CN104734364B - The method and system of relay protection device of intelligent substation SV, GOOSE input test - Google Patents

The method and system of relay protection device of intelligent substation SV, GOOSE input test Download PDF

Info

Publication number
CN104734364B
CN104734364B CN201510179070.2A CN201510179070A CN104734364B CN 104734364 B CN104734364 B CN 104734364B CN 201510179070 A CN201510179070 A CN 201510179070A CN 104734364 B CN104734364 B CN 104734364B
Authority
CN
China
Prior art keywords
goose
test
protective relaying
tested
input
Prior art date
Application number
CN201510179070.2A
Other languages
Chinese (zh)
Other versions
CN104734364A (en
Inventor
杨涛
黄晓明
陆承宇
王松
丁峰
宣佳卓
方芳
童凯
舒鹏
Original Assignee
国家电网公司
国网浙江省电力公司电力科学研究院
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 国家电网公司, 国网浙江省电力公司电力科学研究院 filed Critical 国家电网公司
Priority to CN201510179070.2A priority Critical patent/CN104734364B/en
Publication of CN104734364A publication Critical patent/CN104734364A/en
Application granted granted Critical
Publication of CN104734364B publication Critical patent/CN104734364B/en

Links

Abstract

The invention discloses a kind of method and system of relay protection device of intelligent substation SV, GOOSE input test; including the ICD file parsing predetermined protective relaying device; SV, GOOSE are inputted empty terminal and MMS message data is associated, form test linked database;Wherein, described MMS message data is the data of the result to each SV, GOOSE input signal for the described predetermined protective relaying device;SCD file in parsing intelligent substation, obtains SV, GOOSE void terminal link information and ordered SV, GOOSE message data in tested predetermined protective relaying device;According to described test linked database, set up the corresponding relation of the SV, GOOSE message data and described MMS message data ordered by described tested predetermined protective relaying device;Respectively the input of SV sampled value, GOOSE input are tested according to described SV, GOOSE void terminal link information and described corresponding relation;The method and system are capable of the automatic test that transformer station SV, GOOSE input, thus improving testing efficiency and the standardization of transformer station.

Description

The method and system of relay protection device of intelligent substation SV, GOOSE input test
Technical field
The present invention relates to electric field, more particularly to a kind of relay protection device of intelligent substation SV, GOOSE input survey The method and system of examination.
Background technology
In intelligent substation, GOOSE communication instead of the connection of On-off signal output, and SV communication instead of current/voltage The cable connection of analog quantity.Therefore, whether whether GOOSE, SV input function correctly will be directly connected to each protective relaying device Can correctly work.
For each protective relaying device of intelligent substation, because each model protective relaying device is all in correlation Mechanism for testing carried out test complete in detail, therefore in the links such as integrated joint debugging, field adjustable, to protective relaying device Definite value, the inspection of logic function recede into the background, and empty terminal line test is relay protection device of intelligent substation test on the contrary In even more important content, can it be related to protective relaying device and correctly work, and is relay protection device of intelligent substation The key content of test.
At present, when testing to relay protection device of intelligent substation, mainly use digital tester manual The parameter of GOOSE, SV message ordered by configuration protective relaying device, sends GOOSE, SV message to protective relaying device, and Whether hand inspection protective relaying device receives GOOSE, SV message afterwards, whether just to check the result of protective relaying device Really.This method requires higher, the artificial test errors of the low and easy appearance of testing efficiency to technical personnel quality.
Therefore, how to realize the automatic test of relay protection device of intelligent substation GOOSE, SV input, be ability Field technique personnel's technical issues that need to address.
Content of the invention
It is an object of the invention to provide a kind of relay protection device of intelligent substation carries out the side of SV, GOOSE input test Method, the method is capable of the automatic test of relay protection device of intelligent substation GOOSE, SV input, improves intelligent substation Testing efficiency and standardization.The present invention also provides a kind of relay protection device of intelligent substation to carry out SV, GOOSE input test System.
