DE1099056B - Arrangement for the protection of overcurrent sensitive system parts - Google Patents

Description

Arrangement for the protection of overcurrent-sensitive system parts The invention refers to an arrangement for the protection of overcurrent-sensitive system parts, such as silicon rectifiers and the like; Silicon rectifiers, e.g. B. in corresponding Circuits for generating the high levels necessary for the supply of transmitter tubes DC voltage is known to have only a low level of overcurrent protection. You can thus, for example, in the event of a flashover on the transmitter tube as a result of strong Overload can easily be destroyed. With these high voltages and relatively small ones Current cannot be effectively protected by switches or fuses will.

The invention shows a way how such overcurrent sensitive Plant parts can be safely protected. According to the invention, the arrangement is designed to protect overcurrent-sensitive system parts such that in the Star point of the overcurrent-sensitive consumer or in the star point of the primary winding of the transformer feeding the overcurrent-sensitive consumer a short-circuited Rectifier bridge circuit with transductor chokes is switched on, which are in Normal operation is fully permeable and in the Merstromfall full of a release element is blocked. With this arrangement it is possible to shut down the circuit in the event of a fault to block completely.

In the following an embodiment is described and based on the Drawing explained in more detail, namely Fig. 1 shows a circuit arrangement with which the Power supply to the consumer is interrupted in the event of a fault, and Fig. 2 the magnetization characteristic of the transducer chokes.

According to Fig. 1 of the overcurrent sensitive load is supplied via a transformer 3 with the coils 2a and 2b. On the primary side, the transformer winding 2 a is designed in an open star connection. A three-phase short-circuited rectifier bridge circuit 4 with transductor chokes 5, which in this case are designed with a voltage-time area control, is switched into the star point. The windings for the counter magnetization belonging to the individual transductor chokes 5 are denoted by 6.

Normally, the transductor chokes are always there, because the Counter magnetization is not switched on, in positive saturation. The induction in this case is B1 (Fig. 2). The bridge circuit 4 thus offers for the Nominal current no resistance. If an overcurrent occurs, a shown trigger member brought a flip-flop to respond. Through this tilting link the counter magnetization is switched on and causes the transductor chokes pass from the area of positive saturation (Bi) to the unsaturated state (B.) (Fig. 2), i.e. H. from the open to the blocked state. After completing this process all the driving voltage is at the transductor chokes of the rectifier bridge circuit 4, and practically no more electricity can be transmitted via the transformer 2, since only the magnetizing current of the transducer chokes flows. After elimination In the event of a fault, it is possible to switch it on again by resetting the flip-flop to achieve, similar to a short-circuit continuation, as it is in high-voltage systems is applied.

The maximum current that occurs in the event of a fault is calculated from the maximum rate of rise of the short-circuit current and the dead time the protection order. The dead time corresponds to the time from the beginning of the response of the flip-flop until the end of the reverse magnetization of the transductor chokes.

Claims (1)

PATENT CLAIMS: 1. Arrangement for the protection of overcurrent-sensitive system parts in AC circuits, in particular silicon rectifiers, characterized in that a short-circuited rectifier bridge circuit with transducer chokes is connected in the star point of the overcurrent-sensitive consumer or in the star point of the primary winding of the transformer feeding the overcurrent-sensitive consumer, which is fully permeable in normal operation and is completely blocked by a tripping element in the event of an overcurrent: 2. Arrangement according to Claim 1, characterized in that the bridge circuit with transductor chokes is designed with a voltage-time area control. 3. Arrangement according to claim 1 or 2, characterized in that the overcurrent release element works on a flip-flop element and this flip-flop element brings the voltage time area control of the rectifier circuit with transductor chokes from the on state to the off state. Publications considered: German Auslegeschrift V 6565 VIIIbl21c (published February 16, 1956); "Automatic" magazine, 1958, pp. 163 to 168, also 201 to 206.