RU2261509C1 - Device for backup protection of line with branches - Google Patents

Abstract

FIELD: relay protection.

SUBSTANCE: device has three converters of current for phases A, B, C, analog signals commutator, OR element, time, circuit for comparing three electric values, block for operation with three-phase short-circuits, blocking block, executing organ, three switches, and also inserted are three delay lines and six subtracters.

EFFECT: higher sensitivity.

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Description

The invention relates to techniques for relay protection, namely, backup protection lines with branches.

Known devices for backup protection containing a measuring body, a logical part and an executive body are current and distance protection (Fedoseev A.M., Fedoseev M.A. Relay protection of electric power systems, Moscow, 1992, 528 pp.).

However, they have low sensitivity when protecting branches with branches, when the transformer on the branch has low power, and the line has a significant length and short circuit current (short circuit) is less than the rated current I _{HOM of the} line.

Closest to the proposed device is a device for backup protection of lines with branches, containing the first, second and third current converters for phases A, B, C, an analog signal switch, the first input of which is connected to the output of the second current converter, and the output to the output of the first current converter, OR element, TIME, a circuit for comparing three electrical quantities, an output connected to the first input of an OR element, a unit for three-phase short circuit, inputs connected to the outputs of the first and third converter of the current and the output of the comparison circuit of three electrical quantities, and the first output is to the second input of the OR element, the output of which is connected to the input of the TIME element, a blocking unit, two inputs connected to the second output of the operation block with three-phase short circuit, and the third input to the output of the TIME element and three other inputs - to the drives of three circuit breakers, the first output - to the second input of the analog signal switch, and an actuator connected to the second output of the blocking block by the input, and the output - to the circuit breakers of the circuit breakers (Kletsel MY, KI Nikitin Redundant line protection that responds to the difference between the modules of the phase currents and their increment. Electricity, 1993, No. 10, pp. 23-26).

The disadvantage of this device is the low sensitivity during short-circuit behind low-power transformers on branches of lines of significant length, when short-circuit currents are less than (0.12 ÷ 0.35) · I _NOM .

The objective of the invention is to increase the sensitivity of the backup protection of lines with branches by several successive subtractions of current vectors of different phases with storing the difference of the previous mode.

The technical result is achieved in that in a device for backup protection of lines with branches, containing the first, second and third current converters for phases A, B, C, an analog signal switch, the first input of which is connected to the output of the second current converter, and the output to the output of the first current converter, OR element, TIME, a circuit for comparing three electrical quantities, with an output connected to the first input of the OR element, a three-phase short-circuit unit, inputs connected to the outputs of the first and third current converters and the output of the circuit for comparing three electrical quantities, and the first output is to the second input of the OR element, the output of which is connected to the input of the TIME element, a blocking unit, two inputs connected to the second output of the operation block with three-phase short circuit, the third input to the output of the TIME element and three others inputs - to the drives of three circuit breakers, the first output - to the second input of the analog signal switch, and an actuator connected to the second output of the blocking block by the input, and the output - to the circuit breakers of the circuit breakers, additionally there are three delay lines and six subtractors, the first of which is connected to the output of the first current transformer by the first input, the second input to the output of the second current transducer, the second subtractor by the first input to the output of the second current transducer, and the second input to the output of the third current transducer, the third subtractor, the first input to the output of the first current transducer, and the second input to the output of the third current transducer, the fourth subtractor to the first input to the output of the first subtractor, and the second input to the output of the first delay, the fifth subtractor, the first input to the output of the second subtractor, and the second input to the output of the second delay line, the sixth subtractor to the first input to the output of the third subtractor, and the second input to the output of the third delay line, the inputs of the first, second and third the delay lines are connected respectively to the outputs of the first, second, and third subtracters, and the outputs of the fourth, fifth, and sixth subtractors are connected to the inputs of a circuit for comparing three electrical quantities.

The drawing shows a structural diagram of a device for backup protection of lines with transformers on the branches.

