SU1076939A1 - Device for reproducing data from magnetic record medium - Google Patents

Abstract

A device for reproducing data from a carrier of magnetic recording, containing a reproducing head connected to the input of the preamplifier, a low-pass filter whose output is connected to the input of a differentiator, a comparator connected by an output to the first input of the element I connected to the output bus, a binary a counter whose outputs are connected to a programmable amplifier, an amplitude discriminator connected to the output of a reference voltage source, and an input mode control bus, exc It is understood that, in order to reduce the reproduction error of the data, the first and second additional gilpudit discriminators are introduced into it, the first inputs of which are connected to the output of the low-pass filter connected to the first input of the amplitude discriminator. minator, the first and second D-flip-flops connected by synchronization inputs to the output of an amplitude discriminator connected to the second input of the AND element, the first AND-NOT element j connected by the inputs to the outputs of the binary counter, the second and third elements of the IS-NOT, which outputs are connected respectively to subtractive and summing inputs of a binary counter, the fourth element AND IS NOT D, connected by the first input to the input control bus of the operating mode, the OR element and the first and second one-vibrators, with the output of the first single-oscillator Connected to the second inputs of the amplitude discriminator and the first and second additional amplitude discriminators, the output of the first additional amplitude discriminator is connected to the second input of the fourth AND-NOT element connected by the output to the installation input of the first D-trigger, the output of the second additional amplitude discrimination -, - the torus is connected to the first input element-CI. This OR connected by the output to the reset input of the second D-flip-flop, the output S of the amplitude discriminator is connected to the inputs of the first and second single-oscillators, the outputs of the first and second) -triggers are connected to the first inputs of the second and third elements, respectively, IS NOT, the second i, whose inputs connected to the output vj of the second one-shot; the output of the first element is and-NOT connected to the third input of the third element IS-NOT, the programmable amplifier Q is connected Q between the output of the preamplifier-i body and the input of the lower filter pilots at, ND differentiator output is connected to the input of the comparator, and the input operation mode control bus connected to the second input of the OR gate and the reset input pervogoD -triggera.

Description

The invention relates to magnetic recording, in particular, devices for reproducing data from magnetic recording media.

A device for reproducing data from a magnetic recording medium is known, containing a reproduction head connected to the input of the preamplifier.

This device allows you to ensure reproduction of data from a magnetic recording recorder with the relative simplicity of its design.

The disadvantage of this device is the OOIT in that it does not allow, to ensure reproduction of the data recorded on the recording medium with high density.

It is also known a device for reproducing data from a magnetic recording medium, comprising a reproducing head connected to the preamplifier input, a low-pass filter whose output is connected to the differentiator input, a comparator connected by the output to the first input element of the And element connected -g output bus output, a binary counter, the outputs of which are connected to a programmable amplifier, the amplitude discriminator connected, the output voltage of the reference voltage source, and the input control bus 2 mode of operation

The prior art device allows reproduction of data recorded on magnetic recording media with relatively high density.

A disadvantage of the known device is the considerable error in reproducing data from magnetic recording medium 40. The decrease in the reproduced signal, caused by deterioration of the contact between the reproducing head and the magnetic recording medium, leads to distortion of the reproduced data,

The purpose of the invention is to reduce reproduction error — data from a magnetic recording medium.

This goal is achieved by the fact that a device for reproducing data from a magnetic recording medium containing a reproducing head connected to the input of a pre-amplifier, a low-pass filter with an output connected to the input of a differentiator, comparator The output to the input terminal of the input And, connected by the output to the output bus, is a binary counter, you, the turns of which are connected to a programmable amplifier, the amplitude discriminator connected to the output source, and the reference voltage, input bus control mode of operation, the first and second additional 65 introduced

ny amplitude discriminators, the first inputs of which are connected to the output of the low-pass filter connected to the first input of the amplitude discriminator, the first and second G-triggers connected by the synchronization inputs k output of the amplitude discriminator connected to the second input of the And element, the first I-NOT element connected inputs to the outputs of the binary counter, the second and third elements AND-NOT, the outputs of which are connected respectively to the subtractive and summing inputs of the binary counter, the fourth element AND-H is connected The first input to the input control mode bus, the OR element and the first and second one-shot, and the output of the first one-shot is connected to the second inputs of the amplitude discriminator and the first and second additional amplitude discriminators, the output of the first additional amplitude discriminator is connected to the second input of the fourth AND-HE element connected by the output to the setup input of the Borolf trigger, the output of the second additional amplitude discriminator of the connector, the first input of the OR element, connected The output to the reset input of the second) -trigger, the output of the amplitude discriminator is connected to the inputs of the first and second one-vibrators, the outputs of the first and second) -triggers are connected to the first inputs of the second and third elements, respectively, AND-NOT, the second inputs of which are connected to the output of the second single-vibrator, the output of the first element is NOT connected to the third input of the third element AND the programmable amplifier is connected between the output of the preamplifier and the input of the lower filter often the output of the differentiator is connected to the input the comparator, and the input control bus of the operating mode is connected to the second input of the OR element and to the reset input of the first) trigger.

The proposed device, by introducing into it the first and second additional amplitude discriminators, the first and second triggers, the first, second, third and fourth AND-NOT elements, the OR element, and the first and second one-vibrators, can significantly reduce the error in reproducing data from the carrier magnetic

records oh

The drawing shows one of the possible variants of the proposed device.

