DE889031C - Differential protection device - Google Patents

Description

The invention relates to a special design of the differential protection devices, how they come into consideration especially for the protection of substations. Intended is going to get a protective device that does not respond to inrush currents responds, but on the other hand with errors in the protégé with high sensitivity the shutdown is effected without a response delay that is undesirable for the network protection to need.

With the differential protection devices' one has so far to get a response To avoid the inrush currents, a time delay is provided. That delayed Switching off in the event of an error is, however, unfavorable insofar as with the time graduation this must be taken into account when protecting the network. It is therefore already stated been to feed the differential relay via an intermediate transformer, the Pri, mürwi.ckl.ung is traversed by the differential current and -, its magnetic - conditions are selected so that it is strong due to the direct current component of the inrush current is presaturated. The inrush current is then only increased to such an extent transmit the differential relay so that it does not respond and, the differential relay 'can at low. Sensitivity consequently for Nondelayed Be trained to work in the event of a fault. So even with fault currents that only make up a fraction of the nominal current, a shutdown can be achieved, a second more sensitive differential relay is provided.

To. the invention is intended for the differential protection device in Drehstro.msystemen achieved the desired effect in a much simpler way will. It has been shown that in a three-phase system because of the concatenation of the phases the inrush currents are nowhere near as strong as in one Single-phase system and the network protection does not yet respond in any case comes into consideration. The response of the differential protection device to the inrush currents can consequently also without the use of a special intermediate converter avoid by setting the differential relay working with a delayed operation accordingly will. For the delayed differential relay, the setting in also otherwise usual height, so z. (E.g. 30 to 60% of the nominal current can be maintained. -In the drawing, an embodiment is illustrated.

Fig. I shows, for the sake of clarity, only single-phase the Circuit of the two differential relays, Fig. Z, the auxiliary circuits connected via these.

On both sides of the transformer U, the current transformers St., St. are arranged in a known manner. The windings of the two differential relays De, Du are from the. Differential current simply flowed through in series. The more sensitive relay De closes the circuit of a timing relay when responding by means of the Kant.aktes de. K, which switches on the tripping coil A via contact k after 0.5 seconds, for example. Parallel to this contact h is the contact du of the less sensitive relay Du, which -therefore, is closed immediately when it is triggered. While the relay De only gives a delayed trip, it leads. So the relay Du. the triggering with an initial delay, but only responds with a higher differential current.

For the sake of simplicity, the De, Du relays are assumed to be simple current relays. In a known manner, additional stabilization measures are then required in order to reliably avoid a response in the event of an external fault. Instead, however, the relays can also be used, as is also known. is to be designed as a quotient relay or the like.

The delayed differential relay is always like this set so that it does not yet respond to inrush currents. It can. to can be set to approximately the nominal current strength.

Claims (3)

PATENT CLAIMS: i. Differential protection device with a delayed acting differential relay higher and one delayed acting differential relay lower sensitivity for three-phase systems, characterized in that the delayed acting relay - as well as the delayed acting directly from the Differential current is excited. 2. Differential protection device according to claim i, characterized characterized in that the two relays flowed through the differential current in series will. 3. Differential protection device according to claim i and 2, characterized in that that the delayed acting relay is set to approximately the nominal current strength. q :. Differential protection device according to Claims 1 to 3, characterized in that the relays are designed as quotient relays.