The device contains current converters 1, 2, 3 connected respectively to phases A, B, C of the line, an analog signal switch 4, the first input of which is connected to a phase B current converter, and the output to a phase A current converter, subtractors 5, 6, 7 phase current vectors, the inputs of which are connected to 1, 2, 3, delay lines 8, 9, 10, whose inputs are connected to the outputs of elements 5, 6, 7, subtractors 11, 12, 13 current vectors of the previous and subsequent modes, the inputs are connected to the outputs of the elements 8, 9, 10 and the outputs of the elements 5, 6, 7, circuit 14 for comparing three electric values, consisting of subtractors 15, 16, 17, inputs connected to 11, 12, 13, and outputs to block 18 comparison, block 19 for three-phase short circuit, consisting of lines 20 and 21 delays, inputs connected to 1 and 3 and the outputs to the inputs of the circuits 22 and 23 for comparing two electrical quantities, and the output of the circuit 23 to the input of the 24 TIME element, 25 TIME element, the input of which is connected to 18, and the output to the MEMORY element 27, 26 TIME element, the input connected to the output of element 27, and the output to the input of element 27, element 28 AND, the inputs of which are connected to 27 and 23, the inputs of element 29 OR are directed to the output of the element 28 and the output of the block 18, in turn, the output of the element 29 is connected to the input of the element 30 TIME. The device also contains a blocking block 31 for OAPV, which includes elements 32 and 33 TIME, the output of element 32 is connected to the inputs of the elements 35, 36 AND, and the output of element 33 to the input of the element 34 AND, element 37 AND, the output connected to the input the element 32 and the input of the element 38 is NOT, the output of which is connected to the input of the element 33, the inputs of the element 37 are connected to the outputs of the relay position 39, 40, 41 "on", the output of the relay 39 is connected to the second input of the element 4, the actuator 42, the input connected to the outputs of the elements 34, 35, 36, and the output to the switches 43, 44, 45, which in turn Before connected to 39, 40, 41, respectively.

The device operates as follows.

In the symmetric load mode, during the first subtraction of the vectors of currents of phases A, B, C in elements 5, 6 and 7, the following differences are obtained:

- векторы тока нагрузки соответственно в фазах А, В, С.Where

- load current vectors, respectively, in phases A, B, C.

которые были в предыдущем режиме, в данном случае за 0,1 с до измеряемой текущей разности (0,1 с - время задержки элементов 8, 9, 10) и в режиме без двухфазного КЗ:Further, from the current difference in elements 11, 12 and 13, the differences of the current vectors are subtracted, respectively

which were in the previous mode, in this case 0.1 s before the measured current difference (0.1 s is the delay time of elements 8, 9, 10) and in the mode without a two-phase short circuit:

where I _nb is the unbalance current at the maximum operating load current of the line or at its self-start.

Then, vector subtraction of the obtained differences in the subtractors 15, 16, and 17 is performed:

- ток небаланса, равный (0,1-0.2)·I_HOM.Where

- unbalance current equal to (0.1-0.2) · I _HOM .

Therefore, for protective devices intended for operation during a two-phase short circuit, the trip current of the protection is selected according to the following formula:

where K _OT - _offset coefficient equal to 1.2.

In the two-phase short-circuit mode, behind the branch transformers, the currents flowing through the current transformers (CTs) of the line backup protection turn out to be significantly lower than the rated line load current, and it continues to carry the load. As a result, for example, during short-circuit between phases B and C, currents flow through CTs of phases A, B, C:

- ток короткого замыкания.Where

- short circuit current.

At the output of elements 5, 6, 7 we have:

- векторы токов нагрузки доаварийного режима в фазах А, В, С;

- векторы токов нагрузки в фазах А, В, С в доаварийном режиме трансформатора, на котором произошло КЗ. На выходе вычитателя 11 имеем:Where

- vectors of the load currents of the pre-emergency mode in phases A, B, C;

- vectors of load currents in phases A, B, C in the pre-emergency mode of the transformer on which the short circuit occurred. At the output of the subtractor 11 we have:

Similarly, at the outputs of elements 12 and 13:

At the output of element 15 we get:

Similarly, at the outputs of elements 16 and 17:

The values obtained at the output of elements 15, 16, 17, each separately, are compared in block 18 with a current of I _Sz , and if at least one of them is larger than I _Sz , a signal appears at the output of block 14. The element 30 TIME starts to work and after a delay of time t ₁ supplies a logical "unit" to the element 36 AND, at the other input of which the signal is already present. Executive body 42 trips switches 43, 44, and 45.

If the short circuit is three-phase, then the voltage difference occurs at the inputs of circuit 22, since the signal increased at the first input, and at the second element 20 delays the signal increase for a time t ₂ = t _sz + 2Δt (t _sz is the self-starting time of electric motors; Δt is the reserve time ) Accordingly, during self-starting, there is no signal in element 22, but in case of a short circuit, it is present and starts TIME element 24, which after a time Δt supplies a signal to element 35, the other input of which was given when the line was turned on.

