SU1277202A1 - Device for reproducing from magnetic record medium - Google Patents

Abstract

The invention relates to magnetic recording and allows to reduce reproduction errors by improving the processing accuracy of the reproduced signal. The device contains amplifiers 2 and 11, notch filters 3, 4, 5, 13, 14 and 15, blocks 6 and 23 of subtraction, expander 7, detectors 8 and 12, computational recording unit 9, blocks 16, 17 and 18 of spectrum calculation signal, .sjieMeHTjij, and 19 and 20, blocks 21 and 22 divisions, quad 24, multiplication unit 25, generator 26, low-pass filter 27, and pulse generator 31. The introduction of new elements and the formation of new links between the elements of the device allows for a delay in the signal of the main information path in relation to the corresponding sections of the path for assessing the reliability and content of the information. The delay time is determined by S with a mutual shift of the signals at the outputs of blocks I and 10 reproducing (L magnetic heads and the speed of movement of the magnetic carrier. 1 Cp f-crystals. 2 ill.

Description

The invention relates to magnetic recording, in particular to devices for reproducing from a magnetic recording medium.

The purpose of the invention is to reduce the reproduction error by intimidating the accuracy of processing the reproduced signal.

FIG. 1 and 2 is a schematic diagram of a device for reproducing a magnetic recording medium; FIG. 2 - computational recording unit.

The device for reproducing from the magnetic recording medium contains the first block 1 of reproducing magnetic heads connected to the input of the first amplifier 2 connected by the first output through the first, second and third notch filters 3-5 connected to the first input of the first subtraction unit 6 connected by the second input through a two-half-period rectifier 7 with a second output of the first amplifier 2 and an output connected to the input of the first detector 8 connected by output to the first input of the computer-recording unit 9, second unit 10 of reproducing magnetic heads connected to the input of the second amplifier 11 connected by the first output to the second input of the computational recording unit 9, and the second detector 12.

In addition, the device contains serially connected fourth 13, fifth 14 and sixth 15 rejection filters, first 16, second 17 and third 18 blocks for calculating the signal spectrum, first 19 and second 20 And elements, first 21 and second 22 dividing units, the second subtraction unit 23, the quad 24, the multiplication unit 25, the generator 26, the low-pass filter 27, the first 28, the second 29, and the third 30 switches and the pulse shaper 31. At the same time, the low-pass filter 27 and the second dividing unit 22 are connected between the input of the first detector 8 and the output of the first subtraction unit 6 connected by the first input to one of the inputs of the second dividing unit 22 and through the first switch 28: the output of the third notch filter 5 and with the third output of the first amplifier 2, the pulse shaper 31 is switched on between

the output of the first detector 8 and interconnected first inputs of the computing and recording unit 9 and the first element AND 19 connected by the second input through the second detector 12 to the interconnected first inputs of the first subtraction unit 6 and the first 16 and second 17 spectral calculation units the signal connected by the outputs respectively to the first input of multiplication unit 25 and to the input of quad 24 whose outputs are connected to the first input of the second element through the first division block 21

And 20 connected by an output to a third input of the computing and recording unit 9 and a second input to interconnected OUTPUT of the first element AND 19 and controlling input of a generator 26 connected by an output to interconnected second inputs of the first 16 and second 17 computing units of the signal spectrum and to the first input of the third computing unit 18 and the spectrum of the signal connected by the output to the second input of the multiplication unit 25 and the second input to the second output of the first amplifier 2 and the second input of the second unit connected to each other 17, calculating the signal spectrum, wherein the third switch 30 is connected between the first output of the second amplifier 11, the output of the sixth notch filter 15 and the second input of the computational-recording unit 95 connected by the fourth input to the output of the second subtraction unit 23 connected by the first input through serially connected the second 29 and third 30 switches to the output of the sixth notch filter 5 and the second input to the second output of the second amplifier 11 connected by the third output to the input -

do the fourth notch filter G

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The computational-recording unit 9 contains the calculator 32 and the recorder 33, the recorder 33 being connected by the first input to the first input of the calculator 32 and the first VLO of the block 9; the second input of which is connected to the second input of the recorder 33, the third INPUT of which is connected with the second input of the calculator 32 and is the third input of block 9, the fourth input of which is connected to the fourth input of the recorder 33, and

the output of the transmitter 32 is connected to the fifth input of the recorder 33.