For solving above-mentioned technical problem, the present invention provides a kind of relay protection device of intelligent substation SV, GOOSE input to survey The method of examination, parses the ICD file of predetermined protective relaying device, SV, GOOSE is inputted empty terminal and MMS message data is carried out Association, forms test linked database;Wherein, described MMS message data be described predetermined protective relaying device to each SV, The data of the result of GOOSE input signal;Including:
SCD file in parsing intelligent substation, obtains SV, GOOSE void terminal line in tested predetermined protective relaying device Information and ordered SV, GOOSE message data;
According to described test linked database, set up SV, GOOSE report ordered by described tested predetermined protective relaying device Civilian data and the corresponding relation of described MMS message data;
According to described SV, GOOSE void terminal link information and described corresponding relation respectively to the input of SV sampled value, GOOSE Input is tested.
Wherein, said method also includes:Generate test report according to predetermined format.
Wherein, the side according to described SV void terminal link information and described corresponding relation, the input of SV sampled value being tested Method includes:
Obtain the line order of the SV void terminal in described SV void terminal link information, and determined according to described line order SV sampled value input test order;
SV sampling value message is sent to described tested predetermined protective relaying device simulation successively according to testing sequence, and passes through MMS communication obtains the MMS message data corresponding with described SV sampling value message from described tested predetermined protective relaying device;
Sampled value in described MMS message data is compared with sampled value in described SV sampling value message;
When comparative result meets predictive error condition, then carry out next SV sampled value input test;Work as comparative result When being unsatisfactory for predictive error condition, then terminate SV sampled value input test.
Wherein, the side according to described GOOSE void terminal link information and described corresponding relation, GOOSE input being tested Method includes:
Obtain the line order of the GOOSE void terminal in described GOOSE void terminal link information, and suitable according to described line Sequence determines GOOSE input test order;
GOOSE displacement message is sent to described tested predetermined protective relaying device simulation successively according to testing sequence, and leads to Cross MMS communication and obtain the MMS message number corresponding with described GOOSE displacement message from described tested predetermined protective relaying device According to;
Described MMS message data is carried out logical judgment with described GOOSE displacement message according to rule;
When logical judgment result is correct, then carry out next GOOSE input test;When logical judgment result mistake, Then terminate GOOSE input test.
Wherein, included before carrying out GOOSE input test:
Send the Initial message of GOOSE control block ordered by described tested predetermined protective relaying device so that described Tested predetermined protective relaying device has initialized opening into state.
Wherein, also include before described termination SV sampled value input test or described termination GOOSE input test:Provide phase Corresponding information.
The present invention provides a kind of system of relay protection device of intelligent substation SV, GOOSE input test to include:
Test associated data library module, for parsing the ICD file of predetermined protective relaying device, SV, GOOSE is inputted empty Terminal is associated with MMS message data, forms test linked database;Wherein, described MMS message data makes a reservation for continue for described The data of the result to each SV, GOOSE input signal for the electrical protective device;
Parsing module, for parsing SCD file in intelligent substation, obtain SV in tested predetermined protective relaying device, GOOSE void terminal link information and ordered SV, GOOSE message data;
Relating module, for according to described test linked database, setting up ordered by described tested predetermined protective relaying device The corresponding relation of SV, GOOSE message data and the described MMS message data read;
Test module, for sampling to SV respectively according to described SV, GOOSE void terminal link information and described corresponding relation Value input, GOOSE input are tested.
Wherein, said system also includes:Generation module, for generating test report according to predetermined format.
Wherein, said system also includes:Reminding module, for providing corresponding information.
A kind of relay protection device of intelligent substation provided by the present invention carry out SV, GOOSE input test method and System, by each type of protective relaying device is set up test linked database respectively, obtains tested predetermined relay protection Device needs the empty terminal information tested and ordered SV, GOOSE message data, and by this tested predetermined relay protection The SV that device is subscribed to, GOOSE message data set up corresponding relation with the MMS message data tested in linked database;According to This tested predetermined protective relaying device needs the SV sampled value tested input, GOOSE input to be tested, can be by result Automatically it is compared with MMS message data, then can be automatically performed SV, GOOSE input test.
Brief description
For the technical scheme of the clearer explanation embodiment of the present invention or prior art, below will be to embodiment or existing Technology description in required use accompanying drawing be briefly described it should be apparent that, drawings in the following description are only this Some bright embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can also root Obtain other accompanying drawings according to these accompanying drawings.
