SU736087A1 - Device for input information from magnetic carrier - Google Patents

Description

one

The invention relates to the field of automation and computer technology and can be used in magnetic input devices.

A device for entering information containing a matching unit connected to the reading element, a decoder connected to the matching unit, the registration unit 1 is known.

A disadvantage of the known device is reliability.

The closest in technical essence to the present invention is a device comprising a matching unit, an input of which is connected to a reading element, and an output is connected to the first input of an element I, a clock generator, a register unit, the first input of which is connected to the output of a matching unit 2

The disadvantage of this device is low reliability due to temporal distortion of the reproduced signal.

The purpose of the invention is to increase the reliability of the device by increasing the range of variation of the carrier speed.

The goal is achieved

5 in that the device containing the matching unit, the input of which is connected to the reading element, and the output to the first input of the element I, the generator of clock pulses, unit

10Registrations, the first input of which is connected to the output of the matching unit, pulse counters, two comparison units and a pulse distributor are entered, the first input and output of which 5 are connected to the control input of the first counter, the second input and output of the pulse distributor are connected to the control input second counter and setup input

2Q of the third counter, the third output of the pulse distributor is connected to the second input of the element I and the installation input of the third counter, the output of which is connected to the installation inputs of the first, second,

the third, fourth, fifth of the counters and the pulse distributor, the third and fourth inputs of which are connected to the output of the matching unit,

Claims (2)

