SU1084886A1 - Device for checking magnetic record medium store - Google Patents

Abstract

DEVICE TO CONTROL THE DRIVE ON a magnetic recording medium, comprising a measurement signal generator, information and synchronizing outputs connected to by appropriate inputs of the accumulator to a magnetic recording medium, the control unit first outputs connected to first control inputs deschifratorov, outputs connected to the device outputs, wherein that, in order to increase the efficiency of statistical measurements, a block of forming a reference measurement signal was inserted into it, controlled by Key elements and gating unit, output connected to gated defender inputs, inputs connected respectively to the clock output of the drive on the magnetic recording carrier and to the auxiliary output of the control unit, the second outputs of which are connected to the control measuring signal, and the first outputs of the control unit connected to the control inputs of controlled key elements, information inputs connected to the information outputs of the a magnetic recording medium, direct outputs connected to the information inputs of the reference measurement signal generation unit and to the first information inputs of the descramblers, and inverse outputs connected (Data to the second information inputs of the decoders, the second and third control inputs of which are connected respectively to the other information inputs MOM and inverse outputs of the reference measurement signal formation unit. 00 p 00 00:

Description

2. The device according to claim 1, characterized in that each of the decoders includes a switch, information inputs connected to the outputs of the first and second elements AND, while the outputs of the switch are the outputs of the decoder, the first inputs of the first and second elements AND are synchronized that is, the input of the decoder, the second inputs of the first and second elements of AND are respectively the first and second information inputs of the decoder, and the third inputs of the second and first elements of AND are respectively the second and third control the inputs of the decoder.

3. The device according to claim 1, characterized in that the block forming the reference measurement signal contains series-connected elements NOT and OR, elements AND AND AND-NOT, and the inputs of the element OR are connected to the outputs of the elements AND whose inputs are connected to the outputs of the elements AND-NOT , while the outputs of the elements are NOT respectively the direct and inverse outputs of the block forming the reference measurement signal, the auxiliary input of each of the elements I is one of the control inputs of the block forming the reference measuring signal, and the inputs of each of the elements AND-NOT connected to at least two information inputs of the unit forming the reference measurement signal.

The invention relates to magnetic recording, in particular, to devices for monitoring drives on magnetic recording media.

A device for monitoring a storage device on a magnetic recording medium is known, comprising a measuring signal generator connected to the storage device inputs, decoders made in the form of equivalence blocks, counters and fault recorders 1.

The disadvantage of this device is the low efficiency of statistical measurements due to the need to make repeated measurements with the same amount of analysis of the measurement information.

It is also known a device for monitoring an accumulator on a magnetic recording medium, comprising a measuring signal generator connected to the accumulator inputs on a magnetic recording medium through a shaper of code groups, decoders of outputs connected to the recorder inputs and a control unit connected to the control inputs of the accumulator and through a reversible counter the entrance of one of the decoders. This device has greater efficiency and accuracy of control 2.

However, the monitoring efficiency remains insufficient when performing statistical measurements.

The purpose of the invention is to increase the efficiency of statistical measurements of signals from the output of a storage device on a magnetic recording medium.

This goal is achieved by the fact that the control unit, the information and synchronization outputs connected to the corresponding inputs of the accumulator on the magnetic recording carrier, the control unit, the first outputs connected to the first control inputs of the decoders, the outputs connected to the device for controlling the accumulator on the magnetic recording carrier. with the device outputs, a block for forming a reference measuring signal, controllable key elements and a gating unit, input connected with gated inputs of decoders, inputs connected respectively to the synchronization output of the drive on the magnetic recording medium and to the auxiliary output of the control unit, the second outputs of which are connected to the control inputs of the unit