Fig. 1 is the method for relay protection device of intelligent substation SV, GOOSE input test provided in an embodiment of the present invention Flow chart;
Fig. 2 is the system of relay protection device of intelligent substation SV, GOOSE input test provided in an embodiment of the present invention Structured flowchart;
Fig. 3 be another relay protection device of intelligent substation SV, GOOSE input test provided in an embodiment of the present invention be The structured flowchart of system;
Fig. 4 be another relay protection device of intelligent substation SV, GOOSE input test provided in an embodiment of the present invention be The structured flowchart of system.
Specific embodiment
The core of the present invention is to provide a kind of method of relay protection device of intelligent substation SV, GOOSE input test, should Method is capable of the automatic test of relay protection device of intelligent substation GOOSE, SV input, improves the test of intelligent substation Efficiency and standardization.The present invention also provides a kind of system of relay protection device of intelligent substation SV, GOOSE input test.
Purpose, technical scheme and advantage for making the embodiment of the present invention are clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described it is clear that described embodiment is The a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment being obtained under the premise of not making creative work, broadly falls into the scope of protection of the invention.
With State Grid Corporation of China《Route protection and auxiliary device standardized designs specification》、《Transformator, high-voltage parallel electricity Anti- device and bus protection and auxiliary device standardized designs specification》、《IEC61850 engineering relay protection application model》Etc. standard Promulgation, the application model of the apparatus function, Interface design and IEC61850 engineering of current intelligent substation relay protection is more next More specification, this provides corresponding technical foundation for the automatic test of intelligent substation relay protection GOOSE, SV input.The present invention Carry out the automatic test of intelligent substation SV, GOOSE input using these specifications, thus improving the testing efficiency of intelligent substation And standardization.
Refer to Fig. 1, Fig. 1 is that relay protection device of intelligent substation SV, GOOSE input provided in an embodiment of the present invention is surveyed The flow chart of the method for examination;The method can include:
Step s100, the ICD file of the predetermined protective relaying device of parsing, SV, GOOSE are inputted empty terminal and MMS message Data is associated, and forms test linked database;Wherein, described MMS message data is described predetermined protective relaying device pair The data of the result of each SV, GOOSE input signal;
Wherein, it is all that the protective relaying device to some type carries out testing the foundation of linked database here.I.e. should Test linked database is applied to the protective relaying device of same type (ICD file is identical).
Wherein, foundation test linked database here is a preparation, establishes in this test linked database Afterwards, the protective relaying device of same type (ICD file is identical), when being tested, need not set up this test associated data again Storehouse.Can simply be interpreted as that each type protective relaying device namely ICD file identical protective relaying device only need to build Vertical once test linked database, has several types and is accomplished by setting up several test linked databases, but afterwards can be always Use, that is, it is only necessary to call the test linked database of the affiliated type of tested protective relaying device when needing to be tested. Therefore, it can simply after work is considered as, tested protective relaying device be tested with setting up of test linked database Preparation.
Wherein, the process of setting up of step s100 specifically can be understood as:First, select the protective relaying device of a certain type I.e. predetermined protective relaying device, parses the ICD file of this predetermined protective relaying device, and SV, GOOSE are inputted empty terminal and MMS Corresponding data in report services sets up incidence relation.When SV sample input value, GOOSE input signal change, this is pre- Determine protective relaying device and the result that this changes can be delivered to monitoring backstage or other clients with message form, message is in intelligence Can be to be realized with MMS report services form in transformer station, therefore, it is defeated that above-mentioned incidence relation substantially illustrates SV, GOOSE Enter signal and the corresponding relation to this signal processing results for the predetermined protective relaying device.Defeated due to not specifying in ICD file Enter the corresponding relation of the data in empty terminal and report services, so the empty terminal of input and the incidence relation of MMS data reporting Foundation needs to carry out before test, for example can be by manually completing it is also possible to be completed by computer.
After all of SV, GOOSE input empty terminal with the data association in corresponding report services, can be to test pass This incidence relation is stored by gang mould plate shape formula, may finally form a test linked database.Test relation template is applied to The protective relaying device of same type (ICD file is identical), when the tested protective relaying device carrying out same model is tested When, only need to read in this test relation template, incidence relation need not be set up again.
