JP3024912B2 - Differential protection relay - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a differential protection relay for a power system, and more particularly, to a function of constantly monitoring an analog input circuit for inputting an analog input value from a protected system, and specifying and displaying a defective portion. The present invention relates to a digital type differential protection relay device having the same.

[0002]

2. Description of the Related Art FIG. 7 is a block diagram of a conventional transformer differential protection relay device. TR is a protected transformer, CTH is a high-voltage side current transformer of a protected transformer, and CTL is a protected transformer. The low voltage side current transformer, IH is the secondary current of the high voltage side current transformer of the protected transformer, IL
Is the secondary current of the low voltage side current transformer of the protected transformer, TH1, TH
2, TL1, TL2 are current input converters, FH1, FH
2, FL1 and FL2 are filters for removing harmonic components,
Reference numeral 10 denotes an A / D conversion circuit (not shown) including a sample / hold, a multiplexer, and an A / D converter.

[0003] 87TM is a main ratio differential element for detecting the internal fault of the transformer by calculating the outputs IH1 and IL1 of the current matching circuits SH1 and SL1, and 87TF is a current matching circuit SH2 and S2.
Fail-safe ratio differential elements SH1, SH2, S for calculating transformer internal faults by calculating outputs IH2, IL2 of L2
L1 and SL2 are current matching circuits. Even if the CT ratios of the high voltage side and low voltage side current transformers are different, IH1, IH2, and IH2 of the input current to the main ratio differential element 87TM and the fail-safe ratio differential element 87TF. When IL1 and IL2 are healthy, IH1
= IL1, IH2 = IL2.

M is a main output relay, F is a fail-safe output relay, Ma1 and Fa1 are trip contacts of the output relays M and F, Ma2 and Fa2 are constant monitoring alarm contacts of the output relays M and F, and FIG. As shown in FIG.
Before and after the output relays M and F are hardware (hereinafter simply H / W), and the others are software (hereinafter simply S / W).
W).

[0005] The operation of the conventional differential protection relay for a transformer configured as described above will be described. (1) In a normal state and in the case of an external failure (F2 failure), since the current transformer secondary current IH = IL, the current matching circuit SH
1. The main ratio differential element 87TM calculates the output currents IH1 and IL1 of the SL1, but no output is output from the main ratio differential element 87TM when IH1 = IL1. Similarly, the current matching circuit SH
2. The fail-safe ratio differential element 87TF calculates the output currents IH2 and IL2 of SL2, but no output is output from the fail-safe ratio differential element 87TF when IH2 = IL2.

(2) Operation at the time of failure inside the protected transformer (F
In the case of an internal fault, since the secondary current of the current transformer is IH ≠ IL at the time of an internal fault, the output currents IH1 and IL1 of the current matching circuits SH1 and SL1 are calculated as IH1 ≠ IL1 calculated by the main ratio differential element 87TM. Output from the ratio differential element 87TM. Similarly, the fail-safe ratio differential element 87TF calculates the output currents IH2, IL2 of the current matching circuits SH2, SL2, but is also output from the fail-safe ratio differential element 87TF when IH2 ≠ IL2.
Main output relay M and fail-safe output relay F
Operates, and a trip output is sent to an external circuit breaker (not shown). At this time, an alarm output is also issued, but the alarm output time for an internal failure is only the moment until the failure is eliminated by the circuit breaker, so if an external timer is connected, it can be distinguished from an alarm due to a defective component.

(3) When the filter H1 is defective The current transformer secondary current IH is equal to IL, but when the filter FH1 is defective, the outputs of the current matching circuits SH1 and SL1 are IH1 ≠ IL1, and the main ratio differential element 87TM is unnecessary. Are output from the fail-safe ratio differential element 87TF, so that the main output relay M operates, but the fail-safe output relay F does not operate, and no trip output is output.
Then, the alarm output is continuously transmitted to the outside by the operation of the main output relay M.

