CS253208B1 - Wiring to change the luminous flux intensity to adjust the pulse rate - Google Patents

Abstract

The connection allows, as needed, to change the intensity of the light flux of the source to set the duty cycle of the pulses, which are created by interrupting the light flux by the diaphragm. It eliminates the shortcomings in the detection of the interrupted light flux creating pulses, which are then converted into electrical pulses. Its essence lies in the fact that the intensity of the light flux of the light source arranged on one side of the rotary diaphragm is adjustable by a regulating resistor connected in parallel to this light source. This connection can be used to regulate the speed of rotary devices, to determine the angle of rotation of the shaft of rotary devices, to determine the length of the extension of the exposure mechanisms of magnetic heads of disk memories, and especially to provide feedback control of stepper motors of recording and similar units.

Description

The invention relates to a circuit for changing the luminous flux intensity for adjusting the pulse duty cycle that occurs by interrupting the luminous flux through the orifice plate.

By interrupting the luminous flux, for example by means of a rotary orifice mounted on the shaft of the rotating devices, for example on the shaft of the electric motor, and sensing this intermittent luminous flux, pulses are generated which are converted into electrical pulses. These pulses are then used, for example, to control the speed of these rotary devices, to secure them! the angle of rotation of the shaft of the rotary devices and the like.

In order to achieve the best possible function, the pulse duty cycle must always be the same. However, this cannot always be achieved because of inaccuracies in the manufacture of the orifice plate, in the attachment of the rotary orifice plate on the rotary device shaft, in directing the flow of the light source and the light receiver against the orifice apertures or holes and the like. Also, pulse duty cannot be achieved if the active receiving angles of the phototransistor are different.

These drawbacks are eliminated by a circuit for changing the intensity of the luminous flux for adjusting the pulse duty cycle according to the invention, the principle being that a control resistor is connected in parallel to the light source.

The advantage of the wiring lies in its simple design, which makes it very easy to adjust the pulse duty cycle.

An example of a circuit for changing the luminous flux intensity for setting the pulse duty cycle according to the invention is shown schematically in the attached drawing.

The rotary orifice plate 2 is mounted on the shaft 2. A source 4, for example an infrared diode, is arranged on one side of the rotary orifice plate 2 holes. The advantages of the light source 2 are connected to the power supply. A control resistor, for example a potentiometer, is connected in parallel to the light source 4. A light receiver 11, for example a phototransistor, is arranged opposite the apertures 2 '

In alternative solutions, an infrared LED as a luminous flux source may be replaced, for example, by a bulb. Instead of a phototransistor as a light receiver, for example, a photodiode can be used. The screen can also be sliding.

By adjusting the resistor T, the amount of current flowing through the light source 4 is adjusted so as to form a luminous cone of luminous flux intensity which safely excites the light receiver 2- This excitation is effective even if, for example, the rotating orifice plate 2 is not accurately fabricated and wherein the aperture 2 of the rotary orifice 2 ^is located between the light source 2 and the light receiver Ά, its edge also covers half the light cone. As a result, the pulse duty cycle is set to the desired value.

The pulse duty cycle connection can be used to control rotational speed of rotary devices, to provide rotational angle of the rotary devices shaft, to determine the length of protrusion of the magnetic drive head of the disk memories, in particular to control the stepper motors of writers and the like.

Claims (1)

SUBJECT OF THE INVENTION Connection for varying the luminous flux intensity for adjusting the duty cycle of pulses produced by interrupting the luminous flux through an orifice with a light source on one side and a light receiver on the other side, characterized in that a control resistor (7) is connected in parallel to the light source (4) ).