SU1589322A1 - Device for measuring dynamic deformation of moving magnetic tape - Google Patents

Abstract

The invention relates to devices for determining the parameters of the movement of a magnetic tape. The aim of the invention is to improve the accuracy of measurement of dynamic strain. A device for measuring the dynamic deformation of a moving magnetic tape contains a driver for controlling pulses and a magnetic scanning head 1. During the time between the first and second, second and third read pulses, the first and second counters 8,18, respectively, are counted by the pulses from the high-frequency pulse generator, and these values are entered in two registers 9,12. On the trailing edge of the third read pulse, the indicator displays the value of the magnitude of the dynamic deformation coming from the subtractor 10, the inputs of which are loaded onto the registers. 1 il.

Description

The invention relates to techniques for measuring the accumulated information, namely, devices for measuring the dynamic deformation of a moving magnetic tape.

The purpose of the invention is to reduce the error in measuring dynamic deformation.

The drawing shows a structural diagram of a device for measuring the dynamic deformation of a moving magnetic tape.

A device for measuring the dynamic deformation of a moving magnetic tape contains a magnetic head 1, coupled to a magnetic tape 2, made with direct magnetization lines 3 inclined to the edge of the magnetic tape 2, and connected through a series-connected amplifier 4 and the first pulse shaper 5 to the input of the counting trigger 6, connected by the output to the first input of the first element And 7. The first element And 7 is connected by the output through a series of connected first counter 8 pulses and the first register p 9 to the first input of the subtractor 10, connected by the outputs to the inputs of the indicator 1 I and the second input to the output of the second register 12. The device also contains a second and third shapers 13 and 14 pulses, the second and third elements And 15 and 16, the pulse generator 17, the second and a third counter 18 g 19 pulses and a scanning unit 20, coupled to the magnetic head 1 and connected by the output to the input of the third counter 19 pulses. The third pulse counter 19 is connected by the installation input to the output of the first pulse shaper 5 and the output to the installation input of the counting trigger 6 and the first input of the third element And 16 connected by the second input to the output of the pulse generator 17 and the output from the first input of the second element And 15. The second element And 15 is connected by the output through the second counter 18 pulses to the inputs of the second register 12. The third element And 16 is connected by the output to the second input of the first element And 7. In this case, the counting trigger 6 is connected by the output through the second shaper 13 pulses to the synchronizing inputs of the first counter 8 pulses and the first register 9 and the inverting output to the second input of the second element And 15 directly and through the third driver 14 pulses to the synchronizing inputs of the second counter 18 pulses, the second register 12 and indicator 11.

The device operates as follows.

The magnetic head 1, under the influence of the scanning unit 20, carries out the horizontal reproduction of the control signal 3 across the moving magnetic tape 2. The result of the horizontal reproduction through the amplifier 4 and the pulse shaper 5 is fed to the input of the counting trigger 6 and the installation input is “0” of the third pulse meter 19, setting the latter is in the zero state, as a result of which the signal from the overflow output is fed to the input of the third element And 16, allowing the passage of pulses from the output of the pulse generator 17 through the third ment 16 and the inputs of the first and second AND gates 7 and 15.

> On the leading edge of the reproduction of the pulse received at the counting input of the counting trigger 6, the latter is set to a single state, a direct logic level appears at the direct output, which is present at the input of the first And 7 element, opening it for pulses from the 17 pulse generator. These pulses are counted by the first counter of 8 pulses. On the leading edge of the next reproduced pulse, a logic zero level appears at the direct output of the counting trigger 6, the first AND 7 element for pulses from the pulse generator 17 is closed. The second pulse shaper 13 generates a rectangular pulse, its leading edge acts on the control input of the first register 9, and the contents of the pulse counter 8 is written to the first register 9. The trailing edge of the generated pulse resets the first pulse counter 8.

At the same time, the logic unit level appears on the inverse output of the counting trigger 6, which opens the second element And 15, and the pulses from the pulse generator 17 are fed to the counting input of the second pulse counter 18 until the next reproduced pulse appears and changes its state trigger counter 6. At the inverse output of the latter, a logic zero level appears at which the third pulse generator 14 forms a rectangular pulse, and along its leading edge the contents of the second pulse counter 18 erepisyvaetsya the second register 12. The output signal of the subtracter 10 is set equal to the difference between two measurements of two adjacent intervals of time proportional to a longitudinal deformation steps. this section of the magnetic cents. The magnitude of this signal is written into the indicator 11 on the trailing edge of the pulse from the output of the third driver 14 pulses. On the trailing edge of the specified pulse, the second counter 18 pulses is reset.

Similarly to the described, the proposed device measures the magnitude of the longitudinal strain in subsequent cycles of the device.

At the end of the magnetization line at the output of the first shaper 5 pulses there are no reproduced pulses. From the output of the scanning unit 20, pulses with a scanning frequency arrive at the counting input of the third pulse counter 19, and the signal from the overflow output of this counter closes the third element And 16 for the pulses to pass from the pulse generator 17 and sets the counting trigger 6 to zero. Thus, the device is ready for measuring the magnitude of the longitudinal deformation when passing under the magnetic head 1 of the next line of magnetization.

As a result, the indicator 11 receives information about the longitudinal deformation of the magnetic carrier with data on its value at individual points along the width of the tape.

Claims (1)

Claim A device for measuring the dynamic deformation of a moving magnetic tape, comprising a magnetic head connected through a series-connected amplifier and a first pulse shaper to the input of a counting trigger connected by an output to the first input of the first element And connected by an output through a series-connected first pulse counter and the first register to the first input a subtractor connected by the outputs 25 to the inputs of the indicator and the second input to the output of the second register, as well as the second and third form spruce pulses and a pulse generator, characterized in that. in order to improve the accuracy of measuring dynamic deformation, the second and third elements And, the second and third pulse counters, and a scanning unit coupled to the magnetic head and connected by the output to the input of the third pulse counter connected by the installation input to the output of the first pulse shaper and output to the installation input of the counting trigger and the first input of the third element And connected to the second input with the output of the pulse generator and the output to the first input of the second element And connected to the output the house through the second pulse counter with the inputs of the second register, and with the second input of the first element And, and the counting trigger is connected by the output through the second pulse shaper to the synchronizing inputs of the first pulse counter and the first register and the inverting output to the second input of the second element And directly and through the third shaper pulses to the synchronizing inputs of the second pulse counter, second register and indicator.