The operation of the device is based on the principle of controlling the operation of the transmission paths, the information signal and the special calibration signal, which is a sinusoidal voltage of stationary amplitude and frequency.

A significant drawback of the known devices is that the information is reliable and informative only in absolute units and only in amplitude values (without the first output of amplifier 11 being reproduced, the reproduced information signal, distorted by noise and interference, is fed to the second input of subtraction unit 23. The first input of the unit 23 depending on the position of the switch 30 (similar to the position of the switch 28), either the voltage of the mixture of noise and interference signals from the output of the amplifier 11 is supplied or the voltage control full spectrum of signals). For exclusion, after removing the filterN H 13-15 from it, the first, second, and third harmonics of the control signal, respectively. If there is a free track on the magnetic media (on which no information was recorded) and the adequacy of the recording conditions for all tracks, it is preferable to use the voltage (noise and interference components) from such a dock (from the corresponding output of the amplifier 11).

From the output of block 23 of the subtraction, an information signal from which noise and interference components 2Q are removed are fed to the third input.

block 9. If necessary, process the voltage of the information channel without removing the noise and interfering components from it, the input of the switch 29 is connected to ground. From this deficiency, the proposed device evaluates the reliability in relative units (with respect to the signal-to-noise ratio) in the information channel, analyzing the similarity of the noise and interference spectrum with the signal spectrum of the measuring channels at a significant level of the absolute value of the amplitude of the noise and interference voltages.

Dp this is the delay of the signal of the main information path in relation to the corresponding sections of the path to assess the reliability and content of the information. The delay time is determined by the mutual shift of the signals at the outputs of the first and second blocks 1 and 10 of the heads and the speed of movement of the magnetic carrier.

It is selected on the basis of the inertia-35 stroke switch 30 voltage Sch45

These registrars 33 and the inertia of both paths.

The device has two modes of operation. In the first mode (the input of the switch 29 is connected to the output of the switch 0. Body 30), the third input of the block 9 receives a signal reproduced by the block 10 from which the main part of the noise and interfering components is removed.

In BTdpoM operation mode from the unit produced. I 1 of the signal, the said Components are not removed by disconnecting the first input of the second subtractor 23 from the output of the sixth notch filter 15 by the switch 29.

With the output of blocks 1 and 10, the reproduced signals are fed to the inputs of the amplifiers, respectively; 2 and 11. From the outputs of the amplifier 2, signals are fed to the reliability evaluation path,

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The move and interference enters the fourth input of block 9 for registration for the purpose of subsequent visual assessment by the operator of sections of the information signal where the level of noise and litter is significant (in the second mode of operation). This allows. simplify the solution of problems of technical diagnostics of an object (information about the behavior of which is processed).

The voltage at the output of the switch 28 is identical to the time-shifted voltage at the output of the switch 30. The voltage at the output of the full-wave rectifier 7 corresponds to the mix level of the signal with the sum of noise and interference in the corresponding measuring channel.

From the output of the subtraction unit 6, spread out its input voltages, which characterizes the level of the useful signal of the measuring channel, is fed to the input of the division unit 22. Output

and from the outputs of the amplifier 1I - in the processing and registration path (the main information path),

From the first output of the amplifier 11, the reproduced information signal, distorted by noise and interference, is fed to the second input of the subtracting unit 23. Depending on the position of the switch 30 (similar to the position of the switch 28), the first input of the block 23 is supplied either with the voltage of the mixture of noise and interference signals from the output of amplifier 11. or the voltage of the control channel after removing the filter 45 from it

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five

The move and interference enters the fourth input of block 9 for registration for the purpose of subsequent visual assessment by the operator of sections of the information signal where the level of noise and litter is significant (in the second mode of operation). This allows. simplify the solution of problems of technical diagnostics of an object (information about the behavior of which is processed).

