code-voltage converters, the outputs of the converters connected to

Description

the inputs of the analog arithmetic unit, the output of which is connected to the inputs of four analog threshold devices, the output of the first threshold device is connected to the first input of the first AND input NE input element, the output of the second threshold device is connected to the input of the second inverter and the first input of the first three-input AND NAND device, moreover the output of the inverter is connected to the second input of the first four-input element of the NAND, the output of the third threshold device is connected to the input of the third inverter and the first input of the third two of the running element IS-NOT, and the output of the third inverter with the third input of the first four-input element AND-NOT and the second input of the first three-input element AND-NOT, the output of the fourth threshold device is connected to the inputs of the fourth and fifth inverters, the output of the fourth inverter is connected to the fourth input of the first four-input element AND-NOT, the third input of the first three-input element AND-NOT and the second input of the third two-input 30 element. The NAND, moreover, the output of the inverter p is connected to the second and third inputs of the second and third four-input elements AND-NOT and the second input of the second three-input element AND-NOT, the input of the third two-input element AND-NOT connected to the third input of the second four-input and the first the input of the second three-input elements of the NAND, the output of the first three-input element of the NAND is connected to the second input of the third four-input element of the NAND, and the output of the first four-input element of the NID is connected to the first input of the second four-input element nta AND-NOT, the output of which is connected to the first input of the third four-input element AND-NOT, the fourth inputs of the second and third four-input and the third input of the second three-input element AND-NOT are connected to the output of the one-vibrator with an input delay, and the outputs of the third four-input and second three-input element AND -NO are the information outputs of the playback channel.

The invention relates to the field of instrumentation and can be used to reproduce digital information from magnetic media as part of information and measurement systems installed on mobile objects.

A device for reproducing digital information from a multi-track magnetic carrier is known, comprising a tape mechanism with an information sequence playback unit, two sync pulse reproduction heads, a multichannel information driver, a sync driver, and a parallel code l discharge circuit.

The drawback of the device is the need for two channels for reproducing clock signals and the inability to reproduce information recorded with high density by encoding each two bits of a parallel code of one of four possible combinations using pulse-width modulation.

The closest in technical sophistication is a device for reproducing digital information, comprising a tape mechanism, magnetic media, reproduction heads, a multichannel reproduction amplifier, and binary counters. The device allows you to play an informational pulse sequence, where the symbols of the binary code O and 1 are represented by pulses of different durations, as well as to reproduce digital information without two additional channels of clock signals 23,

The drawback of the device is that it is impossible to reproduce a multi-bit parallel code recorded with an increased density by encoding every two bits on the left of one of four possible predetermined combinations using pulse-width modulation. The purpose of the invention is to provide the possibility of reproducing a parallel multi-bit code from a magnetic carrier, each two bits of which are coded with one of four possible predetermined combinations using one-sided pulse width modulation for the purpose of increasing the recording density. The goal is achieved in that the device for reproducing Digital Information, which contains a tape mechanism, magnetic media, playback heads, a multichannel playback amplifier, and binary, counters, are additionally introduced — a master oscillator, a one-shot input delay, and the selector-shaper of the information and clock pulse sequence, three two-input AND-NOT elements, two shift registers, two registers, two code-voltage converters, analog arithmetic unit, four analog threshold devices, five inverters, two three-code AND-NOT elements, three four-input AND-NOT elements, with each output of the multichannel playback amplifier connected to the input of the corresponding selectorizer of the information and clock pulse sequence, the information output of which is connected to the first input of the first two-input element NAND, to the control input of the first shift register and the input of the one-shot with a delay at the input, and the output the clock pulse sequence of the selector is connected to the first input of the second two-input NAND element and the control input of the second shift register; the information inputs of the first and second shift registers are connected to the output of the first inverter, the input of which is connected to the common bus; and the second shift register and the second inputs of the first and second two-input elements AND-NOT are connected to the output of the master oscillator, the outputs of the first and second two-input elements AND-NOT are connected respectively to the information inputs of the first and second counters, the installation inputs of which are connected respectively to the first outputs of the first and second shift registers, the outputs of the first and second counters are connected to the corresponding information inputs of the first and second registers, the synchronization inputs of which are connected respectively to the second outputs of the first and second shift registers , the outputs of the first and second registers are connected to the corresponding inputs of the code-voltage converters, the outputs of the converters are connected to The signals of the analog arithmetic unit, the output of which is connected to the inputs of four analog threshold devices, the output of the first threshold device are connected to the first input of the first four-input element AND-NOT, the code of the second threshold device - with the input of the second inverter and the first input of the first three-input element AND-NOT, and the output of the inverter is connected to the second input, the house of the first four-input element AND-NOT, the output of the third threshold device is connected to the input of the third inverter and the first input of the third two of the third element, inverter — with the third input of the first four-input element — AND — NOT and the third input of the first three-input element AND-NOT, the output of the fourth threshold device is connected to the inputs of the fourth and fifth inverters, the output of the fourth inverter is connected to a quarter the input of the first four-input element IS-NOT, the third input of the first three-input element AND-NOT and the second input of the third two-input element AND-NOT, in addition, the output of the fifth inverter is connected to the second third inputs of the second and tr of the third four-input elements AND-NOT and the second input of the second three-input element AND-NOT, the output of the third two-input element AND-NOT is connected to the third input of the second four-input and the first input of the second three-input element AND-NOT, the output of the first three-input element AND-H5 is connected to the second the input of the third four-input element AND-NOT, and the output of the first four-input element AND-NOT connected to the first input of the second four-input element AND-NOT, the output of which is connected to the first input of the third four-input element AND - NOT, the fourth inputs of the second and third four-input outputs and the third input of the second three-input I-NO elements are connected to the output of the one-oscillator with an input delay, and the outputs of the third four-input and second three-input AND-NOT elements are information outputs of the playback channel

