RU1810990C - Device for forming test pulses - Google Patents

Abstract

Application: a device for generating test pulses can be used in control and diagnostic equipment for testing electromagnets. The inventive device comprises: a single pulse generator 1, integrators 2 and 6, a two-threshold comparator 3, an inverter 4, a transistor 10, resistors 5, 8, 9 and 11 and an output bus 7. 1 ill.

Description

The invention is intended for use in diagnostic and diagnostic equipment, in particular electromagnets.

The purpose of the invention is to increase the accuracy of the shape of the output pulse relative to the shape of the current through the coil of an electromagnet.

The invention is illustrated in the drawing, which shows in series a single pulse generator 1, integrator 2, comparator 3, inverter A, the output of which through a resistor 5 is connected to the input of an integrator 6, the output of which through a resistor 5 is connected to the input of an integrator 6, the output of which is connected with the output bus 7 and with the first outputs of the resistors 8 and 9, the second output of the resistor 8 is connected to the collector of the transistor 10, the emitter of which is connected to the output of the integrator 3, and the base through the resistor 11 with the output of the generator 1 and the second output of the rubber 9 torus.

In the absence of voltage from the output of the generator 1 of a single voltage pulse, the voltage from the output of the integrator 2 is zero, the voltage from the output of the two-threshold comparator 3 is equal to zero, from the output of the inverter 4 and from the output of the integrator 6 to the output bus 7.

At time ti, from the output of generator 1, a leading edge of the input pulse Ivh was formed. which, through a resistor 9, is supplied to an integrator 6, at the output of which the voltage begins to increase. The voltage increases at the output of the integrator 2. At time t2, the voltage from the output of the integrator 2 exceeded the lower limit UN of the triggering of the two-threshold element 3 and a positive voltage was generated at its output, therefore, a negative voltage was generated from the output of the inverter 4, through which a resistor 5, a decrease in the positive voltage at the input of the integrator 6 occurs and, as a result, a decrease in the slew rate of the output voltage. those. its steepness. At time xs, the voltage from the output of the integrator 2 exceeded the upper threshold of the two-threshold comparator 3 and, at its output in the inverter 4, the voltage became zero and the slew rate at the output of Uvykh bus 7 became close to the previous one.

Starting at time t4, the output voltage reaches its maximum and then it will remain constant until time Tb, at which a trailing edge of the input pulse UBX is formed, after which the voltage from the output of the integrator b starts to decrease and the voltage starts to decrease from the output integrator 2. When the voltage from the output of integrator 2 becomes less than the upper threshold of operation of the two-threshold comparator 3 on it

the output forms a high positive potential, which through a saturated transistor 10 enters the resistor 8 (transistor 10 is saturated with the base current flowing from the voltage from the output of the integrator 2,

emitter - the base of the transistor 10, the resistor 11 and the internal resistance of the output stage of the generator 1). Despite the fact that a negative voltage is generated from the output of the inverter 4, the output voltage

de integrator 6, due to the fact that the current through the resistor 8 is greater than the current through the resistor 5. the negative voltage polarity UBUX is reduced and can even be made positive polarity and therefore

the increase in the negative output voltage on the output bus 7 decreases or can even be negative, i.e. The output voltage of negative polarity does not increase, but decreases.

. at time t, the voltage from the output of the integrator 2 became less than the voltage of the lower threshold of operation of the two-threshold comparator 3 UH and at its output, the voltage became zero and the rate of decrease in voltage Uvyh became the same - the original,

At time ts, the output voltage became zero. Further processes are similar.

Thus, the proposed technical solution can exactly generate the output voltage, the shape of which corresponds to the shape of the current in the winding of the electromagnet removed from the current sensor, i.e.

can be used as a current simulator through the winding of an electromagnetic mechanism.

SUMMARY OF THE INVENTION A device for generating test pulses, comprising a single pulse generator, the output of which is connected to the input of the first integrator, and an inverter, characterized in that, in order to expand the scope of use by forming an output pulse of a special shape, a two-threshold is introduced into it a comparator, a transistor, four resistors and a second integrator, the output of the first integrator through a two-threshold comparator connected to the input of the inverter and to the emitter of the transistor, the base of which . the first resistor is connected to the input of the first integrator and to the first terminal of the second resistor, the second terminal of which is connected

51810990., 6

through the second integrator with the output bus, the outputs of which are connected respectively

and directly with the first pins with the collector of the transistor and with the output of the third and fourth resistors; second rotors.