SU1196989A1 - Zero-phase-sequence power direction relay - Google Patents

Abstract

ZERO POWER RELAY DIRECTION RELAYS containing current and voltage converters connected to the protected network, the output of which includes control elements for current and voltage settings whose outputs are connected to the first phase comparison unit whose output is connected to one of the inputs of the logical element OR , and the braking unit, from l and h. e to the fact that, in order to expand the scope of application by ensuring the possibility of using the relay in the circuit of the zero-step protection. Additionally, a second phase comparison unit and a second current setting control element are introduced, the braking unit input is connected to the output, the current converter, and the braking unit output is connected to the first input of the second phase comparator through the second control element of the second phase comparison unit, the second input of the second comparison unit the phases are connected to the output of the voltage converter, and the output of the second phase comparison unit is connected to another input of the logical element SH.

Description

The invention relates to the field of electrical engineering, in particular to relay protection of electric power systems, and is intended for directional protection of power lines.

The aim of the invention is to expand the field of application by enabling the use of relays in the zero-sequence protection circuit.

Figure 1 is a diagram of an openable power direction relay; in fig. 2 - volt-ampere characteristic at an angle between the current and voltage equal to the angle of maximum fame of the relay.

The device contains a current converter 1 and a voltage converter 2 connected by inputs to the protected network, a braking unit 3 connected to the output of the current converter, a relay setpoint control element 4, over current at high voltages, a relay setpoint control element 5 low currents, connected to the output of the voltage converter, the second control element of the relay setpoint at low voltages, connected to the braking unit.

The output of the current converter 1 is connected via the setpoint adjustment element 4 to the first input of the first phase comparison unit 7 and through the terminal block 3 and the current setting adjustment element 6 to the first input of the second phase comparison unit 8, the output of the voltage converter 2 is connected through the element 5 of setting the voltage setting with the second input of the first phase matching unit 7 and directly with the second input of the second phase matching unit 8, the output of which is connected to the first input of the logic element OR 9, the second input of which is connected with the output of the first block 7. phase comparison, and its output is the output of the power direction relay.

The device works as follows.

With close short circuits x on the line in the zone of operation of the relay at the output of the current converters 1 and voltage 2 of the zero sequence, which include current transformers (or

9

transreactor and voltages, as well as, if necessary, frequency filters and compensation circuits for capacitive currents of the line, high voltages appear that are proportional to the current and voltage of the zero sequence, the output signals of both blocks 7 and 8 appear and through the logical element OR 8

the relay gives a signal allowing the protection action to disconnect the line. Since the power direction relay in the backup protections plays the role of a triggering device, the parallel action (through the EFI element 8) of both phase comparison units increases the reliability of the switching off action.

With a short circuit removed, the current and the zero-sequence voltage at the protection installation site are small and correspond to the area to the right and Bbmie point 8 (Fig. 1), at the output

The phase comparison block 7 receives a signal which, through the logical element OR 9, enables the action of the shutdown protection.

With a short circuit removed in the zone, if the zero sequence current is greater than the current, even with a very low zero sequence voltage, which can be when the relay is installed on a long line

35 near the tires of a powerful substation, the second phase comparison unit 8, having a very small unregulated voltage threshold with characteristic 4 (Fig. 1), gives

40 enabling signal acting through the logical element OR 9 to turn off the circuit breaker.

In the event of a short circuit outside the relay zone (behind the back), a reverse current is applied to the last 5 compared to a short circuit in the polarity zone, which is equivalent to the negative ordinate area in Fig. 1, and blocks 7 and 8 of the comparison

50 do not work, the relay does not work, because when the relay is installed at the beginning of a long line, the voltage of the reverse polarity of the buses of a powerful substation is short-circuited

55 (behind the back) is large and in absolute value increases the small setpoint (I-fq) g) according to the voltage of the second phase comparison unit 8.

The technical advantage of the invention is the simplification of the circuit, which allows one to dispense with the installation of an additional current relay and a power locking relay, and it can be used not only in.

11969894

the composition of the high-frequency protection of the line, where such relays exist and need only be connected to the circuit; power direction relays, but also in 5 step protection circuits, where such additional relays may not be present and their installation is not always justified.

Claims (1)

ZERO POWER SEQUENCE POWER DIRECTION RELAY, containing current and voltage converters connected to the protected network, the output of which includes elements for regulating the current and voltage settings, the outputs of which are connected to the first phase comparison unit, the output of which is connected to one of the inputs of the OR logic element, and the braking unit, due to the fact that, in order to expand the scope by means of. the possibility of using a relay in the zero-stage step-by-step protection circuit, In addition, a second phase comparison unit and a second current setting control element have been introduced, the input of the braking unit being connected to the output of the current converter, and the output of the braking unit through the second current setting control element the input of the second phase comparison unit, the second input of the second phase comparison unit is connected to the output of the voltage converter, and the output of the second phase comparison unit is connected to another input logical element OR. SU <„, 1196989 '1196989 ²