SU523494A1 - Direct frequency converter with artificial thyristor switching - Google Patents

Description

switching on the thyristor 32 using LC circuits, including switching capacitors 34 and 36, and chokes 33 and 35. But the thyristor 32 is switched off by the thyristor 19 using the same circuits.

Consider the process of turning off the thyristor 19, i.e., the voltage is removed from the load phases. To this end, include the thyristor 32 (time t, Fig. 2).

In this case, the switching capacitors 34 and 36 (charged with the polarity indicated in Fig. 1) will begin to recharge (curve UCK) along the contour: thyristor 32, capacity 36, choke 35, thyristor 19, choke 33, capacity 34. Until tz (Fig. 2), the discharge current rk is directed opposite to the current of the thyristor 19. Starting from / 2, the thyristor 19 is turned off, and the current rk is closed through diodes 20-25. From the moment is and to, / 3 (when / k again becomes equal to the sum of the currents IK, and / o), a reverse voltage is applied to the thyristor 19, equal to the voltage drop across two series-connected diodes. By the time α / 3, the thyristor 19 must completely restore its control properties. By the time t (Fig. 2), the current stored in the scattering inductances of the power transformer will drop to zero and additionally recharge the switching capacitances, which to some extent compensates for losses in the switching circuit. By the time 5 (fig. 2), the operating thyristors of the power bridges restore their control properties, the load is disconnected from the mains supply and remains short-circuited through the thyristors 32 and diodes 26-31.

This state lasts until the moment when the thyristor 19 is turned on again. The processes proceed as described above, but the thyristor 32 is turned off.

The determination of the order in which the thyristors 1 to 18 are turned on for the implementation of the cyclic control algorithm occurs according to the diagrams in FIG. 3. At time fi, control pulses are applied to the thyristors 1, 2 (to connect the phase and load to the supply phase

L), thyristors 11, 12 (for connecting the phase in to phase C), thyristors 15, 16 (for connecting the phase c to phase B of the network).

At time tz (Fig. 3, the load is disconnected from the network and short-circuited. At time t, the thyristors 3, 4, 7, 8, 17, 18 turn on. After the load is disconnected from the network at time t, then again at time / 5 they turn on thyristors 5, 6; 9, 10; 13, 14. So

In this way, to the phase a of the load, cyclically at regular intervals of time (including adjustment pauses) connect the phases of the network in the AB-C sequence, etc., to phase 8 in the sequence C-A-B and to the phase C - in the sequence BC.

The converter allows independent control of the output voltage and frequency and can be used in a frequency-controlled electric drive.

Claims (1)

Invention Formula Direct frequency converter with artificial switching of thyristors, containing a three-phase power transformer, power thyristor bridges connected between the same ends of the secondary winding of the specified transformer and a load circuit, a diode bridge loaded on a short-circuiting thyristor and connected via alternating current to the output terminals of the converter, as well as switching LC circuits, characterized in that, for the sake of simplicity, it is equipped with an additional bridge, also loaded onto a short-circuit tyri the alternator is connected to the other ends of the secondary winding of the transformer, and the commutating LC circuits are connected between the anodes and cathodes of the two mentioned short-circuiting thyristors. Sources of information taken into account in the examination: I Aut. St. USSR № 269287, N 02sh 5/28. nz zt s in  isVie i7Vi8 2 27 29 31 FIG. 2 11 JD c-jf cti Uynft. t, t tj tif tf tl tf tg P I-