SU989746A2 - Pulse sensor - Google Patents

Description

(54) PULSE SENSOR

The invention relates to a periodic signal generator and can be used as a pointer pointer will turn on the car.

According to the main author. St. No. 552677 a pulse sensor is known that contains a 6 locking oscillator made of a transistor and a transformer with windings. feedback, one of which is included in the circuit between the base and the emitter, and the second - between the emitter and collector of the transistor 11 3.

The disadvantage of this technical solution is that the frequency of the generated pulses depends on the supply voltage, which reduces the reliability of this device.

The aim of the invention is to improve the reliability of the pulse sensor by stabilizing the frequency of the generated pulses when the supply voltage changes.

This goal is achieved by the fact that in a pulse sensor containing a blocking generator set on a transistor and a transformer with feedback windings, one of which is connected to the circuit between the base and the emitter, and the second between the emitter and collector of the transistor, the blocking transformer is equipped with an additional winding, which, one output of which is connected to the same output of the primary winding, and the other to one of the terminals of the power source.

In addition, in order to expand the range of use of the pulse sensor, a resistor is connected in series with the secondary winding.

The drawing shows a schematic diagram of a pulse sensor.

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The sensor consists of a transistor 1 (for definiteness, a transistor is taken), a transfo {ator 2 with a feedback winding 3 connected in between the base 3 & 7 and an emitter of a transistor 1, a feedback winding 4 connected in between the emitter and the collector of transistor 1, the primary winding 5 connected by one output to the collector of transistor 1, and the other with a load, for example, electric lamps 6 and an additional winding 7, one output of which is connected to the same output of the primary winding 5, and the other one from terminals 10 to

power supply 8. Moreover, feedback windings 4 and 3 are connected to the emitter of transistor 1 through resistor 9, and resistor 10 is connected in series with additional winding 7.

The pulse sensor works as follows.

When power is connected via a resistor, 9, windings and a load, a large current flows which magnetizes the core of the transformer 2. The magnetic flux direction is determined by winding 4, since windings 4 and 5 are turned on, but the number of turns of winding 4 is greater than the number of turns of winding 5. A voltage across the resistor 9 is created, which is directed by a pulse to the base, which creates conditions for opening the transistor 1 after magnetizing the core of the transformer and reducing the emf in the winding. When the transistor is opened, the current in the winding 5 and the load 6 increases sharply, and in the winding 4 and the resistor 9 it decreases almost to zero, and the core of the transferor is re-magnetized. In the winding 3, this induces an emf directed by a minus to the base, which keeps the transistor open. When the magnetization reversal is completed, the transistor closes again and the processes are repeated. At a nominal supply voltage, the magnetizing force generated by the additional winding 7 is subtracted from the magnetizing force generated by the flow of current through the primary winding 5. The total magnetizing force is chosen such that the sensor operates at a low frequency, while the ratio between the magnetizing forces generated by the coils 5 and 7, is chosen such that as the supply voltage changes, the total magnetizing force changes little. When using a pulse sensor as a switch pointer breaker

The company uses a resistor 10 per tonne. In this case, by choosing the size of the resistor U, you can set the same frequency of the generated pulses, both when using the trailer and with the trailer, and without the trailer, in this case, the reistor 10 should be short-circuited.

Claims (2)

If, however, a variable resistor 1O is used, the sensor can be simply tuned the sensor can be used to signal a break in the lamp circuit. When one of the lamps breaks, the magnetizing force of the primary winding 5 decreases, and an additional 7 remains unchanged. At the same time, the total magnetizing force decreases and the frequency of the generated pulses increases sharply. When using a pulse sensor as a pointer breaker, turn on the control of an open circuit of one of the lamps when their number (or power) varies over a wide range. By using an additional winding in the pulse sensor, the dependence of the frequency of the generated pulses on the supply voltage decreases. Increases sensor reliability. In addition, when using a pulse sensor as a pointer indicator, the latter does not require special devices to detect an open circuit in the lamp circuit, as a result of which the direction indicators are simplified. Claim 1. Pulse sensor according to author. St. No. 552677, characterized in that, in order to increase reliability by stabilizing the frequency of the generated pulses when the supply voltage changes, the blocking transformer is equipped with an additional winding, one output of which is connected to the same output of the primary winding and the other to one of the terminals power source. 2. The pulse sensor according to claim 1, which is based on the fact that a resistor is connected in series with the additional winding in order to expand the area of use. Sources of information taken into account during the examination 1. USSR author's certificate No. 552677, cl. N OZ K 3/30, 31.O7.72 (prototype).