The voltage at the output of the switch 28 is identical to the time-shifted voltage at the output of the switch 30. The voltage at the output of the full-wave rectifier 7 corresponds to the mix level of the signal with the sum of noise and interference in the corresponding measuring channel.

From the output of the subtraction unit 6, spread out its input voltages, which characterizes the level of the useful signal of the measuring channel, is fed to the input of the division unit 22. Output

the voltage of dividing unit 22 characterizes the ratio: signal / noise in the measuring channel.

With an increase in the signal-to-noise ratio at a certain threshold level, a constant voltage appears at the output of the detector 8, which through the pulse shaper 31 is fed to the input of unit 9 and puts it into operation (starts the tape recorder of its recorder).

In this case, the pulse generator 31 expands the output signal of the detector 8 by increasing its duration by the time corresponding to the shift. In time between the main path and the reliability assessment path (this eliminates loss of signals at the end of Reliable sections, i.e. before; disconnecting 9).

The low-pass filter 27 eliminates the short-term instability of the speed of the recorder 33 (i.e., the non-jerky operation of the tape-carrying mechanism of block 9 with cash AND in the processed signal of rare short impulse high-power noise). This improves the quality of registration by the block of 9 signals, since the decrease in EE .s is the total duration of the sections with an unstable registration rate, and therefore, with an additional error in binding the processed information to time.

When the output voltage of another level exceeds the output of the detector 12, a constant voltage appears at the input of the AND element J9. At its other input, through (} the lawyer, 31 pulses are outputted by the input voltage of the detector 3 The presence of a constant voltage at the output of the element And 19 corresponds to the areas where the ratio sigcal / tun is higher than the threshold.

The output voltage of the element And 19 opens the input of the element And 20 and externally starts the generator 26. The period T of the output pulses determines the periodicity with which the spectrum of the corresponding signals is recorded in blocks 16-8. At the same time, in each of the time intervals of the duration; -, T in the working frequency band of the measuring channel, unit 6 calculates the module of the interference and noise spectrum, unit 18, the module, spectrum W KVKVSS

)

its signal, and block 17 is the modulus of their mutual spectrum. Block 25 multiplies the values of the components of the stress (with paEHbD iH frequencies) from the outputs of blocks 16 and 18, BJJOK 24 erects the output voltage of the block J7 for each component of the spectrum. Block 21 determines the ratio of the output ratios of female blocks of 24 to 25 for each component of the spectrum.

Through the element AND 20, the output voltage of the block 21 is fed to the third input of the block 9. The operation of the block 9 is as follows. With t S at the first inputs of the calculator 32 and the recorder 33 of the voltage from the output of the detector 8 through the form -1parate ny ... the numerator 32 performs the processing of the measuring signal in the standard modes (for example, estimating the current value of the signal amplitude, calculating the spectrum and , d.). The registrar 33 registers the output signal; unit 32, as well as the output from the switch 30, the noise voltage and disturbance and the voltage from the output element And 20 "

If the noise in the test or in the unused measurement channel and the measurement channel is of the same nature, then the voltage at the output of unit 21 is close to one in the corresponding frequency band (with the exception of the sections caused by the first harmonic of the control signal). Given the threshold value of the voltage of block 21, unreliable parts of the spectrum can be easily rejected when analyzing the results of processing (in areas with a significant level of noise and interference).