SCD file in step s110, parsing intelligent substation, obtains SV, GOOSE in tested predetermined protective relaying device empty Terminal link information and ordered SV, GOOSE message data;
Wherein, read in intelligent substation SCD file, first, select predetermined relay protection in and above-mentioned steps s100 The tested predetermined protective relaying device of device same type is related by parsing this tested predetermined protective relaying device in SCD file Input part, you can automatically obtain SV, GOOSE void terminal link information, that is, the empty terminal of SV, GOOSE input with ordered The corresponding relation of the data in SV, GOOSE message;Then, SV, GOOSE report according to ordered by this corresponding relation obtains automatically Civilian information, including SV, the target MAC (Media Access Control) address of GOOSE message, the message parameter such as APPID, GOID, SVID, DATASET, control block Parameter and data.
Step s120, according to described test linked database, set up ordered by described tested predetermined protective relaying device SV, GOOSE message data and the corresponding relation of described MMS message data;
Wherein, in step s100, built vertical SV, GOOSE input the incidence relation of empty terminal and MMS message data, and step Automatically obtain the empty terminal line of this tested predetermined protective relaying device in s110 according to intelligent substation SCD file, that is, SV, The corresponding relation of the data in the GOOSE empty terminal of input and ordered SV, GOOSE message, therefore, is inputted empty with SV, GOOSE Terminal is reference, can automatically set up the corresponding relation of SV, GOOSE message data and MMS message data.
Step s130, according to described SV, GOOSE void terminal link information and described corresponding relation defeated to SV sampled value respectively Enter, GOOSE input is tested.
Wherein, when the tested predetermined protective relaying device of transformer station carries out SV, GOOSE input test respectively, need basis After input signal, the result of tested predetermined protective relaying device and the data in the MMS message data with corresponding relation are entered Row compares, thus judging test result.Due to the SV ordered by described tested predetermined protective relaying device, GOOSE message data Obtain with the corresponding relation of described MMS message data, therefore, it can contrast by Computer Automatic Search, thus completing The automatic test of tested predetermined protective relaying device GOOSE, SV input of intelligent substation.
Wherein, for above-mentioned test for GOOSE void terminal association, (protection is distant should to report brcbRelayDin in MMS Letter) the corresponding message data of middle selection.For SV void terminal association, should be in MMS report urcbRelayAin (protection remote measurement) Choose corresponding message data.In addition, tested predetermined protective relaying device there may be centre to the process of GOOSE input signal As a result, tested predetermined protective relaying device had both shown the analysis result to each GOOSE message data, displayed that to packet parsing Result carries out the final result after respective logic judgement, needs to use final result.For example to GOOSE in relay protection The final result that input signal is processed is only real protection intake, is used to protection device logical judgment.Therefore, exist MMS reports the message data selecting final process result in brcbRelayDin (protection remote signalling), does not select intermediate processing results Message data, there is many-to-one corresponding relation with MMS message data in the empty terminal of GOOSE input.
Wherein, the method for the present invention can be also used for measure and control device.
Based on technique scheme, GOOSE, SV input automatic test approach being provided using the present invention, it is possible to achieve The automatization of GOOSE, SV signal input inspection, standardization, greatly improve the work of relay protection device of intelligent substation test Efficiency and test quality, shorten the cycle of intelligent substation integrated test and field adjustable, protect to improving intelligent substation relay The application level of the devices such as shield is significant.
Preferably, the method for above-mentioned relay protection device of intelligent substation SV, GOOSE input test can also include:Press Generate test report according to predetermined format.
Wherein, according to GOOSE, SV void terminal link information, after the completion of all GOOSE, SV input is all tested, terminate The empty terminal line of this tested predetermined protective relaying device checks, and automatically generates test report according to predetermined format.
Technical staff can be facilitated to carry out lookup of problem etc. by generating test report.
Optionally, according to described SV void terminal link information and described corresponding relation, the input of SV sampled value is tested Method can include:
Obtain the line order of the SV void terminal in described SV void terminal link information, and determined according to described line order SV sampled value input test order;
Wherein, computer can be made regularly to carry out SV sampled value input test by the formation of testing sequence, prevent Occur leaking poor, the phenomenon of check.
SV sampling value message is sent to described tested predetermined protective relaying device simulation successively according to testing sequence, and passes through MMS communication obtains the MMS message data corresponding with described SV sampling value message from described tested predetermined protective relaying device;
Wherein, detailed process can be:Simulate to tested predetermined protective relaying device and send SV sampling value message, lead to simultaneously Cross the MMS communication set up with tested predetermined protective relaying device, using report services from predetermined tested predetermined protective relaying device Corresponding MMS message data in middle obtaining step S120.
