SU1571656A2 - Device for reproduction of digit information from magnetic record carrier - Google Patents

Abstract

The invention improves the fidelity of reproducing digital information recorded by the frequency doubling method with the introduction of an anti-transverse marker feature in the presence of phase and frequency distortions in the reproducible recording result, by introducing into the device the fourth and fifth elements OR, the fifth pulse counter, the twelfth element AND, the sixth pulse counter, the thirteenth element I. 3 Il.

Description

The invention relates to magnetic recording, namely, devices for reproducing digital information from a magnetic recording medium, and is an improvement to the device according to the author. No. 1332369.

The purpose of the invention is to increase the fidelity of reproducing digital information.

The drawing shows a block diagram of the proposed device.

A device for reproducing digital information from a magnetic recording medium contains a magnetic head 1 connected through a playback amplifier 2 to an input of a filter 3, the output of which is connected via shaper 4 by zero to the first input of the first element 5, and via rectifier 6 to the trigger input Schmitt 7 and the driver 8 pulses at the extremum, the elements And 9 - 11, triggers 12, 13, the element is NOT 14, fifth

F 15 element, first counter 16 pulses, first decoder 1 7, first element OR 18, sixth element AND 1 9, third trigger 20, controlled oscillator 21, seventh element And 22, frequency divider 23, second counter 24 pulses, second decoder 25, delay element 26, second element OR 27, third pulse counter 28, element AND 29, 30, fourth trigger 31, additional generator 32, additional frequency divider 33, ten element AND 34, third element OR 35, fourth pulse counter 36 , the third decoder 37, the fifth trigger 38, the eleventh element And 39, exit 40,41 tires, elements OR 42,43, fifth counter 44 pulses, fourth decoder 45, twelfth element I 46, sixth trigger 47, sixth counter 48 pulses, fifth decoder 49, seventh trigger 50, thirteenth element And 51 and third output bus 52.

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Shaper 8 pulses extremum connected to the output of the first input of the second element And 9 and interconnected first inputs of the third, 10 and fourth 11 elements And connected by second inputs to the Schmitt trigger output 7. The outputs of the third 10 and fourth 11 elements And connected to the inputs of the first trigger Yu 12, the first output of which is connected to the second input of the first element I 5 The second output of the first trigger 12 is connected to the first input of the second trigger 13 connected by the second input 15 to the output of the first element I 5, Element Output is the NOT 14 is connected to the first input of the fifth AND gate 15 and a mounting input of the first counter 16 counting pulses 5 connected vho- house 20 to the output of the fifth AND gate 15 '

The output of the first counter of 16 pulses is connected via the first decoder 17 to the first input of the first element OR 18 connected by the second input to the output of the second element AND 9 “The output of the first element OR 18 is connected to the first input of the sixth element AND 19 connected by the second input to the first the output of the third trigger 20, the Output 3 of the sixth element And 19 is connected through a controlled oscillator 21 to the second input of the fifth element And 150 The output of the first element OR 18 is also connected to the first input of the seventh element 3 And 22 connected by a second input to the output row divider 23 frequency.

The output of the seventh element And 22 is connected to the counting input of the second counter 24 pulses connected by outputs 4 turns through the second decoder 25 to the first input of the third trigger 20. An additional generator 32 is connected by an output to the interconnected inputs of the frequency divider 23 and the additional 4th divider 33 frequencies. The output of the additional frequency divider 33 is connected to the counting input of the third pulse counter 28, which is connected by outputs to the information inputs of the second 5 pulse counter 24. The setup input of the third pulse counter 28 is connected to the output of a delay element 26 connected by an input with a control input connected to the second counter of the second pulse counter 24 and an output of the second element OR 27 connected by the first input to the output of the ninth element AND 30.