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Claims (2)

The invention relates to magnetic recording, in particular to devices for reproducing from a magnetic recording medium. The purpose of the invention is to reduce reproduction errors by raising the accuracy of the reproducible signal processing. FIG. 1 and 2 show a fuctional diagram of a device for reproducing a magnetic recording medium; FIG. 2 - computational registering unit. A device for reproducing from a magnetic recording medium comprises a first block 1 of reproducing magnetic heads connected to the input of a first amplifier 2 connected by a first output through serially connected first, second and third notch filters 3-5 to a first input of a first subtraction unit 6 connected by a second input through a full-wave rectifier 7 with a second output of the first amplifier 2 and an output connected to the input of the first detector 8 connected via output to the first input of the computational recording unit OK 9, the second block 10 of the reproducing magnetic heads connected to the input of the second amplifier 11 connected by the first output to the second input of the computing registering block 9, and the second detector 12. In addition, the device contains sequentially connected fourth 13, fifth 14 and sixth 15 slips filter filters, the first 16, second 17 and third 18 units of the signal spectrum calculation, the first 19 and second 20 elements And, the first 21 and second 22 division units, the second subtractor 23, quad 24, multiplication unit 25, generator 26 , 27 low pass filter, first 28 minutes, the second 29 and third 30 switches and pulse shaper 31. In this case, the low-pass filter 27 and the second block 22 are actually connected between the input of the first detector 8 and the output of the first subtraction unit 6 connected by the first input to one of the inputs of the second division block 22 and through the first switch 28: the output of the third notch filter 5 and with the third output of the first amplifier 2, the pulse shaper 31 is connected between the output of the first detector 8 and interconnected first inputs of the computing and recording unit 9 and the first element I 19 connected by the second input the house through the second detector 12 to the interconnected first inputs of the first subtractor 6 and the first 16 and second 17 spectral computing units connected by the outputs respectively to the first input of the multiplication unit 25 and to the input of the quad 24 whose outputs through the first division 21 are connected to the first input of the second element AND 20 connected by the output to the third input of the computing and recording unit 9 and the second input to the first output of the first element AND 19 connected to each other and to the control input of the generator 26 connected output to interconnected second inputs of the first 16 and second 17 blocks calculating the spectrum of the signal and to the first input of the third calculator 18 and the spectrum of the signal connected by output to the second input of multiplication unit 25 and the second input to the interconnected second output of the first amplifier 2 and the second input of the second signal spectrum calculating unit 17, while the third switch 30 is connected between the first output of the second amplifier 11, the output of the sixth notch filter 15 and the second input of the computational-recording b 95 connected by the fourth input to the output of the second subtractor 23 connected by the first input through the second 29 and third 30 switches connected in series to the output of the sixth notch filter 5 and the second input to the second output of the second amplifier 11 connected by the third output to the fourth notch filter D Computational registering unit 9 contains calculator 32 and recorder 33, and recorder 33 is connected by the first input to the first input of calculator 32 and is the first VO house of block 9 ;, the second input expensively connected to the second input of the recorder 33, the third INPUT of which is connected to the second input of the transmitter 32 and is the third input of the block 9, the fourth input of which is connected to the fourth input of the recorder 33, and the output of the calculator 32 is connected to the fifth input of the recorder 33. The device is based on the principle of controlling the operation of the transmission paths, the information signal and the special calibration signal, which is the sinusoidal voltage of a stationary amplitude and frequency. A significant disadvantage of the known devices is the assessment of the reliability and content of information only in absolute units and only in amplitude values (without analyzing the spectrum of signals). To eliminate this drawback, the proposed device evaluates the reliability in relative units (with respect to the signal-to-noise ratio) in the information channel, analyzing the similarity of the noise and interference spectrum with the spectrum of signals of the measuring channels with a significant level of the absolute value of the amplitude of the noise and interference voltages. This is accomplished by delaying the signal of the main information path in relation to the corresponding sections of the path for evaluating the reliability