SU1184074A1 - Generator of voltage pulses - Google Patents

Abstract

VOLTAGE PULSE FORMER containing a relaxation pulse generator made, for example, on a single junction transistor, connected between the power supply bus and a common device bus, the thyristor trigger with a switching capacitor, the first output of which is connected to the anode of the first thyristor, the single junction transistor, which emitter through the first resistor , and the first base through the second resistor is connected to the power bus, a diode, characterized in that, in order to increase the reliability of the device during simultaneous operation In order to increase the accuracy of setting the pulse duration and pause duration, a two-channel voltage divider was introduced into it, the first input of which is connected to the anode of the first thyristor of the thyristor trigger, the second input with the anode of the second thyristor of the thyristor trigger, and the output to the synchronizing input of the relaxer (L a diode is connected between the anode of the second thyristor of the thyristor trigger and the second plate of the switching capacitor, the anode of the diode is connected to the second base, and the cathode is connected to the emitter transistor transistor. 00 4

Description

one

The invention relates to a pulse technique and can be used, for example, in modulating devices for welding current stabilizers.

The purpose of the invention is to increase the reliability of the device while at the same time increasing the accuracy of setting the impudence duration and pause duration by eliminating two relaxed pulse generators on single junction transistors and combining the elements of the impulse duration and pause task into one element.

The drawing shows a circuit diagram of the device.

The device contains a relaxation generator 1, made, for example, on a single junction transistor 2. connected between the bus 3 of the power source and the common bus 4 of the device, a thyristor trigger 5 with a switching capacitor 6 connected between the anodes of the first 7 and second 8 thyristors, a single junction transistor 9, emitter through the first resistor 10, and the first base through the second resistor 11 is connected to the power supply bus 3, diode 12, a two-channel de-junction voltage 13, made on resistors 14-17, diodes 18 and 19, the first input of which is connected to the anode of the first thyristor 7 of the thyristor trigger 5, the second input with the anode of the second thyristor 8 of the thyristor trigger 5, and the output with the synchronizing input of the relaxation generator 1, diode 12 is connected between the anode of the second thyristor 8 of the thyristor trigger and the plate of the switching capacitor 6, and the anode of the diode 12 connected to the second base of the unijunction transistor 9, the cathode - with its emitter. The relaxation generator also contains a zener diode 20, a resistor 21 and a capacitor 22.

The device works as follows.

When DC voltage is applied to busbars 3 and 4, capacitor 22 begins to charge before voltage, the value of which is determined by the position of the moving contact of variable resistors 14 and 15 Simultaneously between the first and second

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the basic outputs of the single junction transistor 2 begin to flow a small current, the magnitude of which is determined by the cross-base resistance. The thyristors 7 and 8 are in the closed state. Zener diode 20 reduces the cross-base voltage of transistor 2 to the desired level. The capacitor 22 is charged simultaneously through two chains formed by diodes 18 and 19 and variable resistors 16 and 17, respectively.

At the moment when the voltage across the capacitor 22 is equal to the turn-on voltage Up of the transistor 2, the single-junction transistor 2 almost instantly switches from the closed state

in the open. Capacitor 22 is quickly discharged through resistor 21.

The voltage across the capacitor 22 decreases, and as soon as its value becomes equal to the switching voltage and the unijunction transistor 2, the latter transitions from an open state to a closed state. The duration of the charge of the capacitor 22 to the switching voltage Up is set using variable resistors 16 and 17, connected according to a circuit of adjustable resistance in the charge circuit, capacitor 22.

At the moment of switching the single junction transistor 2 from the closed state to the open, a voltage pulse appears on the resistor 21 as a result of the discharge of the capacitor 22. This voltage pulse is applied to the thyristor control transitions 7 and 8. As a result, the control pulse appears the resistor 21, the thyristors 7 and 8 are transferred from the closed to the open state. Value of voltage

the anodes of thyristors 7 and 8 and, therefore, at the output terminals decreases to the potential level of the bus 4 plus the voltage drop across the open thyristor.

Simultaneously with the opening of the thyristors 7 and 8, the charge of the switching capacitor 6 starts through a variable resistor 10 connected in a variable resistance circuit 4 to a voltage equal to the switching voltage of the single junction transistor 9. Before switching on the thyristors 7 and 8, the capacitor 6 was charged before the voltage "Ord, where Upg is the turn-on voltage of the unijunction transistor 9. The magnitude of the voltage on the capacitor 6 before the thyristors 7 and 8 go into the open state determines the voltage difference across the anodes of closed thyristors 7 and 8.

