SU563696A1 - Device for measuring the rate of displacement of magnetic carrier - Google Patents

Description

one

The invention relates to the field of instrumentation and can be used to determine the speed of movement of a magnetic recording medium.

A device for measuring the speed of movement of a magnetic recording medium is known, comprising magnetic recording and reproducing heads located at a certain distance from one another, a phase detector, a tunable selective amplifier, and a frequency meter.

It is also known a device comprising magnetic recording and reproducing heads located at a certain distance from one another. In such a device, the reproduced signal is continuously fed to the recording head, the frequency of the signal characterizes the speed of the carrier.

Of the known devices, the closest to the invention is a device for measuring the speed of movement of a recording medium with marks made in the form of apertures, containing a photoelectric converter including a pulsed light source placed on both sides of the carrier and a semiconductor time-pulse position-sensitive photodetector connected to the measuring a circuit from a series-connected amplifier-limiter, aogic circuit AND, a reversible counter

indicator, a pulse generator connected to the second input of the logic circuit I.

Such devices have low speed.

The purpose of the invention is to increase speed.

This is achieved by the fact that the proposed device is equipped with a delay unit connected between the measuring circuit and the pulsed light source, the pulsed source being optically aligned with the end of the working zone of the position-sensitive photodetector.

The drawing shows a block diagram of an apparatus for measuring the speed of movement of a recording medium.

The device contains a pulsed light source that performs the function of a reference light source, containing from a pulse generator 1 connected via an AND 2 logic circuit with an LED 3 to an optical system 4, a delay unit 5 for n pulses, the output of which is connected to one of the logic inputs And, and the input with another On the nose 6 of the recording at an arbitrary distance from each other there are holes.

On the other side of the recording medium, there is a semiconductor time-pulse position-sensitive photographic photo-transducer (PCF) 7 connected to the source 8 of the Italy and connected to the measuring circuit consisting of a successively connected U-limiter 9, a second logic circuit AND 10, a reversible counter And and an indicator 12, as well as a pulse generator 13 connected to the second input of the second logic circuit PI 10, the first input of which is also connected to the second input of the delay unit 5 for n pulses.

The device works as follows.

In the initial state, the magnetic recording medium 6 moves at a speed v. The LED 3 and the time-pulse IFP 7 are arranged in such a way that the optical axis of the LED 3 passes through the end of the working section while the pulse IFF. When a hole in the magnetic recording medium 6 approaches, by the time-pulse PPF 7, a pulse of light from the light-emitting diode 3 through this hole gets to the end of the working portion of the time-pulse PPF 7.

An output pulse with a time-pulse PFF of duration nf, modulated by the pulse generator 13 is recorded in the reversing counter 11. After a delay of n pulses (n is selected from the condition of the frequency of the input pulses and the measured speed) the light pulse from the LED 3 through the same hole in the magnetic recording medium falls into the starting point of the working section of the time-impulse PFF 7. The second output impulse of duration / 1СФФ2, modulated from the impulses generator 13, is subtracted from the reversible counter pulse / 1ШФ1.

The current speed is determined as follows.

The sensitivity of time-pulse FPD 7 is determined experimentally, then, using a linear characteristic (1shf /(g), the coordinate X is calculated, corresponding to the difference between the durations of the first and second output pulses with time-pulse FPS 7, after which the current speed is calculated carrier v X / nT, where T is the period of the following light input emulsions.

The proposed device has a high speed. It can be used in precision small-sized magnetic recording apparatus.

Claims (1)

Invention Formula A device for measuring the speed of movement of a recording medium with marks made in the form of apertures, containing a photoelectric converter, including a pulsed light source placed on both sides of the carrier and a semiconductor time-impulse position-sensitive photodetector connected to a measuring circuit from a sequential orimage detector. AND circuit, reversible counter and indicator, pulse generator attached to the second input of the AND logic circuit, differing In order to improve the speed, it is equipped with a delay unit connected between the meter and the pulsed light source, and the pulsed source is optically aligned with the end of the working area of the position-sensitive photodetector. R R