and content of the information. The delay time is determined by the mutual shift of the signals at the outputs of the first and second blocks 1 and 10 of the heads and the speed of movement of the magnetic carrier. It is selected based on the inertia of the recorder 33 and the inertia of both paths. The device has two modes of operation. In the first mode (the input of the switch 29 is connected to the output of the switch. Tel 30), the third input of the block 9 receives the signal reproduced by the block 10 from which the main part of the noise and interfering components is removed. In BTdpoM operation mode from the unit produced. The I 1 signal of the indicated Components is not removed by disconnecting the first input of the second subtracting unit 23 from the output of the sixth notch filter 15 with the switch 29. With the output of blocks 1 and 10, the reproduced signals are fed respectively to the inputs of the amplifiers; 2 and 11. From the outputs of amplifier 2, signals are sent to the reliability evaluation path, and from the outputs of amplifier 1I to the processing and recording path (main information path). From the first output of amplifier 11, the reproduced information signal, distorted by noise and interference, is fed to the second input of subtractor 23. Depending on the position of the switch 30 (similar to the position of the switch 28), the first input of the block 23 receives either the voltage of the mixture of noise and interference signals from the output of the amplifier 11. or the voltage of the control channel after removing the filterN H 13-15 from it, respectively, first, second and third harmonic control signal. If there is a free track on the magnetic media (on which no information was recorded) and the adequacy of the registration conditions for all tracks, it is preferable to use the voltage (noise and interference components) from such a track (from the corresponding amplifier output 11). From the output of block 23, the information signal, from which noise and interference components are removed, goes to the third input of block 9. If necessary, process the voltage of the information channel without removing the noise and jamming components from it, the input of switch 29 is connected to ground. From the output of the switch 30, the voltage of noise and interference enters the fourth input of block 9 for registration for the purpose of subsequent visual assessment by the operator of sections of the information signal where the level of noise and litter is significant (in the second mode of operation). This allows us to simplify the solution of problems of technical diagnostics of an object (information about the behavior of which is processed). The voltage at the output of the switch 28 is identical to the voltage at the output of the switch 30. The voltage at the full-wave rectifier 7 corresponds to the mix level of the signal with the sum of noise and interference in the corresponding measuring channel. From the output of the subtraction unit 6 to break its input voltages, the characteristic level of the useful signal of the measuring channel is fed to the input of the division unit 22. The output voltage of dividing unit 22 characterizes the: signal-to-noise ratio in the measuring channel. With an increase in the signal-to-noise ratio at a certain threshold level, a constant voltage appears at the output of the detector 8, which through the pulse shaper 31 is fed to the input of unit 9 and puts it into operation (starts the tape recorder of its recorder). At the same time, pulse generator 31 expands the output signal of detector 8 by increasing its duration by a time corresponding to a shift. In time between the main path and the reliability assessment path (this eliminates loss of signals at the end of reliable sections, i.e. before; blocking off ). The low-pass filter 27 disables the short-term instability of the speed of the recorder 33 (i.e., it does not interrupt the operation of the tape-breaking mechanism of block 9 with a cash AND in the processed signal of rare short impulse high-power noise). This improves the quality of registration by the block of 9 signals, since the decrease in EE.ts is the total duration of the sections with an unstable registration rate, initially, with an additional error in binding the processed information to the time. When the output voltage of another level exceeds the output of the detector 12, a constant voltage appears at the input of the AND element J9. At its other input, through (} the lawyer, 31 pulses are postponed to the detector's output voltage 3. The presence of a constant voltage at the output of the element And 19 corresponds to the section where the ratio sigcal / tun is above the threshold. The output voltage of the element And 19 is open of element I 20 and an external launch of the generator 26 is carried out. The follow-up period T of its output pulses determines the period at which the spectrum of the corresponding signals is recorded in blocks 16–8 in. At each of the time intervals T in the working lane The measuring channel frequency block 6 calculates the module of the noise and noise spectrum, block 18 module of the signal spectrum W KVKVSS, and block 17 the module of their mutual spectrum. Block 25 multiplies the values of the voltage