Sampled value in described MMS message data is compared with sampled value in described SV sampling value message;
When comparative result meets predictive error condition, then carry out next SV sampled value input test;Work as comparative result When being unsatisfactory for predictive error condition, then terminate SV sampled value input test.
Optionally, according to described GOOSE void terminal link information and described corresponding relation, GOOSE input is tested Method includes:
Obtain the line order of the GOOSE void terminal in described GOOSE void terminal link information, and suitable according to described line Sequence determines GOOSE input test order;
Wherein, computer can be made regularly to carry out GOOSE input test by the formation of testing sequence, prevent Leak poor, the phenomenon of check.I.e. according to the order of GOOSE void terminal line in SCD file, carry out GOOSE input test one by one.
GOOSE displacement message is sent to described tested predetermined protective relaying device simulation successively according to testing sequence, and leads to Cross MMS communication and obtain the MMS message number corresponding with described GOOSE displacement message from described tested predetermined protective relaying device According to;
Described MMS message data is carried out logical judgment with described GOOSE displacement message according to rule;
When logical judgment result is correct, then carry out next GOOSE input test;When logical judgment result mistake, Then terminate GOOSE input test.
And, included before carrying out GOOSE input test:
Send the Initial message of GOOSE control block ordered by tested predetermined protective relaying device so that described tested Predetermined protective relaying device has initialized opening into state.
Wherein, specifically before carrying out GOOSE input and automatically testing, should send ordered by tested predetermined protective relaying device All GOOSE control blocks Initial message, that is, give described tested predetermined protective relaying device GOOSE input provide one Initialized open into state.For example, for relay protection, the two-position signal such as circuit breaker position, disconnecting link position, Original state should be jump position " 01 ";For the list position signalling such as start failure protection, lock-reclosing lock, original state is " 0 ".
Optionally, also include before described termination SV sampled value input test or described termination GOOSE input test:Be given Corresponding information.
The method embodiments providing the input test of relay protection device of intelligent substation SV, GOOSE, Ke Yitong Cross the automatic test that said method is capable of the input of relay protection device of intelligent substation GOOSE, SV.
Below SV, GOOSE input test is carried out to relay protection device of intelligent substation provided in an embodiment of the present invention System is introduced, the system of relay protection device of intelligent substation SV, GOOSE input test described below with described above The method of relay protection device of intelligent substation SV, GOOSE input test can be mutually to should refer to.
Refer to Fig. 2, Fig. 2 is that relay protection device of intelligent substation SV, GOOSE input provided in an embodiment of the present invention is surveyed The structured flowchart of the system of examination, this system can include:
Test associated data library module 100, for parsing the ICD file of predetermined protective relaying device, SV, GOOSE is defeated Enter empty terminal to be associated with MMS message data, form test linked database;Wherein, described MMS message data is described pre- Determine the data of the result to each SV, GOOSE input signal for the protective relaying device;
Parsing module 200, for parsing SCD file in intelligent substation, obtain SV in tested predetermined protective relaying device, GOOSE void terminal link information and ordered SV, GOOSE message data;
Relating module 300, for according to described test linked database, setting up described tested predetermined protective relaying device institute The corresponding relation of SV, GOOSE message data and the described MMS message data subscribed to;
Test module 400, for according to described SV, GOOSE void terminal link information and described corresponding relation respectively to SV Sampled value input, GOOSE input are tested.
Refer to Fig. 3, Fig. 3 is that another substation relay protection device SV, GOOSE input provided in an embodiment of the present invention is surveyed The structured flowchart of the system of examination, this system can also include:Generation module 500, for generating test report according to predetermined format.
Refer to Fig. 4, Fig. 4 is that another substation relay protection device SV, GOOSE input provided in an embodiment of the present invention is surveyed The structured flowchart of the system of examination, this system can also include:Reminding module 600, for providing corresponding information.
This system can also all have above-mentioned generation module 500 and reminding module 600 simultaneously.
With the GOOSE signal input inspection of the first set 500kV route protection of certain circuit in certain intelligent substation it is below Example, illustrates that the present invention realizes the concrete methods of realizing that protective relaying device GOOSE input is tested automatically.
