SU1480051A1 - Thyristor control pulse shaper - Google Patents

Abstract

The invention relates to a converter technique and can be widely used in thyristor control systems for frequency converters. The aim of the invention is to eliminate the possibility of simultaneous occurrence of operating pulses on the windings of the output pulse transformers. By the time the next thyristor, for example, the thyristor 7, is turned on, the capacitor 1 is charged up to a positive polarity. When a control pulse is applied to the thyristor 7, it is turned on, and the capacitor 1 is recharged to a negative polarity, and the capacitor 2 is recharged to a positive polarity. Simultaneously with switching on the thyristor 7, a control pulse is applied to the additional thyristor 11, so that the entire thyristor 11 is turned on throughout the entire conduction interval of the main thyristor 7. After some time, the control pulses are simultaneously applied to the switching on of the main 8 and additional 10 thyristors and the process in the circuit proceeds as described above for the thyristor conductivity interval 7.11. So in the conductivity intervals of each of the main thyristors, the primary winding of the antiphase pulse transformer is shunted by a corresponding additional thyristor, and therefore, the occurrence of a working impulse on it when the former is disrupted. 2 Il.

Description

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to positive voltage. When a control pulse is applied, the thyristor 7 turns on and recharges capacitor 1 to a negative polarity, and capacitor 2 recharges to a positive polarity. Simultaneously with switching on the thyristor 7, a control pulse is applied to the additional thyristor 11, so that the entire thyristor 11 is turned on throughout the entire conduction interval of the main thyristor 7. After some time, control pulses are simultaneously applied to turn on the main 8 and additional 10 thyristors, and the process in the circuit proceeds as described above for the thyristor conductivity interval 7.11. So in the conductivity intervals of each of the main thyristors, the primary winding of the antiphase pulse transformer is shunted by a corresponding additional thyristor, and therefore, the occurrence of a working impulse on it when the shaper fails. 2 Il.

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The invention relates to converter technology and can be widely used in thyristor control systems for frequency converters, as well as in pulsed electronic equipment.

The aim of the invention is to increase reliability by eliminating the possibility of simultaneous occurrence of pulses on the windings of pulse transformers of the driver cells.

FIG. 1 shows a circuit diagram of a former; in fig. 2 shows timing diagrams of control pulses applied to the main and additional thyristors of the driver, currents of the main thyristors and the voltage on the capacitor of one of the cells of the driver.

The thyristor control pulse shaper contains two cells, each of which consists of a capacitor 1, 2, shunted by a chain of serially connected primary windings 3, 4 of the output pulse transformer 5, 6, and thyristor 7, 8, and the cells are connected to each other in series and connected to the source 9 of the supply voltage, with the primary windings 3, 4 being shunted by additional thyristors 10, 11.

The process that takes place in the circuits of the former with the inclusion of

another thyristor (7 or 8), is oscillatory. As a result, the operation of the circuit in the quasi-steady state mode proceeds as follows.

By the time the next thyristor is turned on, for example, 7, the capacitor

It is charged to a positive polarity UCOl voltage (shown without parentheses).

When a control pulse is applied to the thyristor 7, it is turned on and the capacitor 1 is recharged to the voltage U with negative polarity, and the capacitor 2 is recharged to the voltage U C0i of positive polarity.

Simultaneously with the inclusion of the thyristor 7 on the additional thyristor

I1 is impulse control i of increased duration, so that

in the entire conduction interval of the main thyristor 7, the on state of the additional thyristor 11 is provided.

After the recharging of the capacitors 1 and 2 is completed, the thyristor 7 is turned off and the control pulse iy-i- is removed from the additional thyristor 11.

After some time determined by the driver control system, the control pulses i j9, i, / are simultaneously applied to turn on the main 8 and additional 10

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thyristors and the process in the circuit proceeds as described above for the range of conductance of thyristors 7, 11.

At the end of the conduction interval of the thyristor 8, the capacitor 1 is recharged to the voltage UCOl of positive polarity, and the capacitor 2 to the voltage Uco of negative polarity.

In the conductivity intervals of each of the main thyristors, the primary winding of the antiphase pulse transformer is shunted by a corresponding additional thyristor and, therefore, the occurrence of a working impulse on it when the former is disrupted. When a shaper is used in control systems of powerful thyristor inverters, the possibility of spurious control pulses entering the inverter thyristors at the time of shaper breakdown is eliminated, and thus the possibility of failure of power thyristors is reduced.

Claims (1)

The technical and economic effect of using a shaper is to increase the reliability of thyristor converters. Invention Formula A thyristor control pulse shaper containing two 800514 kp, each of which consists of a capacitor, shunted by a chain of serially connected primary windings of a pulse transformer and a thyristor, with the cells interconnected in series, the input of the first cell and the output of the second connected to the first and second ICQ terminals of the supply voltage source, respectively, control electrode the first cell thyristor is connected to the first output of the control signal source, which controls the 15 TP ° D electric motor of the second cell thyristor the second output of the control signal source, and the terminals of the secondary windings of pulse transformers are designed to connect to the control transitions of the power thyristors, characterized in that, in order to increase reliability by eliminating the possibility of simultaneous appearance of pulses on the windings 25 pulse transformers first and the second cells, their primary windings are shunted by additional thyristors, and the control electrode of the additional thyristor is The 30 cells are connected to the second output of the control signal source, and the control electrode of the additional thyristor of the second cell to the first output of the control signal source. tt 1-7 ABOUT 17 cpaff.2