The second input of the second element OR 27 is connected to the output of the sixth element AND 19 "The fourth trigger 31 is connected by the output to the first input of the ninth element AND 30, and the first input to the output of the sixth element And 19 connected to the first output bus 40. The second input of the fourth trigger 31 is connected to the interconnected second input of the ninth element AND 30 and the output of the eighth element AND 29. The first input of the eighth element And 29 is also connected to the interconnected output of the first element OR 18 and the second input of the third trigger 20 connected to it th output to the second input of the eighth AND gate 29.

The fifth trigger 38 and the tenth element And 34 are connected by the first inputs to the output of the imaging unit 8 pulses at the extremum, the eleventh element And 39 are connected by the first input to the output of the eighth element And 29, and the first to the second inputs of the fourth counter 36 - to the output of the sixth element And 19 directly and via a control generator 21. The output of the eleventh element AND 39 is connected to the first input of the third element OR 35, which is connected by a second input to the output of the tenth element And 34. The tenth element And 34 is connected by a second input to the element NOT 14 and the third the entrance - a yield of a fifth flip-flop 38, a second input connected through the third decoder 37 the outputs of the fourth pulse counter 36 "

The fourth element OR 42 is connected between the output of the second trigger 13 and interconnected second inputs of the second 9 and eleventh 39 elements AND, the fifth element OR 43 is connected between the output of the third element OR 35 and the second output bus 41. Fifth counter 44 pulses of the counting input is connected to the output of the controlled generator 21, the setup input to the output of the sixth element And 19, and the outputs to the inputs of the fourth decoder 45, the twelfth element And 46 by the first input connected to the output of the first decoder 17, the second input to the output of the sixth trigger EPA 475 second output of which is connected to a fourth input of the tenth AND gate 34 and to the second input of the fourth OR gate 42 input of the sixth counter 48 is connected to the output of the twelfth AND gate 46, and

outputs - to the inputs of p of the decoder 49, in which the first output is connected to the first input of the seventh trigger 50, the second output - to the second input of the seventh trigger 50 and to the first input of the sixth trigger 47, the thirteenth element I 51 is connected to the output by the first input shaper 16 pulse signal prohibits the pulse shaper of the pulse shaper 8 through the second element AND 9 to the first OR element and allows the controlled generator 21 pulses to pass through the fifth element 15 to the first pulse counter 16. At the same time, the appearance of a signal

pulses at the extremum, the second input of the Yu fallout first counter 16 pulses

starts to fill up. The first decoder 17 analyzes the state of the first counter of 16 pulses and generates pulses, the frequency of which is followed in

15 two times higher than the clock frequency of digital information.

The pulses of the first decoder 17 pass through the first element OR 18, which ensures that synchronization is maintained in the first sync pulse / demodulator and code pulses, which includes the third 20 and fourth 31 triggers, the sixth 19, the seventh 22, eighth 29 and ninth 30 elements AND, the second element OR 27, delay element 26, the second 24 and third 28 pulse counters, the second decoder 25, the frequency divider 23, the additional frequency divider 33 and the additional

to the output of the seventh trigger 50, and the output to the second input of the fifth element OR 43, while the output of the fourth decoder 45 is connected to the second input of the sixth trigger 47 and to the third output bus 52.

A device for reproducing digital information from a magnetic recording medium operates as follows.

The result of reproducing digital information from the magnetic recording medium of magnetic head 1 passes through amplifier 2 to filter 3, which ensures its filtering. The signal from the filter 3 is fed to the driver 4 pulses on zero and passes through the rectifier 6 on the Schmitt trigger 7 and on the driver 8 pulses on the extremum. At the same time, the trigger threshold of the Schmitt trigger 7 is corresponding to-30 generator 32. the threshold for reliable formation of pulses of the driver of 8 pulses according to the extremum. If the signal from rectifier 6 is higher than the trigger threshold of a Schmitt trigger 7, then the signal from the imager 358 pulses extremum passes through the third element 10 at the first input of the first trigger 12, and if lower, then through the fourth element 11 passes at the second input of the second Trig- 40 Gera 12.