[0008]

The conventional apparatus has the following problems. (1) Failures such as electronic components cannot be detected unless they have progressed to a level at which the ratio differential element operates. That is, the detection sensitivity of the constant monitoring is insufficient. (2) Even if the alarm output indicates that the relay device is defective, it is unclear whether the defective part is on the high voltage side or the low voltage side, and it is unclear which of the two input circuits in the two series is defective. However, there is a drawback that it requires a lot of additional research time and manpower to identify the problem.

The present invention has been made in order to solve such a problem, and detects a defect of an electronic component or the like with high sensitivity.
An object of the present invention is to provide a differential protection relay having a constant monitoring function capable of specifying and displaying a defective portion.

[0010]

Means for Solving the Problems] The inventions of the differential protective relay apparatus, the first introduction point for introducing a quantity of electricity from the electric line of the protected, two were 2 system Stringified first A second input circuit for connecting the input circuit of
Are connected to the two input circuits of the two series, and the output of one of the series of the first input circuit is connected to the second series of the second input circuits .
A main ratio differential element which receives the output of one of the series of the input circuit, the output of the other series of the first input circuit
In a differential protective relay device and a failsafe ratio differential element which receives the output of the other series of the second input circuit, input the outputs of the two series of the first input circuit
Output a signal in accordance with the comparison result of this input
Output of the two series of differential comparison circuits and the second input circuit
An input and outputs a signal according to the result of comparison of this input.
2 differential comparators introduce inputs to main ratio differential elements
The third difference for outputting a signal according to the comparison result of the input.
Dynamic comparison circuit, input to the fail-safe ratio differential element
And outputs a signal according to the comparison result of this input.
Differential output of the first and second differential comparators,
Any one of them and the output of the third or fourth differential comparison circuit
Any one of the following combinations
Alarm circuit that sends an alarm output according to the logical product of the two outputs
It is provided with.

Further, the differential comparison circuit has a maximum value (MAX) of two suppression inputs or a sum of two inputs (SUM).
Assuming that the differential input is the difference between two inputs (SUB), the detection discriminant is (SUB) −K3 × (MAX)> K2 or (SUB) −K4 × (SUM)> K2 (K2 = detection sensitivity , K3, K4 = detection ratio).

[0012] Each of a plurality of (n) introduction points for introducing an electric quantity from an electric circuit to be protected is divided into two series.
A main ratio differential element that connects two input circuits and receives an output of one of the (n) input circuits as an input
And a fail-safe ratio differential element having an input of an output of the other series of (n) input circuits as input, wherein each of the (n) input circuits has two systems.
Take the output of the column as an input and signal according to the comparison result of this input.
(N) differential comparison circuits that output
Element and Failsafe Ratio Same as input to differential element
Introduces an input and outputs a signal according to the result of comparing this input
Output of two differential comparison circuits, and (n) differential comparison circuits
One of the forces and one of the outputs of the two differential comparison circuits
When they are selected and combined, and these two output signals together,
It has an alarm circuit for sending out an alarm output.

Further, the alarm circuit includes the n of the differential comparison circuit.
One of the two outputs and one of the two outputs of the differential comparison circuit are selected and combined, and the logical product of the two outputs of the different combinations is obtained, and according to the result of the logical product. Each is an alarm circuit for sending an alarm output.

The differential comparison circuit is a circuit having a detection sensitivity higher than the detection sensitivity of the main ratio differential element and the fail-safe ratio differential element.

A configuration in which a main ratio differential element is used instead of the differential comparison circuit for introducing the same input as the input to the main ratio differential element, and the output thereof is used as an input to an alarm circuit;
And at least one of the configurations in which a fail-safe ratio differential element is used instead of the differential comparison circuit that introduces the same input as the input to the fail-safe ratio differential element, and its output is used as an input to the alarm circuit. It is configured.

[0016]

The differential protection relay according to claim 1 of the present invention has
The two differential comparison circuits receive two outputs of different combinations among the four outputs of the first and second input circuits which are divided into two series, and output the outputs in accordance with the comparison of the two inputs. An alarm output is sent out according to the output of the dynamic comparison circuit.

