SU790313A1 - Three-phase switching device control device - Google Patents

Description

(54) CONTROL DEVICE FOR THREE-PHASE SWITCH

one

The invention relates to electrical engineering, namely to contactless alternating current switching devices.

A known method of controlling thyristors of a contactless alternating current switch, in which the control of the thyristor deactivators is controlled by signals generated by a generator of square pulses. In order to ensure the reliability of thyristor switching on, a current feedback circuit 1 has been applied.

However, this device has sufficient CJSOij.Hbie control circuits | j thyristors- containing a large number of elements, which significantly reduces its reliability.

The closest in technical essence to the present invention is a 20 device comprising two transformers, a thyristor switch and a diode 2,

A disadvantage of the known device is the presence of a large number of control elements of power thyristors, which complicates it significantly and reduces reliability indicators.

The purpose of the invention is to simplify the control device of a three-phase KOMMVTaTOpoM.

The goal is achieved by the fact that the control device has a three-phase switch with parallel-connected thyristors in each phase containing the first and second transformers, a thyristor switch H diodes, the first transformer has three toroidal cores, three primary windings and a secondary winding with input from the midpoint, and of the primary windings of the first transformer is wound on a separate toroidal core and connected parallel to the type of the corresponding phase of the switch, the secondary winding the first tranransformer on three toroidal cores and is shunted by a chain of first and second diodes connected in parallel to each other; of the six secondary windings of the second transformer through a diode connected to the input of the corresponding three-phase commutator thyristor.

The drawing shows a circuit diagram of a control device with a three-phase switch.

The control unit comprises a first transformer 1, the primary windings of which 2, 3 and 4 are connected in parallel to the power thyristors 5-10 of the corresponding phase of the switch, connected in parallel to each other. The secondary winding 11 of the first transformer 1 is connected to the first 12 and second 13 diodes in such a way that they form a full-wave rectifier circuit. The primary winding 14 of the second transformer, 15 through the thyristor switch 16 is connected to the middle terminal of the secondary winding 11 of the first transformer 1 and to the common point of diodes 12 and 13. The secondary windings of the second transformer 15 through diodes 17-22 are connected to the corresponding power thyristors 5-10.

The control device operates as follows.

In the off position of the control unit, when there is no control current in the control electrode of the thyristor switch 16, the primary windings 2, 3 and 4 of the first transformer 1 is supplied with a voltage equal to the phase voltage of the main circuit of transformer 1. On the secondary winding, the voltage is equal to the sum of the voltages transformed into it from the three primary windings 2-4. In this case, the transformer 1, operates in idle mode. To turn on the control device, it is necessary to pass a current through the control electrode of the thyristor switch 16. In this case, the thyristor switch 16 opens and the rectified voltage from the secondary winding 11, transformer 1 is supplied to the primary winding 14 of the transformer 15. The voltage in the secondary windings of the transformer 15 supplied through diodes 17-22 to control electrodes of power thyristors 5-10. Through the control electrodes, a current begins to flow, which causes the opening of those thyristors in each phase, the conductive direction of which at the moment coincides with the included direction of the current.

After the current in one of the phases approaches zero, the open thyristor is locked. At this moment, the voltage in the thyristor junctions in this phase begins to recover, the recovery rate of which is determined by the wave parameters of the power circuit. This voltage is transmitted to the control electrodes of all POWER thyristors 5-10. This will enable

another thyristor of this phase and the cessation of further growth of the recovered voltage at thyristor transitions. The voltage on the thyristors decreases until the voltage drops from on the switched on thyristor. The process of turning on power thyristors 5-10 will be similar for other phases. The current in the control electrodes when turned on1 "5 the device has the form

 short pulses.

In the on state, the device control will remain as long as current flows through the control electrode of the thyristor switch 16.

Comparative tests of this device with the well-known have shown that instead of separate for each phase control transformers

0 enter one, and instead of a key on transistors use a low-power thyristor key.

Claims (2)

1. USSR author's certificate number 297107, cl. H 02 R 13/16, 1969. 2. Thyristors. Technical reference. Ed. Labuntsova V.A. and others. Energy, 1971, Fig. 9-39 {prototype). one 5 D YU izn // 3 // Jl -w / 4 r r GGT r “i