SU1310937A1 - Device for current protection of three-phase electric network section - Google Patents

Abstract

This invention relates to electrical engineering, in particular, to relay protection. The purpose of the invention is to enhance the functionality by providing a given sensitivity of protection for both three-phase and two-phase short circuits, as well as single-phase short circuits to ground. With three-phase and two-phase short circuits x (short-circuit), the difference in phase currents is fed to the input of three AC converters 1-3 in proportional alternating voltage, from the outputs of which the signals through the max selector 11 arrive at the input of the threshold unit 14, which is also triggered by the signal OR 18 is fed to the executive unit 19. When single-phase short-circuit signals from the outputs of converters 1-3 and converter 4 zero-sequence current through delay circuits 5-7, adders 8 - 10, max selector 12 and mini selector 13 act pervsh dissolved at 15 and 17 second comparing units. With single-phase short-circuits, the signal from output-block 15 establishes, in block 16, changes and comparisons of setpoints, the highest setpoint, and with two-phase short-circuits to ground, the smallest setpoint. The signal from block 16 through the second block 17 of comparison is fed to the element OR 18 and to the executive block 19. 1 Il. with (L 4№гг tO}% ± i Brf © v j0 gz LJ) with

Description

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The invention relates to electrical engineering, in particular, to relay protection of power systems.

The purpose of the invention is to enhance the functionality by providing, given the sensitivity of protection for both three-phase and two-phase short circuits, as well as single-phase short circuits and two-phase short circuits to earth.

The drawing shows a block diagram of the device.

The device contains three inverters 1-3 of alternating current into a proportional alternating voltage, the input of each of which is supplied with the corresponding difference of phase currents, and converter 4 of the zero-sequence current into a proportional direct-current voltage. The outputs of converters 1-3 are connected to the inputs of the corresponding delay circuits 5–7, the first inputs of the adders 8–10, and the inputs of the first max-selector 11. The output of the corresponding delay circuit 5–7 is connected to the second input of each adder. The outputs of the adders are connected to the inputs of the second max-selector 12 and the mini-selector 13.

The output of the max-selector 11 is connected to the input of the threshold unit 14, and the outputs of the max-selector 12 and the mini-selector 13 are connected to the inputs of the first block 15 of the comparison. The output of the comparison unit 15 is connected to the input of the change setting unit 16 and the settings, and the output of the latter is connected to the second input of the comparison unit 17, to the first input of which the output of converters 4 of the zero-sequence current is connected. The outputs of the threshold unit 14 and the comparison unit 1 7 are connected to the inputs of the element OR 18, the output of which is connected to the execution unit 19 intended for control; a switch. These blocks can be performed as follows.

Converters of 1-3 phase currents into a proportional variable voltage are implemented in the form of intermediate current transformers, to the outputs of which resistors are connected, and converter 4 of the zero-sequence current into a proportional DC voltage is in voltage 72

de intermediate current transformer with ballast load and rectifier unit as part of a full-wave rectifier and a smoothing filter.

Schemes 5-7 delay can be performed using L-shaped LC-links.

Adders 8-10 are made using operational amplifiers. Maxi-. Selectors 11 and 12 and mini selector 13 in the simplest case contain diode assemblies, rectifiers, and anti-aliasing filters. The threshold unit 14 may be performed using transistors or operational amplifiers. To use such a block as the comparison blocks 15 and 17, a comparable value is supplied to the second input. Block. 16 changes and settings of settings contains two series-connected potentiometers, in parallel to one of which a control key is connected. The input of the unit is the control input of the key, and the output is the terminal connected to the slider of a potentiometer connected in series with the key.

The OR 18 element is implemented using diode-transistor logic circuits or digital integrated circuits. An intermediate relay or a thyristor key is used as the executive unit 19.

The device works as follows.

In normal operation of the electrical network, the difference in phase currents

do not exceed the largest load currents, so the voltage at the output of the max-selector 11 is proportional to the difference of the phase load currents and less than the setting of the threshold unit 14 removed from the maximum three-phase short-circuit current (cs) at the end of the protected zone, and the signal at the output of the specified block o is present (logical O). The output voltage of the zero-sequence current converter 4 is close to zero, i.e. significantly less than the voltage of any of the settings at the output of the block 16 for changing and adjusting the settings, resulting in a signal at the output of the comparison block 15 Corresponds to an ohmic O. Thus, the signals at both inputs of the element OR 18 and, consequently, the output of the performer313

block 19 are missing and the protection does not work.

With three-phase short circuit. on the protected area of the network, all three phase currents are approximately equal to each other and the state vectors are shifted relative to each other by 120. Therefore, the difference of the phase currents in the-CW times the phase currents. . At two-phase short circuit currents of damaged phases are also approximately equal to each other and their vectors are in opposite phase (180). Since the phase currents of a two-phase short circuit 0.87 times less than the same currents at a three-phase short-circuit. (we assume that the protected part of the network is quite remote from the generators), then the greatest difference in the phase currents of the two-phase short circuit is equal to twice the phase current, also t3 times the phase current of the three-phase short circuit Consequently, with both types of damage under consideration, the voltage at the output of the max-selector 11 is approximately the same, thereby ensuring that the sensitivity of the protection with these damages is equal. The indicated voltage is above the setpoint of the threshold unit 14, the latter is triggered and through the element OR 18 sends a signal to the executive unit 19, which provides a signal to turn off the switch of the network section.

When single phase short circuit zero-sequence current is greater than with two-phase short-circuits. to ground, if the ratio of the resulting resistances is zero and direct sequences is greater than 1. For aerial lines, the indicated ratio is greater than two.

