CN100367611C - Tault component transformer longitudinal error protecting method with maximum side zero sequence ratio brake - Google Patents

Abstract

The present invention discloses a method of longitudinal error protection for a fault weight transformer with maximum-side zero sequence ratio brake. The fault weight of brake current containing zero sequence current is formed by the method that the fault weight of brake current representing through current in the longitudinal error protection of the transformer carries out weighting summation with a maximum value of the fault weight of the zero sequence current at the grounding side (or branch) of each neutral point of the transformer respectively, and the brake current containing zero sequence current is used for forming a ratio brake element of the fault weight in the phase with the fault weight of differential current in a corresponding phase respectively. When the fault weight of the differential current is larger than that of the brake current containing zero sequence current and is larger than the minimum operation current, an operation signal of the ratio brake element of the fault weight in the phase is output. When the proposal is applied, the mis-operation of the differential protection of the transformer because of the grounding fault outside the Y0 side zone can be completely avoided under the condition that the errors of a three-phase current mutual inductor are inconsistent.

Description

The transformer longitudinal error protecting method of band maximum zero sequence current fault component ratio brake

Technical field

The present invention relates to a kind of relay protection method of power system, particularly a kind of transformer longitudinal error protecting method with maximum zero sequence current fault component ratio brake.

Background technology

Present Power Transformer Longitudinal Differential Protection is made of elements such as differential quick-break, percentage differential, magnetizing inrush current detection, overexcitation detections; according to the DL/T 684-1999 in People's Republic of China's power industry standard " the high-rating generator transformer relay protecting is adjusted and is calculated guide rule "; the transformer differential protection block diagram as shown in Figure 1, Differential Current Protection Principle wiring example is as shown in Figure 2.Usually utilize current transformer to Y ₀The side three-phase current carries out the conversion of Y/ Δ, to eliminate the influence of zero-sequence current.Obviously, after the conversion, each electric current has not comprised the zero-sequence component in the primary current, these electric currents are behind intermediate current instrument transformer TAM1～TAM6 balancing, each phase current addition of the same name obtains the three-phase differential current, Wd is a differential coil, and phase current of the same name carries out the alternate manner combination and obtains the three-phase system streaming current, and Wres1～Wres3 is each side restraining coil.As seen, differential current that obtains thus and stalling current all do not comprise the zero-sequence component in the primary current.

When implementing longitudinal difference protection, also there is Y ₀The side current transformer is the situation of complete star-like wiring, at this moment, often in protective device to Y ₀Side three-phase secondary current carries out the conversion of Y/ Δ, perhaps with Y ₀Side three-phase secondary current deducts zero-sequence current respectively and simultaneously Δ side secondary current is carried out Δ/Y conversion, eliminates the influence of zero-sequence current by above-mentioned conversion.By these conversion and behind each side balancing, the stalling current that obtains by the differential current that obtains with famous prime minister's addition and by other combination does not comprise the zero-sequence component in the primary current equally.As: the vector by calculating phase current of the same name with obtain this differential current mutually; Maximum by asking for phase current of the same name or obtain this phase stalling current by the weighted sum of calculating phase current magnitude of the same name, its stalling current can only be represented the size of through current.

When transformer at Y ₀Side generating region external ground fault and when having only this side that power supply is arranged, Y ₀Very big zero-sequence fault electric current will appear in side, but the fault-free electric current passes through transformer.At this moment, work as Y ₀When side threephase current transformer error was inconsistent, the zero-sequence current that equates at the primary side three-phase was after the threephase current transformer conversion, and secondary current is unequal, above-mentioned traditional Y ₀Side three-phase current transform method can not be eliminated the influence of zero-sequence current fully, will produce unsymmetrical current at differential circuit.Because this moment, the fault-free electric current passed through transformer, the stalling current that obtains by above-mentioned conventional method is very little, can not surpass the preceding stalling current of fault, as long as differential unsymmetrical current surpasses differential threshold, transformer differential protection is with malfunction.Obviously, by Y ₀Side zero-sequence fault electric current causes that unsymmetrical current has been left in the basket in the ratio brake element of traditional longitudinal difference protection, promptly do not have corresponding stalling current that it is braked in the ratio brake element, thereby may cause the transformer differential protection misoperation.

Summary of the invention

The technical problem to be solved in the present invention is the Y that exists in the existing transformer differential protection technology ₀Side three-phase current transform method can not be eliminated the influence of zero-sequence current fully; a kind of transformer longitudinal error protecting method with maximum zero sequence current fault component ratio brake is provided; maximum in the fault component of the fault component of the stalling current by representing through current in the transformer differential protection and the zero-sequence current of each neutral ground side of transformer or branch is weighted the fault component that summation constitutes the stalling current that contains the zero-sequence current fault component; constitute the criterion of the fault component ratio brake of this phase with this fault component and fault component of corresponding differential current mutually that contains the stalling current of zero-sequence current fault component; when the fault component of differential current during, export the actuating signal of the fault component ratio brake element of this phase greater than the fault component of the stalling current that contains the zero-sequence current fault component and greater than minimum working current.Advantage of the present invention is, in the time of can avoiding the threephase current transformer error inconsistent fully, and Y ₀The transformer differential protection malfunction that lateral areas external ground fault causes.