If a two-phase short circuit on the low voltage side of the branch transformer switches to three-phase, then after t _on > (0.1-0.2) s, determined by the detuning from the simultaneous switching of the phase switches, the element 25 TIME is activated. In this case, the element 27 MEMORY stores the signal and feeds it to the logical element 28 AND, to the other input of which the signal comes from 23. Element 28 AND sends a signal to the element 29 OR and after the operation time of the element 30 TIME protection is activated. After time t ₃ = t ₂ + Δt, element 26 TIME erases the memory. The detuning of the circuit 23 is made according to the load current of the branch transformer with the highest power.

If you disconnect the relay protection of the circuit breaker of one of the phases and unsuccessful OAPV at the corresponding input, and therefore at the output of element 37 AND, the signals will disappear. There will be no signal at the output of the 36 I element. Thus, the protection action is blocked during two-phase faults. If, for example, the switch 43 is turned off, then element 4 switches the circuit 22 to element 3 so that the operation of circuit 22 is not blocked, the signal from the output of element 37 AND is inverted by element 38 HE, and after a time t ₄ (operating times of elements 32 and 33 TIME identical, t ₄ = t ₅ = t _cs + 3Δt) signal 22 is fed to circuit breakers line phases through the element 34 I. to avoid tripping circuit 22 when the line is turned on, the action of which is blocked by the element 32, if all three are included phase and using element 33 if two.

The coefficient K _H sensitivity, which is characterized by the sensitivity of the defenses, is determined but by the well-known formula (for backup protection K _H = 1,2):

where I _p is the current in the relay during short circuit; I _CP - relay operation current.

находятся в противофазе. I_p и I_C.P. определяются по следующим формулам:The current in the relay will be considered in the extreme case when the vectors

are in antiphase. I _p and I _{CP are} determined by the following formulas:

where I _HTP is the load current of the transformer on which the short circuit occurred; n _TT is the transformation coefficient of the TT.

From (6) and (7), after simple transformations, we obtain the minimum short-circuit current to which the device responds:

имеем:If I _HTP changes within (0.05-0.3) · I _HOM and

we have:

I _KZMIN = (0.07-0.2) · I _NOM .

и I_HTP≤0,12·I_HOM или

и I_HTP≤0,15·I_HOM.Thus, the protection is able to disconnect short-circuit currents equal to I _{KZMIN ≤0.1} · I _HOM at

and I _HTP ≤0.12 · I _HOM or

and I _HTP ≤0.15 · I _HOM .

Therefore, the device responds to short-circuit currents that are significantly lower than the maximum load current of the line, and therefore more sensitive than the known ones.

Technical and economic efficiency lies in the fact that the proposed device eliminates the possibility of destruction of the transformer in case of failure of its protection or switching elements during the short circuit on the low voltage side.

Claims (1)

A device for backup protection of lines with branches, containing the first, second and third current converters for phases A, B, C, an analog signal switch, the first input of which is connected to the output of the second current converter, and the output to the output of the first current converter, OR element, TIME, a circuit for comparing three electrical quantities, an output connected to the first input of an OR element, a unit for three-phase short circuit, inputs connected to the outputs of the first and third current converters and the output of a circuit for comparing three electrical Ichin, and the first output - to the second input of the OR element, the output of which is connected to the input of the TIME element, a blocking unit, two inputs connected to the second output of the operation block with three-phase short-circuit, the third input - to the output of the TIME element and three other inputs - to the drives of three circuit breakers, the first output to the second input of the analog signal switch, an actuator connected to the second output of the blocking block by the input, and the output to the circuit breakers of the circuit breakers, characterized in that three delay lines are additionally introduced and six subtractors, the first of which is connected to the output of the first current transformer by the first input, the second input to the output of the second current transducer, the second subtractor by the first input to the output of the second current transducer, and the second input to the output of the third current transducer, the third subtractor by the first input - to the output of the first current transducer, and the second input to the output of the third current transducer, the fourth subtractor with the first input to the output of the first subtractor, and the second input to the output of the first delay line, the fifth subtract The first input is to the output of the second subtractor, and the second input is to the output of the second delay line, the sixth subtractor is the first input to the output of the third subtractor, and the second input is to the output of the third delay line, and the inputs of the first, second, and third delay lines are connected respectively to the outputs of the first, second, and third subtracters, and the outputs of the fourth, fifth, and sixth subtractors to the inputs of a circuit for comparing three electrical quantities.