DE1563282B1 - Circuit arrangement for switching a three-phase transformer - Google Patents

Description

The invention relates to a circuit arrangement for switching a three-phase transformer by means of a three-phase rectifier bridge circuit consisting of six diodes, one connected to the DC voltage poles of the rectifier bridge circuit controllable rectifier and an extinguishing device assigned to the controllable rectifier.

Such a circuit arrangement is known (French patent specification 1275 449) and in Fig. 1 of the drawing shown in principle. The connections of the Primary windings are marked with R, S and T, the connections of the secondary windings with denotes x, y and z. When switching on the three-phase transformer via the three-phase rectifier bridge circuit the switched current appears modulated with the mains frequency for a few mains periods. These in FIG. 2 phenomenon represented by the course of current 1 over time t is a consequence of the different magnetizing currents in the primary windings caused by different switch-on conditions, which is known that winding the highest or, in antiphase, the lowest periodically recurring current, the voltage of which has a value of zero at the moment of switch-on was closest.

With different loads on the secondary side of the transformer, how they occur, for example, in X-ray operation, changes essentially only the DC component, in the same sense as the load current. This means that with small loads and the use of a controllable rectifier, z. B. a thyratron or a thyristor, its controllable rectifier Conductivity as a result of a brief drop in the forward current below the - in Fig. 2 dashed lines - holding current loses fit, which means that the operation ended prematurely.

An arrangement to avoid this automatic disconnection of the load current is in the case of an inverter operated with a mercury vapor rectifier known (British patent specification 864 923). There is a decrease in the cathode current below a minimum value avoided by having two auxiliary anodes through in suitable Phase-shifted pulses derived from the alternating voltage are controlled in this way are that the current during the minima of the main anode current from the auxiliary anodes is taken over.

One such solution is for the circuit arrangement mentioned at the outset because of the lack of auxiliary anodes in controllable rectifiers such. B. Thyratrons and thyristors, impracticable.

The invention is based on the object of a circuit arrangement of the type mentioned above, the unintentional deletion of the controllable rectifier as a result of a temporarily below the holding current of the controllable rectifier to prevent running direct current.

To solve this problem, in such a circuit arrangement proposed according to the invention, in the three-phase rectifier bridge circuit controllable rectifier a direct current source whose deliverable current at least is equal to the holding current of the controllable rectifier, in such a polarity parallel to switch that their current is directed in the forward direction of the controllable rectifier is.

A diode is expediently connected in series with the voltage source, which prevents the load current from the DC voltage source when the rectifier is deleted flows.

The invention is to be based on the drawings in F i g. 3 and 4 closer explained.

F i g. 3 shows an embodiment according to the invention; F i g. 4th provides the temporal course of the current through the controllable rectifier Application of the invention.

In Fig. 3 is the three-phase transformer by a controllable Rectifier 1 switchable. There is a thyristor as a controllable rectifier 1 used, which is always referred to in the following as turn-on thyristor. The switch-on thyristor can by the discharge of a capacitor which occurs when a quenching thyristor 4 is triggered 6 can be blocked. The turn-on thyristor is via a resistor 5 and a diode 3, a DC voltage source 2 connected in parallel, which is generated by the switch-on thyristor drives a current at least as large as the holding current. This will make the total current raised by the turn-on thyristor to such a value that an unintentional Deletion of the switch-on thyristor is prevented; for illustration is in F i g. 4 shows the course of the total current 1 over time (the holding current in dashed lines 1 @ t).

The resistor 5 is used to limit the current, while the diode 3 prevents should that the load current with cleared switch-on thyristor over the DC voltage source 2 flows.

Claims (3)

Claims: 1. Circuit arrangement for switching a three-phase transformer by means of a three-phase rectifier bridge circuit consisting of six diodes, one connected to the DC voltage poles of the rectifier bridge circuit controllable rectifier and an extinguishing device assigned to the controllable rectifier, characterized in that to prevent unintentional deletion of the controllable rectifier (1) as a result of a temporarily below the holding current of the controllable rectifier (1) running direct current in the three-phase rectifier bridge circuit the controllable rectifier (1) a direct current source (2, 5), whose deliverable Current is at least equal to the holding current of the controllable rectifier (1), in such polarity is connected in parallel that their current in the forward direction of the controllable rectifier (1) is directed. 2. Circuit arrangement according to claim 1, characterized in that with the direct current source (2, 5) a diode (3) in Is connected in series. 3. Circuit arrangement according to claim 1, characterized in that that the direct current source (2, 5) the controllable rectifier (1) during the entire Operating time is connected in parallel.