CS225786B1 - The method of the switching-in of the single-phase double-pulse rectufying bridge - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a method for closing a disposable two pulse thyristor bridge in each parallel branch.

There is known a solution for pulse closing of the control bridge, in which a source of pulses is received between the control electrode and the cathode of the bridge thyristors, which come when the controlled voltage passes through zero or when the current passes through zero. The disadvantage of the solution is that when the current of the bridge drops below the holding value of the thyristor current, the current is interrupted and thus the RF interference is generated and further the stresses of the thyristor electrodes are subjected to high voltage induced on the inductors.

Furthermore, a solution for switching the rectifier bridge is known, wherein a DC voltage is applied between the control electrode and the cathode of the bridge thyristors for the whole period. The disadvantage of this circuit is the increased watt loss of the thyristors by the control current for the whole period and the reduced binding capacity of the thyristors.

The aforementioned disadvantages are overcome by the method of switching on the disposable two-pulse rectifier bridge according to the invention, characterized in that the DC voltage for controlling the thyristors is applied by one pole to the thyristor control electrodes and the other.

The advantage of the method according to the invention is that if the instantaneous AC voltage value at the bridge input is less than the DC voltage for controlling the thyristors, the control225 786

225 786 mi a) ac-hyndami control current and thyristors are open. If the instantaneous AC input voltage rises above the control voltage value, the current to the control electrodes is interrupted and the thyristors remain open by the current flowing through the bridge. While the control voltage is connected, the bridge is permanently open without interrupting the bridge current when the current drops below the current holding value of the thyristors. If the control voltage is disconnected, the bridge switches off at the next zero current crossing.

A further advantage of the method according to the invention is the lower control power input, since the flow time of the control current given by the ratio of the control to the input voltage is a fraction of the period. This reduces the wattage loss on the control electrode. Another advantage is that the thyristors are not switched off when the current drops below the thyristor current holding value, so that there is no RF interference and the thyristors are not stressed by voltage peaks induced on the inductors incorporated in the circuit.

An exemplary embodiment of a method of switching on a single-phase two-pulse rectifier bridge according to the invention is shown in the drawing in the drawing.

The drawing shows a single-phase two-pulse rectifier bridge formed by thyristors 8 and 2 in each parallel branch and diodes 2 and 6. The control DC voltage is applied by one pole to the control electrodes of thyristors 8 and 2 via the resistors 2, 6 and diodes 8 and 8 and the other pole to the bridge node 2 opposite the node 10 connecting the cathodes of thyristors 6 and 2. The AC input is applied to the nodes. the load 13 is connected to the nodes 2 and 10.

The connection function shown in the drawing is as follows:

If the instantaneous AC voltage at the bridge input is less than the DC voltage to control the thyristors, the control current passes through the control electrodes and the thyristors are open. If the instantaneous AC input voltage rises above the control voltage value, the current to the control electrodes is interrupted and the thyristors remain open by the current flowing through the bridge. While the control voltage is connected, the bridge is permanently open without interrupting the bridge current when the current drops below the current holding value of the thyristors. If the control voltage is disconnected, the bridge switches off at the next zero current crossing.

The method of switching the single-phase dual-pulse rectifier bridge according to the invention can be used for switched DC power supplies as rectifiers for charging batteries, electromagnetic clamping plates, carrier electromagnets, cathodic protection sources and the like.

Claims (1)

Method for switching a single-phase two-pulse rectifier bridge with a thyristor in each parallel branch, characterized in that a DC voltage for controlling the thyristors is applied with one pole to the thyristor control electrodes and the other pole to the bridge node opposite the node connecting the thyristor cathodes.