SU1275622A1 - Centralized device for directional protection against earth leakage in system with isolated or compensated neutral - Google Patents

Abstract

The invention relates to electrical., In particular, to devices for centralized directional protection against a connection to the earth in a network with an isolated or compensated neutral. The aim of the invention is to noBbnnefme the selectivity and stability of the functioning of the device. When shorted to ground, the logical 1 signals appear at the output of the sensor 5 of the damaged connection and at the output of the sensors of the 6 other connections. Since the initial sign of the transient current i in the damaged

Description

connection coincides with the initial sign of the voltage rise rate, the logical 1 signal at this initial moment of the circuit also appears at the output of the sensor 16. At the same time, the output signal from the block is, O

/ auto threshold change

: Triggers reduces the trigger threshold of all instantaneous current sensors. Since the signals of logical 1 appear at the initial moment only at the inputs of the element And 18

in the damaged attachment, then in

element of the operative memory 24 of the damaged connection, the information from the element appears. OR 23. The transfer of information from the elements 24 to the corresponding elements 25 of the non-volatile memory is allowed only when a clock signal is output from the output of the response delay element I1. The operation of the element 25 of long-term memory causes the operation of the corresponding actuating element 26. 1 Il.

This invention relates to a technique for relay protection of electrical systems and is intended to provide centralized selective protection or signaling (protection with a signal effect) earth faults (short circuits) in networks operating with isolated neutral or with compensation of capacitive currents.

The purpose of the invention is to increase the selectivity and stability of functioning.

On. The drawing shows a structural-functional diagram of the device.

The device contains zero-sequence current filters 1 (for example, zero-sequence current transformers) installed on n protected connections, the outputs of which are connected to the driver 2 current signals, Each of the formers 2 includes a matching transformer 3 and a lower frequency filter 4, sensors of the half-wave sign are positive 5 (sensor of the sign +) and negative 6 (sensor of the sign -) of polarities. Sign sensors are made according to voltage comparator circuits, the first inputs of which are supplied with voltage from the output of filter 4, and the second (control) inputs are supplied by the reference voltage Ug from the output of block 7 automatically changing the trigger threshold, which sets the threshold of the actuators 5 and 6 ,

Block 7 is a controlled reference voltage source and the value of which varies in

set .. number of times when applying to the input of the control logic signal block. The zero-sequence voltage filter 8 is connected

a voltage triggering device 9 comprising a series-connected threshold element 10 and an operation delay element 11, and a driver 12 of the reference voltage signals, comprising a matching transformer 13, a low-pass filter 14, a signal differentiation unit 16 at the output of the driver 12 of the reference voltage signals, formative

a reference value proportional to the rate of increase (change) of instantaneous values of the voltage of the zero sequence at the moment of occurrence of short circuits, and sensors 16 and 17 of the sign and - instantaneous values

of the reference voltage, similar to the sensors of the sign 5 and 6. The response thresholds of the sensors 16 and 17 of the sign do not change, so the voltage U on

their inputs are not served.

