SU554599A1 - Three-phase AC to DC converter - Google Patents

Description

one

The invention relates to AC-to-DC converters and can be used for electrochemical processing of conductive materials.

The use of three phase rectifiers for the electrochemical treatment of metals is known. However, it is necessary to create protection against short circuits of the electrodes forming the interelectrode gap.

In the well-known three-phase rectifiers, the protection of electrodes of the interelectrode gap during electrochemical processing is carried out by a capacitor, one of the plates of which is connected to the beginning of the phases of the second secondary winding through the switching thyristor and separating diodes. The disadvantages of this kind of protection include the considerable duration of the inter-electrode gap short-circuit current in the presence of a powerful surge of the recharge current of the switching capacitor in the gap, leading to the failure of the electrodes.

The prototype of the invention is a three-phase AC-to-DC converter containing a power transformer, the secondary windings of which form two

stars, the latter being connected to each other through thyristors, and each star is connected to a corresponding group of separation diodes having a common point, as well as a switching chain consisting of a capacitor and auxiliary thyristor and connected to the terminals for an additional source.

The proposed converter differs from the known one in that the switching circuit is connected between the common point of one of the separation diode groups and the common point of the star connected to this group. Besides

In addition, the converter is equipped with another of the indicated groups connected between the common point and the common point of the star connected to this group, the / C-chain, the capacitor of which is covered with a chain of zener diodes and

resistor.

Such an embodiment of the converter makes it possible to improve its energy parameters, in particular, to eliminate the recharge current of the switching capacitor in the interelectrode.

the gap during the short-circuit current outage, to reduce the time of this current flow, to limit the overvoltage on the phases of the secondary winding. The drawing is a schematic diagram

described converter.

The converter consists of a three-winding power transducer 1, power thyristors 2-7 supplying an interelectrode gap 8, which is connected between zero points of the transformer secondary windings and a switching capacitor 9, which is charged from an external power source and through separation diodes 10-12 and the switching thyristor 13 is connected in parallel to the second secondary winding of the transformer. The zero point of the first secondary winding of the transformer is connected to the beginning of the phases through dividing diodes 14-16 with a protective / C-chain 17, 18, the capacitor of which is shunted by series-connected resistance 19 and zener diode 20.

The Converter operates as follows.

When a signal is received from the short circuit sensor in the interelectrode gap 8, the switching capacitor 9, pre-charged from an external power source, is connected to the working phase of the second secondary winding of the power transformer 1 through the switching thyristor 13 and the corresponding separation diode 10-12. The process of oscillating overcharging the switching capacitor 9 begins. The inter-electrode gap 8 connected in series, the working phase of the first secondary winding of the power transformer 1 and the corresponding open working thyristor, are under counter voltage of the recharging capacitor 9, which leads to an instantaneous fall to short circuit current interelectrode gap. The power thyristors are under negative bias and regain their control, and the switching capacitor 9 is recharged through one of the phases of the second secondary winding of the power transformer 1, the interelectrode gap. At the same time, the supply of control pulses to the opening of the power thyristors stops, which excludes their subsequent switching on.

Closing the power thyristors causes a short circuit current to break in the primary winding, which is the reason for the appearance of overvoltages on the circuit elements. A protective circuit is provided for closing the primary current, consisting of a capacitor 18 and a resistor 17. During normal operation of the converter, the capacitor 18 through dividing diodes 14-16 and the resistance 17 is charged to the maximum phase voltage. In the event of overvoltage on the disconnected phase, the capacitor 18 is recharged by current.

phase across the circuit: the operating phase of the first secondary winding — resistor 17 is the corresponding diode 14-16. Upon reaching the stabilization voltage of the Zener diode 20, the capacitor 18 is discharged to the resistor 19. The stabilization voltage of the Zener diode 20 is chosen above the maximum phase voltage.

Perezard marveled to negative polarity, the switching capacitor 9 oscillatingly begins to recharge in the opposite direction.

the direction that causes the closure of the switching thyristor 13. In the future, the switching capacitor 9 is recharged to the initial voltage from an external power source, which is the moment when the three-phase converter is ready for operation.

Claims (2)

1. Three-phase AC to DC converter containing power a transformer, the secondary windings of which form two stars, the latter being connected to each other through thyristors and each star is connected to a corresponding group of separation diodes having a common point, as well as a switching chain consisting of a capacitor and an auxiliary thyristor and connected to the terminals for an additional source characterized in that, in order to improve the energy parameters, the switching circuit is connected between the common point of one of the group of separation diodes and the common point of stars dy connected to this group. 2. The converter according to claim 1, which is also distinguished by the fact that it is equipped with another of the indicated groups connected between the common point and the common point of the star connected to this group, the C-chain, the capacitor of which is shunted by a circuit of a zener diode and a resistor.