In the differential comparison circuit, the maximum value (MAX) of the two suppressed inputs or the sum of the two inputs (SUM)
Assuming that the differential input is a difference between two inputs (SUB), the detection discriminant is (SUB) −K3 × (MAX)> K2 or (SUB) −K4 × (SUM)> K2 (K2 = detection sensitivity , K3, K4 = detection ratio).

Further, the n differential comparison circuits receive two outputs of two input circuits that are divided into two series at each introduction point, output the signals in accordance with the comparison of the inputs, and output the two differential comparison circuits. The circuit introduces the same input as the input to the main ratio differential element and the fail-safe ratio differential element, and outputs each of them in accordance with the comparison of the inputs. It is sent out as an alarm output according to the outputs of the differential comparison circuits.

Further, the alarm circuit includes the n of the differential comparison circuit.
One of the two outputs and one of the two outputs of the differential comparison circuit are selected and combined, and the logical product of the two outputs of the different combinations is obtained, and according to the result of the logical product. Each outputs an alarm output.

Further, the differential comparison circuit has a detection sensitivity higher than the detection sensitivity of the main ratio differential element and the fail-safe ratio differential element.

A configuration wherein a main ratio differential element is used in place of the differential comparison circuit for introducing the same input as the input to the main ratio differential element, and the output thereof is used as an input to an alarm circuit;
And at least one of the configurations in which a fail-safe ratio differential element is used instead of the differential comparison circuit that introduces the same input as the input to the fail-safe ratio differential element, and its output is used as an input to the alarm circuit. Configuration.

[0022]

【Example】

Embodiment 1 FIG. Hereinafter, a first embodiment of the present invention will be described with reference to FIG. FIG. 1 shows a configuration diagram of a differential protection relay device. CM and CF are differential comparison circuits into which outputs of input circuits divided into two lines, for example, IH1 and IL1, are introduced. IH1−IL1> K1 and FIG. 2 shows a characteristic example. The detection sensitivity of the differential comparison circuit is a ratio differential element 87M,
Higher sensitivity than 87F, for example 0.2IN (IN is rated current)
It is. The detection characteristics and detection sensitivity of CH and CL are CM and C.
Same as F. 1-4 are AND circuits, H1, H2, L
1, L2 is a constant monitoring display relay, and other parts are the same as those in FIG.

The operation of the differential protection relay device according to the first embodiment configured as described above will be described. The operation at the time of normal operation and at the time of an external failure (F2 failure) are the same as those of the conventional device shown in FIG. (1) Operation when the protected transformer has an internal fault (F1 fault) Since the secondary current of the current transformer is IH1 ≠ IL1, the output currents IH1 and IL1 of the current matching circuits SH1 and SL1 are divided by the main ratio differential element 87M. Although the operation is performed, IH1 ≠ IL1 and an output is output from the main ratio differential element 87M.

Similarly, the output currents IH2 and IL2 of the current matching circuits SH2 and SL2 are calculated by the fail-safe ratio differential element 87F. If IH2 ≠ IL2, the output is also output from the fail-safe ratio differential element 87F and the main output The relay M and the fail-safe output relay F operate together to output a trip output to an external circuit breaker (not shown). At this time, the input of the differential comparison circuit CM is IH1 ≠ IL1 and there is an output of M. The input of the differential comparison circuit CF is IH2 ≠ IL2 and there is an output of F. The input of the differential comparison circuit CH is IH1 = IH2 and there is no output. The input of the differential comparison circuit CL is IL1 = IL2, there is no output, none of the AND circuits 1 to 4 is output, and no monitoring alarm is always output.

(2) When the filter FH1 is defective The current transformer secondary current IH is equal to IL.
The outputs IH1 and IL1 of the current matching circuits SH1 and SL1 are IH1 ≠
IL1 is output by the main ratio differential element 87M. Further, since IH2 = IL2 in the outputs IH2 and IL2 of the current matching circuits SH2 and SL2, the fail-safe ratio differential element 87F is not output, so that the trip output is not output unnecessarily.