When the voltage on the capacitor 6 becomes equal to the turn-on voltage of the unijunction transistor 9 (thyristors 7 and 8 are open), the latter transitions from a closed state to an open state, and the voltage on the capacitor 6 through an open emitter-first base of the single junction transistor 9 and an open thyristor 8 applied to the thyristor 7 in the opposite direction. The thyristor 7 is closed and then with the thyristor 8 goes into trigger mode.

The duration of the charge of the capacitor 6 to the switching voltage of the single junction transistor 9 is set by means of a variable resistor 10 connected in accordance with an adjustable resistance circuit.

In the trigger mode, the device operates as follows.

When the thyristor 7 is closed at a variable resistor 15, a voltage drop of a predetermined value appears and the capacitor 22 starts charging through the variable resistor 17 and the diode 19.

At the same time, as a result of an increase in the potential of the voltage on the anode of the thyristor 7, the capacitor 6 begins to be recharged along the circuit: the anode of the thyristor 7 - the capacitor 6, the emitter - the first base of the single junction transistor 9 - the voltage on the variable resistor 15 minus the drop voltage on open thyristor 8. When the voltage on the capacitor 22 becomes equal to the turn-on voltage of the unijunction transistor 2, the latter switches from the closed state to the open state, and a voltage pulse appears again on the resistor 21 Adapted to the control transitions of the thyristors 7 and 8. The thyristor 7 goes from the closed state to the open state and the voltage on the capacitor 6 is applied through

open thyristor 7 and diode 12 in the opposite direction to thyristor 8. Its magnitude is sufficient to transfer the thyristor 8 from the open state to the closed state. Thyristor 8 is closed.

When the thyristor 8 is closed on the variable resistor 14, a voltage drop of a predetermined magnitude appears, and the capacitor 22 begins to charge through the variable resistor 16 and the diode 18.

At the same time, as a result of an increase in the potential of the thyristor 8 anode and a decrease in potential at the thyristor anode 7, the capacitor 6 begins to charge along the circuit: the anode of the thyristor 8 — diode 12 — capacitor 6 — open thyristor 7 until the voltage on the variable resistor 14 minus the drop the voltage on the open thyristor 7. When the voltage on the capacitor 22 becomes equal to the turn-on voltage of the unijunction transistor 2, the latter goes from the closed state to the open one and on the resistor 21 appears and myc voltage Returned to the control transitions of the thyristors 7 and 8. The thyristor 8 opens, and the thyristor 7 closes, as described, and the process repeats.

Thus, the signals at the output pins are inverse. The pulse duration and pause are regulated separately using variable resistors 16 and 17, which are connected in accordance with an adjustable resistance circuit. Resistor 11 provides voltage stabilization of the single junction transistor 9 when the ambient temperature changes.

As a result of the construction of the proposed scheme, there is no need for two relaxation pulse generators, each performed on a single junction transistor and RC master circuit time, in the initial switching on unit of the trigger thyristors and in the technological delay unit of the start of the triggering mode of the trigger thyristors, which increases the reliability of the device and accuracy set the pulse duration and pause settings.

Claims (1)

VOLTAGE PULSE FORMER, containing a relaxation pulse generator, made, for example, on a single-junction transistor, connected between the bus of the power supply and the common bus of the device, a thyristor trigger with a switching capacitor, the first output of which is connected to the anode of the first thyristor, a single-junction transistor, the emitter of which is through the first resistor and the first base through the second resistor is connected to the power bus, a diode, characterized in that, in order to increase the reliability of the device while to increase the accuracy of setting the pulse duration and pause duration, a two-channel voltage divider is introduced into it, the first input of which is connected to the anode of the first thyristor trigger thyristor, the second input to the anode of the second thyristor trigger thyristor, and the output with the synchronizing input of the relaxation generator, and the diode is connected between the anode of the second thyristor of the thyristor trigger and the second lining of the switching capacitor, the anode of the diode is connected to the second base, and the cathode is connected to the emitter of a single junction transistor ora. „„ SU ... 1184074