Under this condition, the large setting of block 16 is selected based on the zero-sequence offset from the single-phase short circuit. at the end of the protected area, and the smaller setting - with a two-phase short-circuit .. on the ground at the same point.

The emergency components of the phase current differences are distinguished as follows. Variable voltages from the outputs of the three transducers 1-3 are applied simultaneously to the delay circuits 5-7 and the first inputs of the adders 8-10. From the outputs of the circuits 5-7, the voltage delays are applied respectively to the second (inverting) inputs of the adders 8-10. Thus, the current value of the phase difference 09374 is applied to the first input of each adder.

currents, and the second input is the value of the difference of currents of the same phases, which took place 20 ms earlier, i.e. for a time equal to the period of the network frequency.

5 Then the first 20 ms after the occurrence of a short circuit. at the output of each adder, there will be a difference in voltage, proportional to the currents of the current and pre-emergency modes, i.e. emergency

schA. From the summator 8-10 outputs, three emergency components are fed to the maxiselector 12 and the mini selector 13, where they are rectified, smoothed and compared with each other, so that

t5 a constant voltage proportional to the average value of the largest fault component of the difference of the phase currents is generated at the output of the max. selector 12, and the lowest at the output of the mini selector 13. Current; zero-. the sequence is extracted by a zero-sequence current filter collected using primary current transducers and fed to block 4,

5 where it is converted to direct current voltage. Since in the case of single-phase short-circuits. one of the emergency

components of the difference in phase currents is close to zero (for intact phases),

0 and the other two are equal and correspond to current k.3., The voltage at the output of the mini-selector 13 will be less than the fraction of the voltage (0.3-0.4) set at the output of the max-selector 12. Block 15 sravag neni in this case acts to the block 16, the change in h of the settings, so that the voltage from the output of the block 16, corresponding to, is applied to the second input of the comparator block 17.

0 greater setting. The first input of the comparator unit 17 is supplied with a voltage from the output of the zero-sequence current converter 4. In case of damage to the protected area, it is higher than the setpoint, unit 17 is activated, a signal appears at the input of the element OR 18 and the executive unit 19,. which acts to turn off the switch. With biphasic short circuit, on

The ground Q in the protected zone is the emergency component of the difference in currents of the damaged phases is approximately twice as large as the other two emergency components, and the smaller of them is sufficient for

5 of the operation of the comparison unit 15, the signal from the output of which connects a smaller setpoint in the block 16 and from the output of which it is fed to the second input of the comparison unit 17.

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In the future, the device operates similarly to the case of a single-phase short-circuit. In this way, the same sensitivity is ensured at the short circuit. to the ground

With ground faults, signals proportional to phase current differences are also fed to the max: selector 11 inputs. Since the current difference is greatest for the types of damage under consideration less than the corresponding current difference for three phase, two phase and short circuit currents. When the network area is being brushed, the threshold unit 14 is triggered in a smaller area, partially reserving the operation of units 4–10, 12, 13s 15–17 of this device operating with ground loops. In the event of short circuits outside the protected zone, the difference in phase currents and the zero sequence current is less than the corresponding settings set by threshold unit 14 and unit 16, making changes and settings, as a result of which the device will not work as a whole.

If the zero-sequence current at biphasic co.z. c on earth # 7. At the end of the protected area is greater than the same current, but at single-phase co.z. then, in order to ensure equal sensitivity, the larger setpoint of the change unit and the setting 16 is retracted from the current at the first kind of damage, and smaller at the second. Simultaneously, the reverse operation of the operation of the comparison unit 15 is also established - the signal at its output appears at single phase k, h. When the voltage at the output of the mini selector 13 is less than the fraction of the voltage (0.3-054) set at the output of the max selector 12 , and the specified signal is absent in the opposite case or at small emergency components of all phase current differences.

This device measures the current values of zero nor a sequence and the difference of the phase currents. The zero sequence current is compared with the setting. If it is larger, a protection trigger signal is generated. The setting for this current can take one of the values for two types of short circuit, one for single phase short circuits, and the other for two phase short circuits. on the bottom. For protection from between 109376

phase short circuit setpoint switching is not performed. In this case, the largest difference in phase currents is compared with the setpoint. The use of the difference of phase currents provides approximately the same sensitivity of protection for two, other types - three-phase and two-phase short-circuit.

Claims (1)

Invention Formula A device for current protection of a three-phase electrical network, containing three current converters into an alternating voltage proportional to it, the outputs of which are connected to the inputs of the max-selector, a comparison unit whose output is connected to the input of the change unit and settings 5 the threshold unit whose input is connected to the output of the max-selector and the output is associated with a performance unit i, different in that, in order to extend the functionality by providing a predetermined sensitivity of the protection as in the case of three phase and two-phase short-circuits, as well as single-phase short-circuits and two-phase short circuits to ground, three delay circuits, three adders, a zero-sequence current converter to proportional DC voltage, a mini-selector, a second max-selector, and a comparison unit, logical element J1Sh, the input of each of the current-to-voltage converters is intended to be connected to the difference of the phase currents, and the output is connected to the first input of the corresponding adder a and the input of the corresponding delay circuit, the output of which is connected to the second input of the same adder, the output of each of the sug-1mator is connected to the inputs of the mini selector and the second max selector, the outputs of which are connected to the inputs of the first comparison unit, the output of the zero-sequence current converter the comparison unit, to the second input of which the output of the change unit and settings settings is connected, the output 17 of the threshold unit and the second comparison unit are connected to the inputs of the logic element OR, output which is connected to the input unit,