At this time, the input of the differential comparison circuit CM is IH1 ≠ I
At L1, there is an output of M. The input of the differential comparison circuit CF is IH2 = IL2, and there is no output. The input of the differential comparison circuit CH is IH1HIH2, and there is an output of H. The input of the differential comparison circuit CL is IL1 = IL2. Since there is no output and the AND circuit 1 outputs, the constant monitoring display relay H1 operates to continuously output an alarm output to the outside.

As described above, since a defective portion such as an electronic component of the analog input circuit is specified and displayed, the repair can be quickly performed. In addition, by setting the detection sensitivity higher than the operation sensitivity of the ratio differential element, it is possible to specify and display a defective portion with good sensitivity. Also, compared to the conventional circuit, H
/ W can be dealt with by S / W almost as it is. CH, CL, CM, CF refer to the present invention, respectively.
First, second, third, and fourth differential comparison circuits.

Embodiment 2 FIG. FIG. 3 shows a differential comparison circuit according to the second embodiment, where DF is current matching circuits SH1 and SH2.
A differential derivation circuit for deriving a differential value of the outputs IH1 and IH2 of M
AX is a maximum value derivation circuit for detecting the maximum values of IH1 and IH2;
CR is a ratio differential comparison circuit whose detection characteristic equation is (IH1-I
H2) -K3 (MAX. IH1 and IH2)> K2.

FIG. 4 shows a detection characteristic diagram of the ratio differential comparison circuit CR. The detection sensitivity of the ratio differential comparison circuit CR is set to be higher than that of the ratio differential elements 87M and 87F. For example, the detection sensitivity K2 is set to 0.1IN and the detection ratio K3 is set to 0.1.

In the second embodiment, the differential comparators CM, CF, CH, and CL in the first embodiment are replaced with the differential derivation circuit DF, the maximum value derivation circuit MAX, and the ratio differential comparison circuit CR in the second embodiment.
Others are the same except for the respective replacement. here,
In the first embodiment, K1 = 0.2 IN is used. In the second embodiment, for example, K2
= 0.1 IN.

FIG. 3 shows a case where the maximum value of two inputs is used for suppression, but a method using the sum of two has the same effect. The detection characteristic formula in this case is (IH1-IH2) -K4 (IH
1 + IH2)> K2. Here, the detection ratio K4 adopts a value slightly smaller than the detection ratio K3 when the maximum value is used.

In this embodiment, the differential comparison circuit has such a characteristic that the ratio of the magnitude of the suppression current to the magnitude of the differential current in proportion to the magnitude of the input current is detected at a predetermined value or more. In addition, unnecessary detection can be prevented even with a large current.

Embodiment 3 FIG. 5 and 6 show the configuration of the bus protection relay device according to the third embodiment. In FIG. 5, BUS is a protected bus, L1, L2, L3, and L4 are lines drawn from the protected bus, CT1, CT2, CT3, and CT4 are current transformers of each line, and T11, T12, T21, and T22. T
31, T32, T41 and T42 are input transformers, F1
1, F12, F21, F22, F31, F32, F4
1, F42 is a filter, S11, S12, S21, S2
2, S41, S42, when the CT ratio of each line is different,
This is a current matching circuit that matches the magnitude of the current to the ratio differential elements 87BM and 87BF.

CM is a differential comparison circuit for introducing one of the two outputs of each line input circuit, and CF is a differential comparison circuit for introducing the other two outputs of each line input circuit. , C1, C2, C3, and C4 are differential comparison circuits for introducing the outputs of the two input circuits divided into two series, 87BM is a bus protection main ratio differential element, and 87BF is a bus protection failsafe ratio differential element. . In FIG. 6, 11-1
Reference numeral 8 denotes an AND circuit which sends out an alarm output.

The operation when the filter F11 is defective will be described below. The current matching circuits S11, S21, S31,
A differential value is generated in a composite value of the outputs I11, I21, I31, and I41 of S41, and the differential comparison circuit CM detects the differential value. In addition, a difference occurs between the outputs I11 and I12 of the current matching circuits S11 and S12, and the difference is detected by the differential comparator C1. Sends alarm output to

As described above, even in the bus protection, the defective portion can be specified and displayed. In addition, by setting the detection sensitivity higher than the operation sensitivity of the ratio differential element, it is possible to specify and display a defective portion with good sensitivity. Further, the H / W can be dealt with by the S / W while keeping the H / W almost unchanged as compared with the conventional circuit.

