SU551751A1 - Method of pulse differential phase protection of electrical - Google Patents

Claims (2)

The purpose of the invention is to increase the selectivity of the differential-phase protection while distorting the shape of the secondary current. To achieve this goal, the proposed method measures the time intervals between zero times at the beginning of the unipolar half-waves of the secondary connection currents, comparing them to a predetermined duration and turning off the signal to form when these intervals exceed a specified duration. FIG. 1 and 2 show temporary plots of protection signals illustrating the proposed method of impulse-phase-protective protection of an electrical installation; in fig. 3 is a block diagram of a device implementing the proposed method. At the beginning of unipolar, in particular positive, half-waves of currents ij, BcexN, the connections of the protected electrical installation form short impulses 1c. The short-circuit interruptions in the protected zone (see Fig. 1) differ slightly from each other in the electrical installation connections. This difference is due to the difference in the damping rate of aperiodic component currents of connections, characterized by the constant time of the primary short-circuit circuits, as well as a violation of the EMF syphase of the sources connected to the electrical installation. Next, the time intervals between pulses are measured, and since the pulses are L c. followed by compact packets with time intervals between packets close to the period T i give a signal to turn off the electrical installation. In the event of short circuits outside the protected zone, the phase of the current of the damaged electrical installation (N in Fig. 2) is inverted for the other connections, and when the interval time between pulses, they turn out to be significantly less than the period T, as a result of which the signal to turn off the electrical installation is not given. The busbars 1 are connected to the busbars 1 with switches having current transformers 3. In the secondary circuit of each current transformer, a pictransformer 4 is connected with a half-wave rectifier 5 and a shunt diode 6 in the secondary winding. These circuits of all bus connections are connected in series to the input of the unit 7 for measuring the time intervals between pulses. In the differential circuit of the secondary transformer current, a starting element 8 is included, the output of which, together with the output of block 7 through logical link 9, is included in the tripping circuit of the switches 2 of all busbar connections 1. Through peak transformers 4 and diodes 5, the connection currents are converted into pulse signals at the beginning of unipolar half-wave currents. These pulses from each peak transformer through shunt diodes 6 of the other circuits are fed to the input of block 7, where the time intervals between pulses are measured, and depending on the size of these intervals, signals are given or not to turn off switches 2 in accordance with the graphs of FIG. 1 and 2. Excessive operation of the busbar protection device during the first periods of external short circuits in the presence of large aperiodic currents, when the duration of the negative half-wave current is small compared to the positive half-wave, is prevented by the triggering device 8, which is built up to operate with a significant aperiodic differential current component tire protection devices. The proposed method makes it possible to increase the selectivity of electrical installation protection, which results in a reduction in the economic damage of electrical systems and power supply systems from the disturbance of power supply to consumers due to erroneous reactions of devices protecting the electrical installations against short circuits. Formula Fig. 13. A method of impulse differential-phase protection of an electrical installation with start-up from triple from aperiodic current ratio in a differential circuit based on measuring the time intervals between the zero-crossing instantaneous values of the secondary currents of all connections with the subsequent generation of a shut-off signal , characterized in that, in order to increase the selectivity with the distortion of the shape of the secondary current, the time intervals between the moments of zero crossing at the beginning of the same field are measured GOVERNMENTAL halfwaves secondary current connections, compare them with predetermined duration and a trip signal is formed at these intervals exceeds a predetermined duration. Sources of information taken into account in the examination; 1. USSR author's certificate No. 266908, M. C H N 02 H 3/28, 1970. 2. USSR author's certificate number ZO4657, M. Kl.2 N O2 H 3/28, 1971 (prototype). 1 .3