The outputs of the sensors 5 and 6 characters in the current circuits are connected to the first inputs of the elements 18 and 19, to the second inputs of which are connected the outputs of the sensors 16 and 17 signs of instantaneous values of the reference voltage. Simultaneously, the outputs of all the sensors of the sign of instantaneous current values are connected to the inputs of a high-speed current starting element 20, which includes an IL 21 element to two inputs and a return delay element 22. The outputs of the elements AND 18 and 19 through the element OR 23 are connected to the recording inputs of the RAM elements 24, the outputs of which are connected to the recording inputs of the elements 25 of the non-volatile memory, and the outputs of the latter to the executable. elements 26. As elements of the operational and long-term memory, the device uses triggers that are controlled by synchronization signals. When actuating elements 26, when protection is applied to a signal, indication elements can be used, and when a shutdown action is required, a relay, the output of a fast current starting element 20 is connected to the input of the automatic change block 7 of the threshold sensors of instantaneous current values and through the OR element 27 , the second input of which is connected to the output of the threshold element 10 of the voltage triggering body, to the inputs of the unit 28 automatically erasing information from the operative memory elements and unit 29 and recording synchronization information items in RAM memory. The block 28 represents a shaper of short-term erasing pulses on the front of the input signal, the output of block 28 is connected to the erasing inputs of the operational memory elements 24 The synchronization block 29 contains a series-connected trigger delay element 30 and a short-pulse shaper 31 on the front of the input signal, output which is connected to the synchronization inputs of the operational memory elements 24. The output of the element 11 of the delay of the starting organ 9 of the voltage is connected to the inputs of the Synchronization for recording information into the elements 25 of the long-term memory. Contact 32 (buttons or relays), connected to the erase inputs of the "non-volatile memory elements," serves to manually or automatically return to the initial state (acknowledgment) of the non-volatile memory and actuators, the device works as follows. In the absence of a short-circuit on the protected connections, the voltage triggering body 9, the fast acting current starting body 20, the elements 24 and 25 of the operative and long-term memory, the actuators 26, the sensors 5 and 6 characters of the instantaneous values of the currents and the sensors 16 and 17 characters of the instantaneous values of the reference the voltages are in the initial state, in which the signals at their outputs are absent (correspond to the logic level O) When a fault occurs in the short circuit network, the transient currents ip in the connections and the increased voltage U cause the signals of logical 1 at the outputs of the sensors 5, 6, 16 and 17 characters. Let us assume for definiteness that a short circuit occurred at the first connection and that the initial sign of the transient current ig in the first connection is positive. Then, at the initial moment of the fault, the signals of logical 1 appear at the output of the sensor 5, the sign of instantaneous values + of the first connection, the sensors of 6 characters of instantaneous current values - the other connections. Since the initial sign of the accession always coincides with the initial sign of the rate of increase of 1 .iU,. This voltage signal opto- dt logical 1 at the initial moment of the short circuit also appears at the output of the sensor 16 of the sign of the instantaneous values of the reference voltage +. The appearance of a logical 1 signal at the output of at least one of the sensors 5 or 6 characters causes the high-speed current triggering body 20 to trigger and the logical 1 signal to appear at its output. When a logical signal 1 is applied to the input of block 7, the voltage on its output decreases, providing a reduction in the response threshold of all instantaneous current sensors. Reducing the triggering threshold in a current circuit excludes the possibility of incorrect tripping of the protection in cases where the slope of the leading edge of the signal at the inputs of sensors 5 and 6 characters connected to any intact connection, at the initial moment of the fault, is greater than at the inputs sensors 5 and 6 are signs of a damaged connection (for example, due to the difference in the characteristics of the TNCN), and the latter may not have time to trigger the supply of the synchronizer. a signal that permits the recording of information and the elements of 24 onerrative memory. The frequency of changing the threshold of the sensors 5 and 6 of the sign of the instantaneous current values, given by the frequency of the voltage UQJ, on the output of block 7, is selected taking into account possible differences and variations in the characteristics of the TNCN and the minimum possible multiplicity of transitions 1 in the damaged and intact connections. Reducing the trigger threshold of the sensors 5 and 6 characters using block 7 when at least one of them triggers provides a clock signal that allows information to be written to the elements of the RAM; Only when the output of the sensor (5 or 6) of the sign of the damaged attachment generated a signal of logical 1. In order for the time of the filing of the specified synchronization signal, the signal of logical 1 was also formed at the output of the sensors 16 or 17 of the instantaneous values of the frequency characteristics ( the amplitude and phase of the voltage signal generator 12 and the current 2 signals in the linear part of their transmission: characteristics are coordinated so that at any frequency and constant attenuation of the transition current 1 and voltage UQ about To ensure large values of signals (voltages) at the outputs of sensors 16 and 17 characters than at the outputs of sensors 5 and 6 characters. Since both signals of logical 1 appear at the initial moment of the short circuit only at the inputs of the And 18 element of the damaged connection, then at the outputs of the elements OR 23 the signal is also observed only at the damaged connection. Writing information into a 24-memory memory element is preceded by erasing any information (recorded, for example, from interference from all elements 24 by a short-time signal generated by the erase unit 28 when a signal from the output and a high-speed current triggering body 20 is fed to its input through the OR element 27). from the output of the OR element 27, the synchronization unit 29 is also launched at the output of which, with a delay exceeding the duration of the erasing 226 pulse at the output of the unit 28, a short-term impulse synchronization appears The return delay element 22 provides / a synchronizing pulse only at the initial moment of the short circuit, when the initial ratios of the signs of the transient currents i. of the reference value are not yet violated. For this, the return time of the element 22 is chosen to be longer than the half period corresponding to the minimum possible frequency. oscillations of transient 1 i, and more than the maximum long delay in the appearance of the signal at the output of the threshold element 10 of the starting voltage element. The signal from the output of the threshold element 10 supplied to the second input of the OR element 27 provides for returning to the initial state; the synchronization unit 29 only when it disappears and is energized (i.e., after the network fault is eliminated), thus eliminating the possibility of incorrect protection actions when switching commutations in the network in conditions of stable closure. When a signal is sent from the output of block 29 to the synchronizing inputs of the RAM elements, recording of information from the signals from the outputs of the OR 23 elements is permitted. Since at the time of filing the synchronizing signal, the logical 1 signal will output the OR 23 element only of the damaged connection, then the information is recorded to the damaged memory element 24. The transfer of information from the RAM elements 24 to the corresponding long-term memory elements 25 is permitted only when a synchronizing signal is supplied from the output of the element 11. The activation of the long-term memory element causes the operation of the corresponding executive element 26. The return of the executive elements and long-term memory elements is high-speed. state is carried out by supplying a short modern erasing pulse through the contact-32 (buttons when acknowledging manually or relay when automatic qui tirovat). The use in the proposed device of comparison of the signs of electrical quantities directly in the transition process in: combination with