The device comprises a reproducing head 1 connected to the preamplifier 2, a low-pass filter 3 / output of which is connected to the input of the differentiator 4, a comparator 5 connected by an output to the first input of the And 6 element of the binary counter 7, a programmable amplifier 8 and an amplitude discriminator 9. The outputs of the binary counter 7 are connected to a programmable amplifier 8 connected between the output of the preamplifier 2 and the input of the low-pass filter 3, the output of which is connected to the first input of the amplitude discriminator 9, connected to the output of the source 10 of the reference voltage. The output of the amplitude discriminator 9 is connected to the second input of the element 6 connected to the output of the output bus 11. The output of the differentiator 4 is connected to the input of the comparator 5, the device also contains the first and second additional amplitude discriminators 12 and 13, the first inputs of which are connected to the output of the low-pass filter 3, the first and second D -triggers 1 and 15, connected by synchronization inputs to the output of the amplitude discriminator 9, the first, second, third and fourth elements AND-NOT 16, 17 18 and 19, the element OR 20 and the first and second ones ovibrators 21 and 22, the inputs of the first element AND-NOT 16 are connected to the outputs of binary counter 7, the outputs of the second and third elements AND-NOT 17 and 18 are connected respectively to the subtracting and summing inputs of the binary counter 7. The first input of the fourth element AND-NOT 19 is connected to the input bus 23 control mode of operation. In the proposed device, the output of the amplitude discriminator 9 is connected to the inputs of the first and second one-shot 21 and. 22, the output of the first one-shot 21 is connected to the second inputs of the amplitude discriminator 9 and the first and second additional amplitude discriminators 12 and 13. The output of the first additional amplitude discriminator 12 is connected to the second input of the fourth element IS-NOT 19 connected to the output of the installation of the first D -trigger. The output of the second additional amplitude discriminator 13 is connected to the first input of the OR element 20 connected by the output to the reset input of the second D-trigger 15 The input control bus 23 of the operating mode is connected to the second input of the OR element 20, as well as to the reset input of the first) trigger 14, Outputs of the first and second B-triggers 14 and 15 are connected to the first inputs of the second and third elements, respectively, AND-NOT 17 and 18, the second inputs of which are connected to the output of the second single-scraper 22. At the same time, the output of the first element AND-NOT 16 is connected to t etemu input of the third AND-NO element 18, reproducing data from a magnetic record carrier by means of the device is as follows. The result of reproducing the data of the transducer 1 passes through the preamplifier 2 and the programmable amplifier 8 to the low-pass filter 3, the signal of which is fed through the differentiator 4 to the comparator 5, which provides °. the formation of zero-level pulse transmitted through the element And 6 to the output bus 11, the filter signal 3 low frequencies also goes to the amplitude discriminator 9 and the first and second additional amplitude discriminators 12 and 13, If the amplitude of the signal of the low 3 filter is greater than the source voltage 10 of the reference voltage, the amplitude discriminator 9 generates an output signal, an opening element AND 6 for the passage of zero-level transition pulses, exciting the first and second one-shot 21 and 22 and acting s to clock inputs of the first and vtorogoB -triggerov. The first and second additional amplitude discriminators 12 and 13 produce output signals if the amplitude of the lowpass filter 3 signal is respectively greater than the specified maximum voltage and specified minimum voltage. If the amplitude of the lowpass filter 3 signal is less than the specified minimum voltage, the first and second additional amplitude discriminators 12 and 13 do not produce output signals. At the same time, the first and second D-triggers 14 and 15 are in the state provided by passing the pulse of the second one-shot 22 through the third element IS-NE 18 to the summing input of the binary counter 7, Increasing the filling of the binary counter 7 by one leads to an increase in the gain of the programmable amplifier 8, In the case of complete filling of the binary counter 7, the first AND-NOT element 16 stops the passage of the pulses of the second one-shot 22 through the third AND-HE element 18, which ensures that the maximum coefficient of If the amplitude of the lowpass filter 3 signal is greater than the specified maximum voltage, the output signals of the first and second amplitude discriminators 12 and 13 translate

Claims (1)

DEVICE FOR PLAYING DATA FROM A MAGNETIC RECORDING MEDIA, comprising a reproducing head connected to the input of a pre-amplifier, a low-pass filter, the output of which is connected to the input of the differentiator, a comparator connected to the output to the first input of the element And connected to the output by the output bus, a binary counter, outputs which are connected to a programmable amplifier, an amplitude discriminator connected to the output of the reference voltage source, and an input control bus operating mode, different I mean that, in order to reduce the error in reproducing data, the first and second additional amplitude discriminators are introduced into it, the first inputs of which are connected to the output of the low-pass filter connected to the first input of the amplitude discrim. minator, the first and second D-flip-flops connected by synchronization inputs to the output of the amplitude discriminator connected to the second input of the AND element, the first AND-NOT element (connected by the inputs to the outputs of the binary counter, the second and third AND-NOT elements, the outputs of which are connected respectively to subtracting and summing the inputs of the binary counter, the fourth AND-NED element connected by the first input to the input control bus operating mode, the OR element and the first and second one-shot, and the output of the first one-shot connected to the second inputs of the amplitude discriminator and the first and second additional amplitude discriminators, the output of the first additional amplitude discriminator is connected to the second input _{from the} fourth AND-NOT element connected to the output of the installation of the first D-trigger, the output of the second additional amplitude discriminator is connected with the first input of the OR element connected by the output to the reset input of the second D-trigger, the output of the amplitude discriminator is connected to the inputs of the first and second one-shots, the outputs of the first of the second and second triggers are connected to the first inputs of the second and third AND-NO elements, respectively, the second inputs of which are connected to the output of the second one-shot, the output of the first AND-NOT element is connected to the third input of the third AND-NOT element, the programmable amplifier is connected between the output of the pre-amplifier and the input of the low-pass filter, the output of the differentiator is connected to the input of the comparator, and the input bus for controlling the operation mode is connected to the second input of the OR element and to the reset input of the first D-trigger. 1076939 A