Embodiment 4 FIG. In the first embodiment, the differential comparison circuit CM of FIG. 1 may be replaced with a main ratio differential element 87M, and the output of 87M may be M output. Similarly, the differential comparison circuit CF includes a fail-safe ratio differential element 8.
7F, and the output of 87F may be used as the F output.
This makes it unnecessary to use the differential comparison circuits CM and CF. However, since these circuits are processed by software, the hardware configuration does not change. In the first embodiment, since the sensitivity of the main ratio differential element 87M and the fail-safe ratio differential element 87F is lower than that of the differential comparison circuits CM and CF, the detection sensitivity of the defective portion is reduced.
The defective part can be specified and displayed. .

Embodiment 5 FIG. In the third embodiment, the differential comparison circuit CM of FIG. 5 may be replaced with a main ratio differential element 87BM, and the output of the 87BM may be used as the CM output. Also,
Similarly, the differential comparison circuit CF may be replaced with a fail-safe ratio differential element 87BF, and the output of the 87BF may be used as the CF output. Also in this case, the differential comparison circuits CM and CF can be omitted. Also, the main ratio differential element 87
Since the sensitivity of the BM and the fail-safe ratio differential element 87BF is lower than that of the differential comparison circuits CM and CF, the detection sensitivity for a defect of an electronic component or the like is reduced, but the defective portion can be specified and displayed.

[0039]

As described above, according to the present invention, the differential circuit is provided, and the output of the first or second differential comparison circuit is determined.
One of the shifts and the output of the third or fourth differential comparison circuit.
Select one of them and combine them,
An alarm circuit that sends an alarm output according to the logical product of two outputs
With this configuration, there is an effect that a defective portion such as an electronic component of the input circuit can be detected and specified.

Also, the differential comparison circuit has a characteristic of detecting the ratio of the magnitude of the suppression current to the magnitude of the differential current in proportion to the magnitude of the input current at a predetermined value or more. This has the effect that unnecessary detection can be prevented even with a large current.

Also in a multi-terminal input differential protection relay such as a bus protection differential relay, there is an effect that a defective portion such as an electronic component of an input circuit can be detected and specified. is there.

Further, since the differential comparison circuit has a detection sensitivity higher than the detection sensitivity of the main ratio differential element and the fail-safe ratio differential element, it is possible to detect a defective portion such as an electronic component of the input circuit with high sensitivity. There is an effect that this can be specified.

Further, since the main ratio differential element and the fail-safe ratio differential element are used instead of the differential comparison circuit, the structure can be simplified.

[Brief description of the drawings]

FIG. 1 is a block diagram of a differential protection relay device according to Embodiment 1 of the present invention.

FIG. 2 is a diagram illustrating detection characteristics of the differential comparison circuit according to the first embodiment of the present invention.

FIG. 3 is a block diagram of a ratio differential comparison circuit according to a second embodiment of the present invention.

FIG. 4 is a diagram illustrating detection characteristics of a ratio differential comparison circuit according to a second embodiment of the present invention.

FIG. 5 is a block diagram of a bus protection relay device according to Embodiment 3 of the present invention.

FIG. 6 is a block diagram of a bus protection relay according to Embodiment 3 of the present invention.

FIG. 7 is a block diagram of a conventional transformer protection relay device.

[Explanation of symbols]

1-4, 11-18 AND circuit, 10 AD conversion circuit, 87M, 87TM main ratio differential element (for transformer protection), 87BM main ratio differential element (for busbar protection), 87F, 87TF fail safe ratio differential Element (for transformer protection), 87BF Fail-safe ratio differential element (for bus protection), BUS Protected bus, CM, C
F, CH, CL, C1, C2, C3, C4 Differential comparison circuit, CTH, CTL, CT1, CT2, CT3, CT4
Current transformer, CR ratio differential comparison circuit, DF differential derivation circuit, F fail-safe output relay, FH1, FH2
FL1, FL2, F11, F12, F21, F22, F
31, F32, F41, F42 Filter, H1, H
2, L1, L2 Continuous monitoring display relay, L1, L2, L
3, L4 line, M main output relay, MAX maximum value derivation circuit, SH1, SH2, SL1, SL2, S1
1, S12, S21, S22, S31, S32, S4
1, S42 Current matching circuit, TH1, TH2, TL1,
TL2, T11, T12, T21, T22, T31, T
32, T41, T42 Current input converter, TR Protected transformer.