The first trigger 12 generates a signal characterizing portions of the reproduction of digital information, formed with low confidence. The front 45 th 29 elements And, the third trigger 20, the front of the pulse formed by the first is in the state in which the trigger 12 starts the second trigger of the eighth element And 29 is closed, and the sixth

The output of the eighth element And 29 is allocated the first information pulse sequence, which is used as an input signal for the tenth element And 34, as well as in conjunction with the synch pulses of the sixth element And 19 for self-synchronization of the demodulator of the sync pulses.

In the steady state demodulator of the sync pulses during the presence of the next sync pulse at the second input of the third trigger 20 and at the first inputs of the sixth T9 and eighth

ger 13. At the end of a section of reproduced digital information formed with low confidence, 50 shaper 4 pulses through zero through the first element 5 sets the second trigger 13 to the zero state.

In this way, a dropout signal is generated, coming through the first input of the fourth element OR 42 to the second element AND 9 and to the element NOT 14.

element and 19 is open. From the output of the sixth element AND 19, the sync pulses pass through the second element OR 27 to the third input of the second counter 24 pulses, overwriting the state of the third signal 28 pulses into the third code in the reverse code. After that, the third pulse counter 28 begins to fill with the pulses of the additional generator 32 through the additional frequency divider 33, having a division factor of 4. At the same time, the dropout signal prevents the impulse generator of the 8 impulses from passing through the extremum through the second AND 9 element to the first OR element the passage of pulses of the controlled generator 21 through the fifth element I 15 to the first counter of 16 pulses. At the same time, the appearance of a signal

generator 32.

29 elements And, the third trigger 20 is in a state in which the eighth element And 29 is closed, and the sixth

The output of the eighth element And 29 is allocated the first information pulse sequence, which is used as an input signal for the tenth element And 34, as well as in conjunction with the synch pulses of the sixth element And 19 for self-synchronization of the demodulator of the sync pulses.

In the steady state demodulator of the sync pulses during the presence of the next sync pulse at the second input of the third trigger 20 and at the first inputs of the sixth T9 and eighth

element and 19 is open. From the output of the sixth element AND 19, the sync pulses pass through the second element OR 27 to the third input of the second counter 24 pulses, overwriting the state of the third signal 28 pulses into the third code in the reverse code. After that, the third pulse counter 28 begins to fill with the pulses of the additional generator 32 through the additional frequency divider 33, having a division factor of 4. At the same time, a second splitter 23 is transmitted from the frequency divider 23, having a division factor of 3. 24 pulse counter. When the second counter of the 24 impulses of Btopoft is overflown 5, the decoder 25 generates a pulse, on the falling front of which the trigger 20 is set to the state allowing the 10th sync pulse to pass through the sixth And 19 element.

Reverse installation of the third trigger 20 is performed by the falling edge of the next pulse from the first element 15 TI OR 18. Synchronization of the demodulator of the clock pulses is performed using the fourth trigger 31 and the ninth element 30 And after the appearance of the first cad pulse at the outputs of the sixth 20 19 and eighth 29 elements I. From the output of the sixth element I 19, the demodulated clock pulses go to the first output bus 40 and to the set-up 25

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whether the input of the first counter of 44 pulses If there is a fallout signal, the first information pulse sequence, allocated on the eighth AND 29, does not pass through one

element

The twenty-first element AND 39 at the output is the third third element OR 35. At this time, at the output of this element there is a third information pulse sequence, formed by the second code information demodulator, which includes a controlled oscillator 21, the fourth counter 36 pulses, the third decoder 37, the fifth trigger 38 and the tenth element AND 34. In this case, the demodulation of the first demodulator clock pulses from the sixth element AND 19 enters the fourth counter 36 of pulses directly and through a controlled oscillator 21. The fourth account

A pulse pulse 36 counts the pulses of the controlled oscillator 21.