FIG. 1 shows a diagram of the device; in fig. 2 - plots showing his work.

The device contains a tape mechanism 1, a magnetic carrier 2 of the playback head 3, connected to the inputs of the multichannel amplifier 4, each channel of which is connected to the input of the selector-generator 5, the first output of which is connected to the single-vibrator 6, the first input of the element 7 and the control input of the shift register 8, and the second output with the first input of the AND-HE element 9 and the control input of the shift register 10, the synchronization inputs of the shift registers 8, 10 and the second inputs of the EL; 7 AND 9 cops are connected to the output of the master oscillator 11, the information inputs of the shift registers 8; 10 are connected to the output of the inverter 12, and

the input with a common bus, the outputs of the shift registers 8, 10 are connected to the installation inputs of the counters 13, 14 and the synchronization inputs of the registers 15, 16, the counting inputs of the counters 13, 14 are connected to the outputs of the AND-NE elements 7 9, and the outputs to the inputs of the registers 15 , 16, the outputs of which are connected to the inputs of the code-voltage converters 17 18 connected to the inputs of the analog arithmetic unit 19, the output of which is connected to the inputs of the threshold devices 20-23, the input of the threshold device 20 is connected to the first input of the AND-24 element, the threshold device 21 - with input g the inverter 25, with the first input element AND-NOT 26, and the output of the inverter 25 with the second input element AND-NOT 24, the output of the third threshold element 22 is connected to the input of the inverter 27 and the first input of the element IS-NOT 28, and the output of the inverter 27 - with the third input element AND-NOT 24 and the second input element AND-NOT 26 ,. the output of the threshold device 23 - with the input of the inverter 29 and the input of the inverter 30, and the output of the inverter 29 - with the fourth input of the element AND-NOT 24, the third input of the element AND-HE 26 and the second input of the element-HE 28, the first element the input element AND-NOT 31, the output of the element AND-NOT 2 with the second input of the element AND-NO 32, the output of the element Y-NO 28 with the third input of the element AND-NO 31 and the first input of the element AND-NO 33, the output of the inverter 30 with the second input of the element is AND-NOT 31, the third is of the element of InE 32 and the second is of the element AND-NO 33, the output of the element AND-NOT 31 is connected to the first input of the el AND-NOT 32, and the fourth inputs of the elements AND-NOT 31, 32 and the third input element AND-NOT 33 is connected to the output of the one-shot 6.

When playing information signals from the outputs of the heads. 3 are amplified by a multi-channel amplifier 4 (see Fig. 2 a), each output of which is connected to the input of a corresponding selector-generator 5, which forms an information (see Fig. 2b) and a clock (see Fig. 2 c) pulse sequences, respectively the inputs of the elements of the FU 7, 9, allowing a time equal to the duration of the generated pulses 1 / 6T, 1 / 3T, 1 / 2T and T, the passage of pulses (see Fig. 2d) from the generator 11 to the counting inputs of counters 13, 14 ( see Fig. d, e), from the outputs of which the numerical values of the pulse widths of the information and a clock sequence in the form of a parallel code is read into

registers 15, 16.