30, the output of the AND element is connected to the second installation inputs of the second and fourth counters, the outputs of the fourth counter are connected to the inputs of the registration unit and the first input of the first comparison unit, the second input of which is connected to the output of the matching unit, and the output to the control input of the third counter , the counting input of which is connected to the counting inputs of the first and second counters by the fifth input of the pulse distributor and the output of the clock pulse generator, the output of the first counter is connected to the counting input of the fifth counter, output Which one is connected to the first inputs of the second comparison unit, the second inputs of which are connected to the outputs of the second counter, the output of the second comparison unit is connected to the third installation input of the second counter and the counting input of the fourth counter. FIG. . The scheme of the proposed device is given; in fig. 2 - time diagram of his work. The device contains a read Element 1, consistency unit 2, a pulse distributor 3, element 4, first comparison unit 5, registration block b, counters 7 and 8, pulse generator 9, counters 10, 11 and 12 {10 first counter, 11 second counter , 8 - the third counter, 7 - the fourth counter, 12 - fifth counter), as well as the second block 13 of the comparison. A magnetic read head is used as the reading element 1. The device works as follows. In accordance with the structure of the signal of the recorded mark, including the marker and the sequence of information bits (fit 2a), a significant reading of information begins with the selection of the marker, represented in the form of three packages, the first of which is a FIM - package having the sign and duration T {TO.- the duration of the bit interval), the second parcel is the impulse of the polarity of the QD duration (K is the coefficient, in the proposed device is 1.5), the third parcel is the FIM-parcel marked O and the duration is Tu with reading element 1 is fed to the matching unit 2, which amplifies the signal and pg-emit it by level. In the initial state, the distributor of 3 pulses is in the zero state. When a single signal appears at the output of block 2, the distributor of 3 pulses is clocked to the first state according to the clock: / s from the generator 9 clock pulses (Fig. 26). , There are two possible modes of operation of the distributor 3: the capture mode, which is included with the arrival of the second parcel of the marker, in the case of three code frames; the search mode of the marker, which is included in the event that the distributor 3 arrives on the course, with a positive input signal in the area between the characters of information. In the capture mode, the signal from the first output of the distributor 3 prepares the corresponding input inputs 10, having a conversion factor equal to 6, and counter 12, sweeping conversion factor L, and "frTM ta where is the coefficient taking into account the maximum multiplicity of change in the speed of movement of the carrier relative to the nominal value ; pulse frequency from the generator 9 clock pulses; le „nominal value of the duration of the second parcel marker. According to the negative signal drop from the output of the matching unit 2, the valve 3 is set to the second state (Fig. 2b), issuing a signal from the second output. The counter 10 stops the counting of pulses from the generator 9 clock pulses. The counters 10 and 12, which determine the duration of the second parcel of the marker, are fixed. At the same time, the signal from the second output of the distributor 3 pulses prepares a counter 11 with a conversion factor L for passing to its counting input of the pulse sequence from the generator 9, enables the counter 8 to operate on a signal from the output of the comparison unit 5 and enables switching of the distributor 3 to the third state on a single differential input signal arriving at the end of the first half of the third premise of the marker (figure 2, c, d); the distributor 3 outputs a signal from the third output, with which element 4 AND prepares for opening, and sets a reset signal on the counter 8. The signal at the second output of the distributor 3 is saved. The signals from the outputs of the counters 11 and 12 are fed to the corresponding inputs of the second block 13 of bitwise comparison. If the states of the counters 11 and 12 are equal, the block 13 of the pore comparison outputs a signal to the counting input of the two-bit counter 7 (FIG. 2e). This signal has a period equal to. The signals from yes to counter 7 are fed to the corresponding input of the comparison unit 5, which compares them with the signals from the output of the matching block 2. When these signals are matched (fig.2e), the comparison block 5 outputs a signal preparing the counter 8, which has a conversion factor L, to pass to its input pulses from the generator 9 clock pulses. In the event that the time interval of the noncomparison exceeds the allowable value, which takes place in the marker search mode (Fig. 2h), counter 8 counts the number (Fig 2 and), after which its output signal resets the counters 7,10,11 and 12 and the distributor 3 is in the initial state. The signals from the outputs of the first and second bits of the counter 7 (Fig. 2e, g) are fed to the corresponding outputs of the recording unit 6, to another input of which the information signal from the output of the matching unit is received. The information in the block b is recorded at the moments corresponding to the middle of the second half bit send (fig.2k). The number of received bits of the sign of the information is counted in block 6 registration and upon receipt of the last bit, the device is set to. the initial state is a reset signal (Fig. 2n). Since in the process of reproducing information when measuring the duration of half of the third parcel of a marker, inaccuracies can occur as well as due to a change in the carrier speed during the reception of one sign of information, the operation of the recording unit b in asynchronous mode by a signal from the output of counter 7 can lead to loss of information and reduced accuracy. Therefore, element 4 And for each negative or positive input signal differential, if there is an enable signal from the third output of the distributor, 3 generate an output signal that resets the counter 11 and the first discharge of counter 7, thereby performing subsynchronization of the receiver. This device, implemented with the use of a serial household appliance of a network tape recorder, allows information to be reproduced when the tape speed changes by a factor of 5.3 at a density of 9.6 decibits of mm (The limit value of the speed change over time reproduces1 one 30 character %). The invention, the device for entering information from a magnetic carrier, contains a matching unit, the input of which is connected to a reading element, and an output to the first input of the element I, a clock generator, a registration unit, the first input of which is connected to the output of a matching unit, differing from In order to improve the reliability of the device, counters, pulses, two comparison units and a pulse distributor, the first input and output of which are connected to the control input of the first counter, are entered into it, the second input and you the pulse distributor stroke is connected to the control input of the second counter and the installation input of the third counter, the third output of the pulse distributor is connected to the second input of the AND element and the installation input of the third counter, the KOTopoixD output is connected to the installation inputs of the first, second, third, fourth, counter and pulse distributor, the third and fourth inputs of which are connected to the output of the matching unit, the output element And is connected to the second setup inputs of the second and fourth counters, the outputs are the first counter is connected to the output of the matching block and the output is connected to the control input of the third counter, the counting input of which is connected to the counting inputs of the first and second counters, the fifth input pulse distributor and clock generator output, the output of the first counter is connected to the counting input of the fifth counter, the outputs of which are connected to the first inputs of the second comparison unit, the second inputs of which are connected to the outputs of the second counter, the output of the second comparison unit is connected to the third installation input of the second counter and the counting input of the fourth counter. Sources of information taken into account in the examination 1.Patent of France for application No. 2319159, cl. G 06 F S / R, pub. 03.25.77. 2. Foreign electronics, 1977, No. 5, p. 30-36 (prototypes X i i but. , ::: shi