SU1693678A1 - Device for remote protection - Google Patents

Abstract

The invention relates to electrical engineering, namely, relay protection, and can be used when performing remote protections. The aim of the invention is to eliminate the false actuation of protection in the event of faults in the AC voltage circuits. When a fault occurs in the alternating voltage circuit, the level of one of the input voltage signals becomes close to zero. This signal is extracted by the block 11 for selecting the minimum value and is fed to the input of the minimum voltage organ 13. From the output of which the signal to one input of the first element I 14. But since in this mode the current does not change, then from the output of the maximum current organ 12 / the second input element And 14 receives a breaking signal, therefore element And 14 switches and to another input of the second element 15 receives a signal that blocks the false activation of the protection. 1 il. No

Description

The invention relates to electrical engineering, namely to relay protection, and can be used when performing distance protection.

The aim of the invention is to exclude false protection in the event of faults in AC voltage circuits.

The drawing shows a functional diagram of the protection device ,,

The device contains blocks 1-3 of formation of input quantities, each of which contains element 4 of formation of input current and element 5 of formation of input voltage, the outputs of which are connected to the inputs of three resistance relays 6-3, connected by outputs to the inputs of the element OR 9, blocks 10 and 11 highlighting the maximum and minimum values, respectively, whose inputs are connected to the outputs of the elements of the formation of input current 4 and voltage 5, respectively, the maximum body 12 of the current connected to the input to the output of block 10 allocation m the maximum value, the minimum 25 minimum organ 13 voltage, the first element And 14 connected by inputs to the outputs of the maximum 12 and minimum 13 organs, and the second element And 15 connected by inputs to the outputs of the element OR 9 30 and the first element And 14.

The functioning of protection, depending on the modes of the monitored network, is as follows.

Nominal voltages are generated for the input voltage generating steps 5, and the inputs of the elements 4 for the input current generation are flowed around by the load current. With this relay €? the resistances are in an unworked state and from the output of the ILEN element 9 to one input of the AND element 15 a signal is received that the distance protection is not triggered. At the inputs of the separation blocks of the minimum 11 and maximum 10 values, approximately equal signals are received that characterize the symmetric three-phase system, respectively, of the interphase voltages Uab. Ubc, PSA and phase difference 1dv, Ibc, Sca controlled network. From the output of block 11, the minimum of the signals is fed to the input of the minimum voltage organ 13. Since its setting for the operating voltage is set close to zero, it is in an unused state. From the output of block 10, the maximum of the signals is fed to the input of the maximum current organ 12. Which is triggered if the increment

In normal mode, the current input exceeds a certain set value, so in the considered mode it is also in an unworked state. At the same time, from the output of the And 14 element to another input of the And 15 element, an enable signal is received, and since the protection failure signal is received at the first input of the And 15 element, there is no signal to turn off the switch from its output.

When faults occur in the AC voltage circuits, the level of one of the signals becomes close to zero. This signal is allocated by the block 11, and the minimum voltage organ 13 is triggered.

But since the current does not change in this mode, an enable signal is received from the output of the organ 12 to the second input of the And 14 element, so the And 14 element is switched to another pass of the second 20 of the And 15 element, a signal blocking the operation of distance protection is received. Protection is not triggered until a blocking signal appears at the output of AND element 14 due to the presence of a delay element in the comparison unit, which is necessary according to the principle of operation of phase-comparing resistance relays.

When close short-circuit occurs in the protection zone, the voltage at the input of the resistance relay decreases to zero, as in the fault mode of voltage circuits, however, the resistance relay does not block. In this case, the organ 13 is triggered, however, the 35 and the organ 12 are triggered by the maximum signal at the output of the block 10, therefore, an enable signal appears at the output of the And 14 element, and the protection acts on the trip.

Similarly, the circuit also works 40 when remote multiphase faults occur in a protected area, since the voltage of the damaged phase decreases and the current increases. Therefore, regardless of whether or not the smallest organ 13 is triggered, an enable signal appears at the output of element And 14, since the maximum current organ 12 is triggered.

With a short circuit behind the back, the current through the zygcyte may not increase 50, so the organ 12 does not work, the protection is blocked, which increases the reliability of its operation during short circuit at the installation site. However, if the maximum current organ 12 is triggered, then the directional relay 55 of the resistance does not fire due to the presence of a memory circuit that distinguishes close short-circuits in the protection zone and behind.

Case of faults in alternating voltage and mode circuits

Short circuit in the place of installation of protection may not be considered as very unlikely.

Claims (1)

Claim A distance protection device containing three units for generating input values, each of which contains an input current generating unit and an input voltage generating element, three resistance relays 10, the inputs of each of which are connected to the outputs of the corresponding input generating unit, and the outputs of all resistance relays are connected to the inputs of the OR element, distinguished by the fact that, in order to eliminate the false operation of the protection in case of malfunctions in the AC voltage circuits, blocks of extraction of maximum and minimum values, maximum current organ, minimum voltage organ and the first and second elements / I are given, while the inputs of the maximum allocation unit 5 are connected to the outputs of the input current generation elements, and its output is connected to the input of the maximum current organ connected an output to one input of the first element AND, the inputs of the minimum selection block are connected to the outputs of the input voltage forming elements, and its output is connected to the input of the minimum voltage organ Nia connected to the other input the output of the first AND gate, the output connected to one input of the second AND gate, to the other input of which is connected to the output OR element.