The operation of the counters 13, 14 and the registers 15, 16 is carried out using the shift registers 8, 10, to the synchronization inputs of which the pulse sequence starts from the generator 11, to the information inputs DI is fed 1 from the inverter 12. On arrival to the control inputs Vj of the pulses From the selector-generator 5, from the outputs of the respective shift registers, the setting inputs RO of the counters 13, 14 and the synchronization inputs C of the registers 15, 16 are fed to command pulses for reading information and resetting the counters 15, 16. Numerical values For informational pulses and the period of their following, they are received respectively at the inputs of code-voltage converters 17, 18 (see Fig. 2g, h) and from their outputs in the form of voltage levels (see Fig. 2 and g) - to the corresponding inputs An analog arithmetic unit 19, where in order to avoid reproducing the accuracy of the information, the instability of the speed of the magnetic carrier during each cycle determines the ratio of the tracking period to the pulse duration of the information sequence. From the output of the analog arithmetic unit 19, voltage levels (see Fig.2l) proportional to the obtained ratio are fed to the inputs of four threshold devices 20-23, at the outputs of which, when the threshold signals exceed the input signals, the potential levels corresponding to 1 and O are applied to inputs of the decoding scheme for the values of every two bits of a parallel code, encoded by one of the four possible set combinations on one magnetic track. If there is a voltage level at the output of the arithmetic unit 19 corresponding to the ratio of 1 / 6T (see Fig. 2nd), the output of the threshold device 20-23 is set to 1, at the output of the AND-NE element 24, 26, 28 1, AND-NOT 30 O, I-HE 31 1, and at the outputs I-HE 32 and 33, if there is a delayed clock pulse from the output of the one-shot 6 (see Fig. 2n), it will be (see Fig. 2 o, n) and 1, which corresponds to the initial value of the combination of dvzgkh bits of a parallel code assigned to a magnetic carrier track. If there is a level at the output of an arithmetic device 19 corresponding to a 1 / 3T ratio (see Fig. 2l), the output devices of threshold devices 20-22 are set to 1, and the output of threshold device 23 (see Fig. 2n) O. Then, at the outputs elements AND-NOT 24, 26, 28 is set to 1, AND-NOT O, AND-NOT 31 1, and at the outputs AND-NOT 32 and 33 in the presence of a delayed clock pulse (see fig. 2n) will be (see fig. 2 о, п) О and 1. Similarly, if there are 19 levels at the output of the arithmetic unit corresponding to the t / 2T and 2 / ЗТ ratios (see Fig. 2l), the outputs of the IE 32 and 33 elements are set respectively (see Fig. 2o, p) logical levels I, O and O. The technical advantage of the invention in comparison with the known solutions when playing a multi-bit parallel code with equal amounts of reproduced information is to reduce the number of playback channels by at least two times. Using the device at least twice reduces the time required for the input control of the magnetic tape and information input in the computer%. Moreover, by reducing the number of playback channels, the weight, dimensions and power consumption of the device are reduced, which is an important factor when using it information-measuring systems installed on moving objects.

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Claims (1)

DEVICE FOR PLAYING DIGITAL INFORMATION, which contains a tape drive, magnetic media, playback heads, a multi-channel playback amplifier and binary counters, which is necessary in order to increase the recording density by enabling multi-bit parallel code playback recorded by encoding every two bits of the information word of one of the predefined valid code combinations using a one-sided pulse-width In this case, a master oscillator, a one-shot oscillator with a delay at the input are introduced onto one track, and each output of a multi-channel playback amplifier is connected to the input of the corresponding selector-shaper of the information and clock pulse sequence, the information output of which is connected to the first input of the first two-input element And -NOT, to the control input of the first shift register and the input of the one-shot with a delay at the input, and the output of the clock pulse sequence of the selector is dinene with the first input of the second two-input element N-NOT and the control input of the second shift register, the information inputs of the first and second shift (9 gov registers are connected to the output \ l. the first inverter, the input of which coe- | w is shared with the common bus, the synchronization inputs of the first and second shift | 'registers, as well as the second inputs of the first and second two-input elements AND are NOT connected to the output of the master oscillator, the outputs of the first and second two-input elements AND are NOT connected to the information inputs of the first and second counters, the installation inputs of which are connected respectively to the first the outputs of the first and second shift playback channels also introduced a selector-shaper of information and clock pulse sequences, three two-input AND-NOT elements, two shift 'registers, two registers, two code-voltage converter, analog arithmetic! device, four analog threshold devices, five inverters, two three-input NAND elements, three four-input NAND elements, the main registers, the outputs of the first and second counters are connected to the corresponding information inputs of the first and second registers, the synchronization inputs of which connected respectively to the second outputs of the first and second shift registers, the outputs of the first and second registers are connected to the corresponding inputs of the code-voltage converters, the outputs of the converters are connected to 1129230 'inputs of an analog arithmetic device, the output of which is connected to the inputs of four analog threshold devices, the output of the first threshold device is connected to the first input of the first four-input element NAND, the output of the second threshold device is connected to the input of the second inverter and the first input of the first three-input element NAND moreover, the inverter output is connected to the second input of the first four-input NAND element, the output of the third threshold device is connected to the input of the third inverter and the first input of the third two the NAND gate, and the output of the third inverter with the third input of the first four-input NAND gate and the second input of the first three-input NAND gate, the output of the fourth threshold device is connected to the inputs of the fourth and fifth → inverters, the output of the fourth inverter is connected to the quarter the input of the first four-input element AND NOT, the third input of the first three-input element AND NOT and the second input of the third two-input element. NAND, in addition, the output of the fifth inverter is connected to the second and third inputs of the second and third four-input NAND elements and the second input of the second three-input NAND element, the output of the third two-input NAND element is connected to the third input of the second four-input and first input of the second three-input element AND-NOT, the output of the first three-input element AND is NOT connected to the second input of the third four-input element AND, and the output of the first four-input element AND is NOT connected to the first input of the second four-input element and AND-NO, the output kotorog-o ¹ is connected to a first input of the third chetyrehvhodovogo AND-NO element, fourth inputs of the second and third chetyrehvhodovyh and a third input of the second trehvhodovogo AND-NO element are connected to the output of a monostable delay at the input, the outputs of the third chetyrehvhodovogo and the second three-input elements AND are NOT information outputs of the playback channel.