The third decoder 37 analyzes the state of the fourth pulse counter 36 and produces a pulse that sets the fifth trigger 38 to a state in which the next pulse of the impulse generator 8 is prevented from passing through the tenth element AND 34 at the extremum. In the presence of a fallout signal, the element NOT 14 allows the code pulse to pass through the tenth element AND 34 to the output of the third element OR 35.

50

five

COP OR 42.

In the reproduction area of the anti-skip marker, a third information signal demodulator comprising the fifth 44, sixth 48 pulse counters, the fourth 45 and fifth fifth decoders, the sixth 47 and seventh 50 triggers, and the thirteenth element And 51 is included.

The fifth counter 44 pulses and the fourth decoder 45 connected to it select the periods of the selected clock pulses. At the same time, in reproducible areas, where the period of the clock pulses is more than 1.25 T, at the output of the fourth decoder 45, pulses of anti-transverse markers are formed, which then go to the third output bus 52 and to the input of the sixth trigger 47.

The sixth trigger 47 forms the first gating pulses along the leading edge of the pulses of anti-transverse markers. From the inverse output of the trigger 47, the gating pulses arrive at the input of the tenth element AND 34, prohibiting the passage of information from the output of the second demodulator to the input of the third element OR 35 and at the fourth ele

COP OR 42.

At the output of the fourth element OR 42, the first gating pulses are summed with the deposition pulses. In this case, a prohibition on the passage of Circassian eleventh information element I 39 from the demodulator output to the input of the third element OR 35 is formed. At this time, the output of the first decoder 17 begins to form a sequence of pulses with a period of 0.5 T, and the first demodulator turns into self-synchronization mode.

From the direct output of the sixth trigger 47, gating pulses arrive at the twelfth element E 46, which twice passes the sync pulse frequency to the counting input of the sixth counter 48 pulses connected to the inputs of the fifth decoder 49.

On the first and second outputs of the fifth decoder 49, the second and fourth input pulses are output, respectively, to the input of the sixth counter 48 pulses. The fourth pulse selected at the second output of the 5th decoder, the sixth trigger 47

is reset. In this case, the twelfth element AND 46 is closed, and at the input of the tenth element And 34 a blockage is removed.

The second and fourth pulses from the output of the first decoder trigger and reset the seventh trigger 50, and a 1-T strobing pulse is generated at its output. The signal from the output of the seventh trigger goes to the thirteenth element I 51, which passes two bits in the marker area to the input of the fifth element OR 43, from the output of which the selected code information is fed to the output bus 41,

Thus, code information from one of the three code information demodulators is supplied to the output bus 41. In the case where the frequency doubled recording section is reproduced and there are no drops, the first demodulator works on the output, if this section has dropped, then the first demodulator turns off and the second demodulator turns on as well. when a zone with an encoded anti-slider marker is played, the first and second demodulators are disconnected and the third demodulator is connected.

Claims (1)

Invention Formula Device for reproducing digital information from a magnet 10 carrier f5 thirty 7165610 Noah entries by author. No. 1332369, characterized in that, in order to improve the fidelity of reproducing information, a fourth OR element is included in it, connected between the second trigger and the second AND element, while its second input is connected to the fourth input of the tenth And element, sequentially connected to the fifth the counter and the fourth decoder, while the counter input of the counter is connected to the output of the controlled generator, to the input of which its installation input is connected, the sixth trigger, the input- setting zero of which is connected to the output of the fourth decoder Ator and third output bus, c. zero output - with the fourth input of the tenth element I, connected in series to the single output of the sixth trigger; the twelfth element And, the second input of which is connected to the output of the first decoder, the sixth counter, the fifth decoder, the output of which is connected to the installation input of the unit of the sixth trigger, the seventh trigger, the zero and single inputs of which are connected to two outputs of the 5th decoder and connected in series to the single output of the seventh trigger, the thirteenth element I, the second input of which is connected to the output of the pulse shaper, and the sixth element OR, the second input of which is connected to the output of the third element OR, and the output to the second output bus. 20 25 35 „JJHTZI  - in m   -rj r0 72