A kind of transformer longitudinal error protecting method with maximum zero sequence current fault component ratio brake, it is characterized in that: the maximum in the fault component of the fault component of the stalling current by representing through current in the transformer differential protection and the zero-sequence current of each neutral ground side of transformer or each neutral ground branch of transformer is weighted the fault component that summation constitutes the stalling current that contains the maximum zero sequence current fault component, constitute the criterion of the fault component ratio brake of this phase with this fault component and fault component of corresponding differential current mutually that contains the stalling current of maximum zero sequence current fault component, when the fault component of differential current during, export the actuating signal of the fault component ratio brake of this phase greater than the fault component of the stalling current that contains the maximum zero sequence current fault component and greater than minimum working current; The operating criterion of described fault component ratio brake is:

ΔI _d＞K _Z*ΔI _z+K ₀*(Δ3I ₁₀、Δ3I ₂₀、……Δ3I _no)max

Δ I in the formula _d, Δ I _zThe fault component that is respectively the differential current of any phase in the transformer differential protection three-phase with represent this fault component of the stalling current of through current mutually, Δ 3I ₁₀, Δ 3I ₂₀... Δ 3I _NoBe the fault component of the zero-sequence current of each neutral ground side of transformer or each neutral ground branch of transformer, (3I ₁₀, 3I ₂₀... 3I _No) max is the maximum in each zero-sequence current fault component, K _ZBe ratio brake coefficient, K ₀Be the zero-sequence braking coefficient, n is transformer neutral point ground connection side number or branches, arrives under the situation of the same side the zero-sequence braking COEFFICIENT K at zero-sequence current and three-phase differential current, the reduction of three-phase system streaming current ₀Setting range is 0＜K ₀＜1/3, ratio brake coefficient K _ZSetting range is 0＜K _Z＜0.8.

With prior art relatively, the invention has the beneficial effects as follows and proposed first in the stalling current of the fault component ratio brake element of traditional transformer longitudinal difference protection, to add the zero-sequence braking electric current.Maximum in the fault component of the fault component of the stalling current by representing through current in the transformer differential protection and the zero-sequence current of each neutral ground side of transformer or branch is weighted the fault component that summation constitutes the stalling current that contains zero-sequence current, constitute the fault component ratio brake criterion of this phase with this fault component and fault component of corresponding differential current mutually that contains the stalling current of zero-sequence current, when the fault component of differential current during, export the actuating signal of the fault component ratio brake element of this phase greater than the fault component of the stalling current that contains zero-sequence current and greater than minimum working current; Use this programme, in the time of can avoiding the threephase current transformer error inconsistent fully, Y ₀The transformer differential protection malfunction that lateral areas external ground fault causes; also can prevent under other non-internal fault situations; the transformer differential protection misoperation that the differential unsymmetrical current that zero-sequence current causes causes, and the correct operation of longitudinal difference protection under the zone of influence internal fault situation not.

Description of drawings

Below in conjunction with accompanying drawing to the specific embodiment of the present invention further detailed description.

Fig. 1 is existing transformer differential protection block diagram.

Fig. 2 is existing transformer differential protection key wiring diagram.

Fig. 3 is for realizing the A circuitry phase block diagram of a kind of transformer longitudinal error protecting element with maximum zero sequence current fault component ratio brake of the present invention.

Fig. 4 is for realizing the B circuitry phase block diagram of a kind of transformer longitudinal error protecting element with maximum zero sequence current fault component ratio brake of the present invention.

Fig. 5 is for realizing the C circuitry phase block diagram of a kind of transformer longitudinal error protecting element with maximum zero sequence current fault component ratio brake of the present invention.

Embodiment

Embodiment 1:

