SU1324058A2 - Device for reproducing magnetic recording carrier - Google Patents

Abstract

The invention relates to magnetic recording and allows to reduce the errors of the reproduction result. The operation of the device is based on the selection of noise from the calibration reference sinusoidal signal of stationary amplitude and frequency by rejecting its harmonic components and comparing in the subtractor 7 the current measurement signal and noise levels, as well as selection of the second harmonic component and its calibration signal and comparing in the subtractor 19 its flowing level with the current harmonic level of the measurement signal of the frequency corresponding to the frequency of the second harmonic of the calibration signal. The delay element 16 provides for a delay in the data of the measurement signal by a time equal to the time from the moment of arrival of the signal from the AND element 27 to turn on the recorder 10 until the starting time of the recording material. 1 il. WITH SO 4 O SL 00 N

Description

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

The aim of the invention is to reduce the error of the reproduction result. The drawing shows a functional diagram of an apparatus for reproducing from a magnetic recording medium.

A device for reproducing from a magnetic recording medium comprises a first reproducing magnetic head 1 connected through a series-connected first reproduction amplifier 2, first, second and third notch filters 3-5 and first detector 6 to a first input of a subtractor 7 connected by a second input to an output a second detector 8 and connected via an output through a third detector 9 to a first input of the recorder 10, and a second reproduction head 11 connected to the input of the second reproduction amplifier 12.

In addition, the device for reproducing a magnetic recording medium contains fourth-fifth and multiple notch filters 13-15 connected in series between the output of the second playback amplifier 12 and the input of the second detector 8, and a delay element 16, with delay element 16 connected between the output the second playback amplifier 12 and the second input of the recorder 10.

In addition, the device for reproducing a magnetic recording medium comprises first, second and third additional subtractors 17-19, first and second integrators 20 and 21, first and second band-pass filters 22 and 23, fourth, fifth and sixth detectors 24-26 and element 27, the first additional subtractor 17 is connected between the output of the first amplifier 2 playback and the input of the first notch filter 3, the second additional subtractor 18 is connected between the output of the second amplifier 12 playback and the input of the fourth notch filter 13, the third detector 9 via the AND gate 27 is connected to a first input of recorder 10 at. By this, the third additional subtractor 19 is connected by output through the fourth detector 24 to one of the inputs of the element 27, the first input through the series-connected fifth detector 25 and the first band-pass filter 22 to the output-connected first notch filter 3 and the second notch filter 4 and the second input through a series-connected detector 26 and a second band-pass filter 23 to the output of the fourth notch filter 13 and the input of the fifth notch filter 14, connected in series, and the first and second oh, the integrators 20 and 21 are connected between the outputs of the first and second amplifiers 2 and 12 of the playback and one of the inputs of the first and second additional subtractors 17 and 18, respectively.

The operation of the device is based on breeding.

noise from a calibrated reference sinusoidal signal of stationary amplitude and frequency by rejection of its first, second and third harmonic components and comparing in subtractor 7 current

measurement signal and noise levels, as well as selection of the second harmonic component of the calibration signal and comparison in the subtractor 19 of its current level with the current harmonic component of the measurement signal frequency, corresponding to the frequency of the second harmonic of the calibration signal.

If the current level of the measuring signal is higher than the current noise level and the current level of the second harmonic component of the calibration signal is less than the current level of the harmonic component of the signal, then the outputs of the subtractors 7 and 19 generate positive signals, which respectively through the detectors 9 and 24 arrive at the inputs of the elec ment and 27.

The measurement signal is read by the second reproducing magnetic head 11 from the movable magnetic recording medium and fed to the input of the second reproduction amplifier 12, from the output of which the signal simultaneously passes through the 16-delay element to the information input of the recorder 10, to the first input of the subtractor 18 and to the integrator input 21. In integrator 21, the average value of the measurement signal is calculated. Output signal

5, the integrator 21 is fed to the second input of the subtractor 18, where the signal of the measuring signal is centered. The centered signal from the output of the subtractor 18 is fed to the input of the notch filter 13. The notch filter 13 suppresses the measurement signal and the noise at the frequency of the first (main) harmonic component of the calibration signal. Successively connected notch filters 14 and 15 suppress harmonic

5 and the noise components of the measurement signal at the frequencies of the second and third harmonic components of the calibration signal.

From the output of the notch filter 15, the signal is fed to the input of the second detector 8. The current signal level from the output of the second detector 8 is fed to the first input of the subtractor 7. The band-pass filter 23 selects the signal at the frequency of the second harmonic component of the calibration signal from the measurement signal. From the output of the stroke of the band-pass filter 29, the signal is fed to the input of the detector 26. The current signal level from the output of the detector 26 is fed to the first input of the subtractor 19.

The reference calibration signal is read by the first reproducing magnetic head 1 from the movable magnetic recording medium and is fed to the input of the first playback amplifier 2, from which the signal simultaneously arrives at the first input of the subtractor 17 and at the input of the integrator 20. The integrator 20 calculates the average value of the calibration signal . The signal from the output of the integrator 20 is fed to the second input of the subtractor 17, where the calibration signal is centered.

The centered value of the calibration signal from the output of the subtractor 17 is fed to the input of the notch filter 3. The rejection filter 3 suppresses the calibration signal, extracting from it all the noise and harmonics generated in the reference signal as it passes through the information transmission path. Series-connected notch filters 4 and 5 suppress the harmonic and noise components of the calibration signal at the frequencies of the second and third harmonic components of the calibration signal. From the output of the notch filter 5, the noise is fed to the input of the first detector 6. The current level from the output of the first detector 6 is fed to the second input of the subtractor 7.

The bandpass filter 22 selects the signal at the frequency of the second harmonic component of the calibration signal. From the output of the bandpass filter 22, the signal is fed to the input of the detector 25. The current level of the signal from the output of the detector 25 is fed to the second input of the subtractor 19. If a positive signal is generated at the output of the subtractor 7, then it goes through the detector 9 to the first input of the element 27.

If a positive signal is generated at the output of the subtractor 19, it goes through the detector 24 to the second input of the And 27 element. With the simultaneous input of positive signals to the inputs of the And element; 27, a positive signal is generated at its output, which is fed to the on / off control input of the recorder 10.

0

0

The delay element 16 provides for a delay in the data of the measurement signal by a time equal to the time from the moment the positive signal arrives from the output of the element 27 on switching on the recorder 10 until the time of the start of movement of the recording material. By the time of the beginning of the movement of the recording material, the measuring signal data through the delay element 16 is fed to the registration information of the recorder 10.

Claims (1)

Invention Formula 5 A device for reproducing a magnetic recording medium according to the author. St. No. 1272351, characterized in that, in order to reduce the error of the reproduction result, the first, second and third additional subtractors, the first and second integrators, the first and second band-pass filters, the fourth, fifth and sixth detectors and the AND element, with the first an additional subtractor is connected between the output of the first playback amplifier 5 and the input of the notch filter, the second additional subtractor is connected between the output of the second playback amplifier and the input of the fourth notch filter, the third detector is connected to the first input through the element And 0 of the recorder, while the third additional subtractor is connected by an output through the fourth detector to one of the inputs of the element I, the first input through the additionally connected fifth detector and the first band-pass filter - 5 to the output of the first notch filter and the input of the second notch filter and the second input through the sixth detector and the second bandpass filter connected in series to the serially connected output of the fourth notch filter and the input of the fifth notch filter, and the first and second integrators are connected between the outputs of the first and the second playback amplifiers and one of the inputs of the first and second complementary subtractors, respectively.