Claims (1)

Claim A centralized device for directional earth fault protection in a network with isolated or compensated neutral, containing a zero-sequence voltage filter common to all η connections, connected by its output to the input of the starting element, which includes a threshold element and a delay element , and to the input of the signal driver VNIIPI Order 6574/50 of the reference voltage, an automatic data erase unit, the output of which is connected to the erasing inputs of the RAM elements, 5 and for each of the η connections, a zero-sequence current filter connected through a current driver to the sensors of the sign of instantaneous current values of the zero sequence, the outputs of which are connected to the first inputs of AND elements, the second inputs of which are connected to the outputs of the corresponding sensors of the sign of instantaneous values of the reference voltage and the outputs of said aND gates are connected via an OR gate connected in series, the elements and the operational non-volatile memory ₂₀ to fulfill enforcement agencies, featuring Esja in that, in order to increase the selectivity and stability of operation, it introduced fast current launcher body 25 with 2 inputs, a block for automatically changing the threshold, a synchronization block for recording information in the RAM elements, a signal differentiation unit and a ₃ θ element OR for two inputs, while the 2 inputs of the high-speed current starting element are connected to the outputs of all the above-mentioned instantaneous current sign sensors , the output is to the input of the block for automatically changing the threshold 35 of the operation and through the input element OR, the second input of which is connected to the output of the threshold element of the starting voltage organ to the inputs b lock for automatic erasing of RAM information and an inserted synchronization unit for recording information in the RAM elements, the output of which is connected to the synchronizing inputs of the RAM elements, and the signal differentiation unit is connected by its input to the output of the voltage signal shaper, and the output to the inputs of the instantaneous sign sensors reference voltage, and the output of the automatic threshold change unit is connected to the control inputs of the aforementioned mg sign sensors 55 current values. Circulation 612 Subscription Production-polygraph, before, Uzhhorod, st. Project, 4