components (with paEHbD iH frequencies) from the outputs of blocks 16 and 18, BJJOK 24 raises the voltage of unit J7 for each of the components of the spectrum. Block 21 determines the ratio of the output voltages of female blocks of 24 to 25 for each component of the spectrum. Through the element AND 20, the output voltage of the block 21 is fed to the third input of the block 9. The operation of the block 9 is as follows. With the tel at the first inputs of the calculator 32 and the voltage recorder 33 from the output of the detector 8, the numerator 32 performs the measuring signal in standard modes (for example, evaluation of the current value of the signal amplitude, calculation of the spectrum, etc.). ). The registrar 33 registers the output signal; unit 32 ,, as well as the output voltage of the switch 30, the noise and interference voltage and the voltage output element And 20 "If the noise in the test or in the unused measurement) and measuring channels are the same in nature, the voltage at the output of the block 21 is close to unit in the corresponding frequency band (with the exception of the sections determined by the rejection of the first, second and third harmonics of the control signal). Given the threshold value of the voltage of block 21, unreliable parts of the spectrum can be easily rejected when analyzing the processing results (in areas with a significant level of noise and interference). Claims. Device for playing with xcg: it is your recording, containing the first block of reproducing magnetic, heads connected to the input of the first amplifier connected to the first through the first, second and third, filters to the first code of the first scraper unit , connection- 10th second entrance through a two-half-round rectifier-gel with a second grade / first time successor and an output connection to the iiepBoro detector input, which is outputted by X output X percussion, calculate / / register-regio block, the second block of reproducing magnetic heads connected to the input of the second amplifier connected to the second input of the computational recording unit by the first output, and the second detector, characterized in that, in order to reduce the reproduction error by increasing the processing accuracy of the reproduced signal, Fourth, fifth and sixth notch filters connected in series, the first, second and third blocks of the signal spectrum calculation, the first and second elements And, the first and second division blocks, the second the block you read, the quad, the multiplier block, the generator, the low pass filter, the first, second and third switches, and the pulse shaper, each connected in series, the low pass filter and the second dividing block are connected between the input of the first detector and the output of the first subtraction block, connected by the first input to one of the inputs of the second dividing unit and through the first switch to the output of the third notch filter and to the third output of the first amplifier, the pulse shaper is connected between the output of the first detector ora and. interconnected by the first inputs of the computational-recording unit and the first element I connected by the second input through the second detector to the interconnected first inputs of the first subtraction unit and the first and second spectral calculation units connected by the outputs respectively to the first input of the multiplication unit and to the input of the quad, whose outputs through the first division unit are connected to the first input of the second element I, connected with the output to the third input of the computational-recording unit and the second an input with an interconnected output of the first element AND and a control input of a generator connected by an output to the second inputs of the first and second spectral signal calculating units connected to honey and to the first input of the third block calculating the spectrum of the signal connected by the output to the second input of the multiplication unit and the second input - connected to each other the second output of the first amplifier and the second stroke of the second signal spectrum calculating unit, while the third switch is connected between the first output of the second force bodies, the output of the sixth notch filter and the second INPUT of the computational registering unit connected by the fourth input to the output of the second block connected to the first input through serially connected second and third switches to the output of the sixth notch filter and the second input to the second output of the second amplifier, connected by the third output to the input of the fourth notch filter. -t 2. The device according to claim 1, wherein the computational-recording unit comprises a calculator and a recorder, the recorder being connected to the first input of the calculator by the first input and is the first input of the block, the second input of which is connected to the second input of the recorder, the third input of which is connected The second input of the calculator is the third input of the block, the fourth input of which is connected to the fourth input of the recorder, and the output of the calculator is connected to the fifth input of the recorder. 33 eH -9 3 F1 / .g