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H02H 3/26-3/30 H02H 3/05

Claims (6)

(57) [Claims] [Claim 1] A first introduction point for introducing a quantity of electricity from the electric line of the protected object, the two first input circuit to which two series of connect, introducing electrical quantity from said electric line To the second input point to be connected, the two second input circuits in two series are connected, and the output of one of the series of the first input circuit is
A main ratio differential element having an input of an output of one of the series of the second input circuit and the other series of the first input circuit;
In the differential protective relay device and a failsafe ratio differential element for outputting the and the output of the other series of the second input circuit and the input, the outputs of the two series of the first input circuit Input and this
A first differential comparison that outputs a signal according to the result of the input comparison
Circuit, inputs the outputs of the two series of the second input circuit
A second difference for outputting a signal according to the comparison result of the input.
The dynamic comparison circuit introduces the input to the main ratio differential element, and
A third differential comparison circuit that outputs a signal according to the comparison result;
The input to the fail-safe ratio differential element is
A fourth differential comparison circuit that outputs a signal according to the force comparison result
Road, one of the outputs of said first or second differential comparator circuit 1
One of the outputs of the third or fourth differential comparison circuit
Select one of them and combine them, and output two different combinations
A differential protection relay device comprising an alarm circuit for sending an alarm output in accordance with a logical product of forces . 2. The differential comparison circuit according to claim 1, wherein the differential input is a maximum value (MAX) of the two inputs or a sum (SUM) of the two inputs, and the differential input is a difference (SUB) of the two inputs. )
Then, the detection discriminant is expressed as (SUB) −K3 × (MAX)> K2 or (SUB) −K4 × (SUM)> K2 (K2 = detection sensitivity, K3, K4 = detection ratio). A differential protection relay comprising a circuit having characteristics. 3. Each of a plurality of (n) introduction points for introducing an electric quantity from an electric circuit to be protected is divided into two series.
And the above (n) input circuits
And a main ratio differential element having an output of one of the series as an input, and an output of the other series of the (n) input circuits.
In the differential protective relay device having a fail-safe ratio differential element to inputs the output of each of the two series of the (n) number of input circuits, output a signal according to the comparison result of the input to (n) pieces of the differential comparator circuit, introduces input the same input and to said main ratios differential elements and the fail-safe ratio differential element, and outputs a signal according to the comparison result of the input Two differential comparators, one of the outputs of the (n) differential comparators and the two
And select one of the outputs of the differential comparison circuit
When both output a signal, an alarm output is sent.
A differential protection relay comprising an alarm circuit for outputting a signal. 4. The alarm circuit according to claim 3, wherein the alarm circuit selects and combines one output from n outputs of the differential comparison circuit and one output from two outputs of the differential comparison circuit,
A differential protection relay device comprising an alarm circuit for calculating a logical product of each of the two outputs of the different combinations and transmitting an alarm output in accordance with a result of the logical product. 5. The differential comparison circuit according to claim 1, wherein the differential comparison circuit has a detection sensitivity higher than a detection sensitivity of the main ratio differential element and the fail-safe ratio differential element. Characteristic differential protection relay. 6. The main ratio differential element according to claim 1, wherein a main ratio differential element is used instead of the differential comparison circuit for introducing the same input as an input to the main ratio differential element. And the input to the alarm circuit, and using a fail-safe ratio differential element instead of the differential comparison circuit that introduces the same input as the input to the fail-safe ratio differential element, and outputting the output to the alarm circuit A differential protection relay device, wherein at least one of the input configurations is used.