A kind of transformer longitudinal error protecting method, this method with maximum zero sequence current fault component ratio brake can be by Fig. 3～Fig. 5 a kind of circuit block diagram of the transformer longitudinal error protecting element with maximum zero sequence current fault component ratio brake be achieved.This element is by memory A ₁₁, B ₁₁, C ₁₁, A ₁₂, B ₁₂, C ₁₂, 011,012,013, subtracter A ₂₁, B ₂₁, C ₂₁, A ₂₂, B ₂₂, C ₂₂, 021,022,023, filter A ₃₁, B ₃₁, C ₃₁, A ₃₂, B ₃₂, C ₃₂, 031,032,033, maximizing circuit 041, multiplier A ₄₁, B ₄₁, C ₄₁, 042, adder A ₄₂, B ₄₂, C ₄₂With comparator A ₅, B ₅, C ₅Constitute.Memory A wherein ₁₁, B ₁₁, C ₁₁Input and subtracter A ₂₁, B ₂₁, C ₂₁Positive input terminal input transformer Y respectively ₀The three-phase differential current instantaneous value signal i of side _Da, i _Db, i _Dc, memory A ₁₁, B ₁₁, C ₁₁Output meet subtracter A respectively ₂₁, B ₂₁, C ₂₁Negative input end, subtracter A ₂₁, B ₂₁, C ₂₁Output meet filter A respectively ₃₁, B ₃₁, C ₃₁Input; Memory A ₁₂, B ₁₂, C ₁₂Input and subtracter A ₂₂, B ₂₂, C ₂₂The positive input terminal three-phase system streaming current instantaneous value signal i of the representative through current in the input transformer longitudinal difference protection respectively _Za, i _Zb, i _Zc, memory A ₁₂, B ₁₂, C ₁₂Output meet subtracter A respectively ₂₂, B ₂₂, C ₂₂Negative input end, subtracter A ₂₂, B ₂₂, C ₂₂Output meet filter A respectively ₃₂, B ₃₂, C ₃₂Input; The positive input terminal of the input of memory 011,012,013 and subtracter 021,022,023 is input transformer Y respectively ₀The zero-sequence current instantaneous value signal 3i of side ₁₀, 3i ₂₀, 3i ₃₀N=3 is a transformer neutral point ground connection side number (or branches), the negative input end of the output termination subtracter 021,022,023 of memory 011,012,013, the output of subtracter 021,022,023 is connected with the input of filter 031,032,033 respectively, the output of filter 031,032,033 connects the input of maximizing circuit 041 respectively, and the output of maximizing circuit 041 is connected with an input of multiplier 042; Another input input zero-sequence braking COEFFICIENT K of multiplier 042 ₀=0.2, its output meets adder A respectively ₄₂, B ₄₂, C ₄₂An input; Filter A ₃₂, B ₃₂, C ₃₂Output meet multiplier A respectively ₄₁, B ₄₁, C ₄₁An input, multiplier A ₄₁, B ₄₁, C ₄₁Another input import ratio brake coefficient K in the existing biased differential protection respectively _Z, value is 0＜K _Z＜0.8, its output meets adder A respectively ₄₂, B ₄₂, C ₄₂Another input; Adder A ₄₂, B ₄₂, C ₄₂Output respectively with comparator A ₅, B ₅, C ₅Negative input end be connected filter A ₃₁, B ₃₁, C ₃₁Output meet comparator A respectively ₅, B ₅, C ₅Positive input terminal, comparator A ₅, B ₅, C ₅Output export the percentage differential actuating signal of A, B, C phase respectively.When the differential current fault component when containing the stalling current fault component of zero-sequence current, comparator is exported the percentage differential actuating signal of corresponding phase; Use this programme, in the time of can avoiding the threephase current transformer error inconsistent fully, Y ₀The transformer differential protection malfunction that lateral areas external ground fault causes; also can prevent under other non-internal fault situation; the transformer differential protection misoperation that the differential unsymmetrical current that zero-sequence current causes causes, and the correct operation of longitudinal difference protection under the zone of influence internal fault situation not.

Claims (3)

1. transformer longitudinal error protecting method with maximum zero sequence current fault component ratio brake, it is characterized in that: the maximum in the fault component of the stalling current by representing through current in the transformer differential protection and the zero-sequence current fault component of each neutral ground side of transformer or each neutral ground branch of transformer is weighted the fault component that summation constitutes the stalling current that contains the maximum zero sequence current fault component, constitute the criterion of the fault component ratio brake of this phase with this fault component and fault component of corresponding differential current mutually that contains the stalling current of maximum zero sequence current fault component, when the fault component of differential current during, export the actuating signal of the fault component ratio brake of this phase greater than the fault component of the stalling current that contains the maximum zero sequence current fault component and greater than minimum working current; The operating criterion of described fault component ratio brake is:

ΔI _d＞K _Z*ΔI _z+K ₀*(Δ3I ₁₀、Δ3I ₂₀、……Δ3I _no)max

Δ I in the formula _d, Δ I _zThe fault component that is respectively the differential current of any phase in the transformer differential protection three-phase with represent this fault component of the stalling current of through current mutually, Δ 3I ₁₀, Δ 3I ₂₀... Δ 3I _NoBe the zero-sequence current fault component of each neutral ground side of transformer or each neutral ground branch of transformer, (3I ₁₀, 3I ₂₀... 3I _No) max is the maximum in each zero-sequence current fault component, K _ZBe ratio brake coefficient, K ₀Be the zero-sequence braking coefficient, n is transformer neutral point ground connection side number or transformer neutral point ground connection branches.

2. method according to claim 1 is characterized in that: in zero-sequence current and three-phase differential current, the reduction of three-phase system streaming current under the situation of the same side, the zero-sequence braking COEFFICIENT K ₀Setting range is 0＜K ₀＜1/3.

3. method according to claim 1 is characterized in that: ratio brake coefficient K _ZSetting range is 0＜K _Z＜0.8,

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