0 forming the reference measurement signal, the first outputs of the control unit are connected to the control inputs of the controlled key elements, information inputs connected to the information outputs of the storage device on the magnetic recording carrier, direct outputs connected to the information inputs of the forming unit of the reference measurement signal and to the first information the inputs of the decoders, and the inverse outputs of the decoders connected to the second information inputs, the second and third} control inputs These are connected respectively to the direct and inverse outputs of the block forming the reference measurement signal. In addition, each of the decoders contains a switch, information inputs connected to the outputs of the first and second elements AND, the switch outputs being the decoder outputs, the first inputs of the first and second elements AND are the synchronizing input of the decoder, the second inputs of the first and second elements And are the first and second information inputs of the decoder, respectively, and the third inputs of the second and first And elements are the second and third control inputs of the decoder, respectively. The block forming the reference measurement signal contains a series-connected elements NOT and OR, elements AND AND AND-NOT, and the inputs of the element OR are connected to the outputs of the elements AND, the inputs of which are connected to the outputs of the elements AND-NOT, while the outputs of the elements NOT and OR The direct and inverse outputs of the block for the formation of the reference measurement signal, the auxiliary input of each of the elements I, is one of the control inputs of the block for the formation of the reference measurement signal, and the inputs of each of Elements AND-NOT are connected to at least two information inputs of the unit forming the reference measurement signal. This leads to a decrease in time loss during the comparative assessment of measurement results and the determination of their statistical parameters. FIG. 1 shows one of the possible variants of the device for monitoring a storage device on a magnetic recording medium; in fig. 2 is one of the possible variants of a reference measurement signal generation unit. A device for monitoring a storage device on a magnetic recording medium contains a generator 1 of measurement signals, information and synchronization outputs connected to the corresponding inputs of storage device 2 on a magnetic recording carrier, control unit 3, the first outputs connected to the first control inputs of the decoders 4, outputs connected to device outputs 5 in addition, it contains a measuring signal forming unit 6, controllable key elements 7, and a strobe unit 8, output connected to the gated and the inputs of the decoders 4, the inputs connected respectively to the synchronization output of accumulator 2 on the magnetic recording medium and to the auxiliary output of control unit 3, the second outputs of which are connected to the control inputs of the reference measurement signal generating unit 6, the first outputs of the control unit 3 are connected to the control the inputs of the controlled key elements 7 information inputs connected to the information outputs of the drive 2 on the magnetic recording medium, direct outputs connected to and information inputs of the unit 6 forming the reference measurement signal and the first information inputs of the decoders 4, and inverse outputs connected to the second information inputs of the decoders 4, the second and third control inputs, which inputs are connected respectively to the direct and inverse outputs of the unit 6 forming the reference measurement signal . Each of the decoders 4 devices for controlling the drive 2 on the magnetic recording medium contains a switch 9, information inputs connected to the outputs of the first and second elements 10, the outputs of switch 9 being the outputs of the decoder 4, the first inputs of the first and second elements 10 and 10 the synchronization inputs of the decoder 4, the second inputs of the first and second elements And 10 are respectively the first and second information inputs of the decoder 4 and the third inputs of the second and first elements And 10 are respectively in fact, the second and third inputs of the decoder 4. The 6.-forming unit of the reference measuring signal of the device for monitoring the storage device 2 on the magnetic recording carrier contains series-connected elements NOT AND AND 12, elements AND 13 and AND-NOT 14, and the inputs of the element OR 12 are connected the outputs of the elements And 13, the inputs of which are connected to the outputs of the elements AND-NOT 14, while the outputs of the elements AND and OR 12 are respectively the direct and inverse outputs of the block 6 forming the reference measurement signal, the auxiliary input of each An element of AND 13 is one of the control inputs of the formation block b of the reference measurement signal, and the inputs of each of the elements AND 14 are connected to at least two information inputs of the formation unit 6 of the reference measurement signal. The measuring signals in the forward and reverse codes from the outputs of the generator 1 of the measuring signals arrive at the information inputs of accumulator 2 on the magnetic recording medium, from the information outputs of which they enter the information inputs of the controlled key elements 7. The control unit 3 generates the corresponding signals

operation of the controlled key elements 7 and the switches 9 of the decoders 4, depending on whether the direct or inverse code comes from the output of one of the channels of the drive 2 on the magnetic recording medium. The measuring signals in the direct code, received at the information inputs of the unit 6 of the formation of the reference measuring signal, are converted by it into a highly reliable measuring signal. This signal in the forward and inverse code is fed to the first inputs of the first and second elements And 10 of the decoders 4 and is used as a reference to isolate the error signals in each of the channels, with the first and second elements And 10 extracting, respectively, false pulses and pulses loss of informational impulses. Pulses are extracted in the presence of gated pulses from the output of gating unit 8, the number of which determines the volume of one measurement and is set by the signal from the additional output of control unit 3 The block of forming the reference measurement signal generates a highly reliable signal by processing the reproduction signals of the salty channels of accumulator 2 on the magnetic carrier records Depending on the number of monitored channels, the control unit 3 generates a signal of the logical unit to the additional input of one of the elements And 13. If there is a probability of forming an error at the output of one of the elements And 13, it will be determined by the product of the sum of the error probabilities in each of the channels

which leads to the formation of a highly reliable measuring signal at the outputs of the elements NOT 11 and OR 12.

The use of the invention leads to an increase in the efficiency and accuracy of statistical measurements in comparison with the known device.

Claims (3)

DEVICE FOR MONITORING THE STORAGE ON THE MAGNETIC RECORDING MEDIA, containing a measuring signal generator, information and synchronizing outputs connected to the corresponding inputs of the drive on the magnetic recording medium, a control unit connected to the first control inputs of the decoders, the outputs connected to the outputs of the device , in order to increase the efficiency of statistical measurements, a block for the formation of a reference measuring signal, controlled by key e elements and a gating unit connected to the gated inputs of the decoders with outputs, respectively connected to the synchronizing output of the drive on the magnetic recording medium and to an additional output of the control unit, the second outputs of which are connected to the control inputs of the reference measuring signal generating unit, the first outputs of the control unit being connected with control inputs of controlled key elements, information inputs connected to the information outputs of the drive on the nose barely magnetic recordings, direct outputs connected to the information inputs of the reference measuring signal generating unit and to the first information inputs of the decoders <g, and inverse outputs connected to the second information inputs of the decoders, the second and third control inputs of which are connected respectively to the direct and inverse outputs of the block the formation of the reference measuring signal. SU w, 1084886 2. The device according to π. 1, characterized in that each of the decoders contains a switch, information inputs connected to the outputs of the first and second elements AND, while the outputs of the switch are the outputs of the decoder, the first inputs of the first and second elements AND are the synchronizing input of the decoder, the second inputs of the first and second elements AND are respectively the first and second information inputs of the decoder, and the third inputs of the second and first elements And are respectively the second and third control inputs of the decoder. 3. The device according to π. 1, characterized in that the block forming the reference from the measuring signal contains series-connected elements NOT and OR, elements AND and AND-NOT, and the inputs of the element OR are connected to the outputs of the elements AND the inputs of which are connected to the outputs of the elements AND-NOT, while * outputs NOT-AND-OR elements are respectively direct and inverse outputs of the reference measuring signal generating unit, the additional input of each of the AND elements is one of the control inputs of the reference measuring signal generating unit, and the inputs of each of the elements AND is NOT connected to at least two information inputs of the block for generating the reference measuring signal.