SU535653A1 - The way to protect the energy system in the direction of power zero or inverse sequence - Google Patents

Description

resistance and wider possibilities to form a relay zone than pulsed methods, however, the response and return times of relays constructed in both ways are limited by the same values: (. to UN ms, and the return time (Col. ms.

The proposed method allows to increase the speed of the relay, while providing the response time of the power direction relay is less than 10 ms, regardless of the switching phase of the compared values, and the return time is limited by the time 10/3 ms.

A feature of the power direction relay of the zero (inverse) sequence used in the proposed method is that the angle between the compared values cannot vary within wide limits, since the cause of its change compared to the calculated ones is the angular errors of current transformers and voltage transformers. . In this case, for detuning from false triggering at K. h. outside the zone, it is possible to have a wider (compared to 180 °) relay triggering zone.

The method is carried out as follows.

During the half-period of the change of each of the compared values, three successive signals with a duration of 10/3 ms are formed. The coincidence of the corresponding order of the occurrences of the signals formed from the two compared values is determined. It is considered that the relay is triggered if the matching conditions are fulfilled for at least two consecutive signals. If after 10/3 ms after the condition has been triggered, no condition appears, consider that the relay returns.

FIG. 1 shows the waveform for the head of the shift between the compared values of EI and a-f 0 °, b - f * g. - the same for fig. 3 - that e dl. Digital 1 is designated the oscillogram of the first, number 2 - the second, and if 3 - the third impulses of each half-period of the compared values, “Output - an output signal.

When the compared 1 magnitudes (ohm. Of Fig. 1, a), each half-period of which is divided into three intervals of 10/3 ms, e have a phase shift, receive a continuous sequence of condominium intervals, since each split interval of one value coincides in phase with corresponding interval of another value. With a phase angle from 0 to 60 ° (see Fig. 1.6), a continuous sequence of coincidence intervals also occurs, but time intervals appear between the pulses. When the phase angle is from 60 to 120 ° (see Fig. 2), the coincidence intervals may be absent or there may be up to two coincidence intervals, and at a shear angle greater than 120 °, only one coincidence interval or coincidence is absent, which corresponds to non-operation relay. If the first half-period is not taken into account, i.e., in statics, the relay has a triggering zone of 120 °, and if the switching phase is taken into account in the dynamics, the zone can expand

up to 240 °.

Thus, if the angle between the compared values (current and voltage of zero or reverse sequence), taking into account the errors of the measuring transformers, does not exceed ± 60 °, the relay does not lose directionality, and the time required for its operation does not exceed 10 / 3- 20/3 ms depending on the moment of switching on. The time required for the relay to return is not

exceeds 10/3 ms.

The proposed method provides a higher speed of the relay than the known ones, which is especially important when using the power direction relay of zero (reverse) sequence in protection with high-frequency blocking and in the first stages of earth protection working without delay. With a decrease in the time of action of high-speed protection, the time of existence of an accident is shortened and the dynamic stability of power systems increases, which gives a significant economic effect to the consumer.

Claims (2)

1. V.L. Fabrikant, “Fundamentals of the theory of building measuring bodies of relay protection and automation, Higher School, Moscow, 1968, p. 396. 2. Auth. St. No. 127732, M. CL. H 02 H 3/42, I960. AT Vp 1 I g I 3 I g I 3 And I g I s “Rig. 2 bull 8t, ix. (g / g.Z.