1st, parse the ICD file of this route protection, in the data set corresponding to report brcbRelayDin (protection remote signalling) Obtain the data attribute of MMS message in dsRelayDin (protection remote signalling), and the LN containing " GOINGGIO " field is solved Analysis is thus obtain the information of the empty terminal of GOOSE input, and sets up incidence relation as shown in table 1, and by this incidence relation to survey The form of examination relation template preserves.
Table 1:MMS message data and GOOSE void terminal mapping table
2nd, parse SCD file, by the related input part of this protection device in SCD file, automatically obtain SV, GOOSE Empty terminal link information, i.e. the corresponding relation of the data in the empty terminal of SV, GOOSE input and ordered SV, GOOSE message, As shown in table 2.
Table 2:GOOSE void terminal and GOOSE input signal mapping table
Ordered GOOSE message information is automatically obtained by input.This tested protection device subscribes to 4 GOOSE controls altogether Clamp dog, its specifying information is as follows respectively:
[GoCB1] #5013 switchs first set intelligent terminal PCS-222B
Addr=01-0C-CD-01-10-05
Appid=1005
GoCBRef=IB5013ARPIT/LLN0.GO.gocb0
AppID=IB5013ARPIT/LLN0.GO.gocb0
DatSet=IB5013ARPIT/LLN0.dsGOOSE0
ConfRev=1
NumDatSetEntries=46
[GoCB2] #5012 switchs first set intelligent terminal PCS-222B
Addr=01-0C-CD-01-10-03
Appid=1003
GoCBRef=IB5012ARPIT/LLN0.GO.gocb0
AppID=IB5012ARPIT/LLN0.GO.gocb0
DatSet=IB5012ARPIT/LLN0.dsGOOSE0
ConfRev=1
NumDatSetEntries=46
[GoCB3] #5012 switch first set protection PCS-921G-D
Addr=01-0C-CD-01-01-27
Appid=0127
GoCBRef=PB5012APIGO/LLN0.GO.gocb0
AppID=PB5012APIGO/LLN0.gocb0
DatSet=PB5012APIGO/LLN0.dsGOOSE
ConfRev=1
NumDatSetEntries=11
[GoCB4] #5013 switch first set protection PCS-921G-D
Addr=01-0C-CD-01-01-29
Appid=0129
GoCBRef=PB5013APIGO/LLN0.GO.gocb0
AppID=PB5013APIGO/LLN0.gocb0
DatSet=PB5013APIGO/LLN0.dsGOOSE
ConfRev=1
NumDatSetEntries=11
3rd, the corresponding relation according to Tables 1 and 2, inputs empty terminal as reference with GOOSE, can automatically set up tested protection The corresponding relation of SV, GOOSE message data and MMS message data that device is subscribed to, as shown in table 3.
Table 3:MMS message data and GOOSE input signal mapping table
4th, according to the order of GOOSE void terminal line, " 5013 chopper A phase position " GOOSE input quantity should be carried out first Test, simulation sends GOOSE displacement message " 10 " of 5013 chopper A phases " conjunction position ", obtains report by the report services in MMS " 1 circuit breaker position A phase " (PI1/GOINGGIO1.DPCSO1.stVal) numerical value in literary composition, its numerical value should be " false ", then Send GOOSE displacement message " 01 " that simulation sends 5013 chopper A phases " jump position ", " the 1 circuit breaker position A in MMS message Phase " (PI1/GOINGGIO1.DPCSO1.stVal) numerical value should be " true ".If test result is same as described above, under carrying out One " 5013 chopper B-phase are put " GOOSE input signal test, otherwise should provide miscue information and stop testing.
5th, after completing last GOOSE input signal " 5013 breaker protections start remote jump " test, GOOSE tests Complete and automatically generate test report.
Above taking the inspection of GOOSE signal input as a example, to the tool realizing the automatic test of protective relaying device void terminal line Body implementation method is illustrated, and relay protection SV signal input inspection and GOOSE input checking method are identicals, no longer enter Row description.
In description, each embodiment is described by the way of going forward one by one, and what each embodiment stressed is real with other Apply the difference of example, between each embodiment identical similar portion mutually referring to.For device disclosed in embodiment Speech, because it corresponds to the method disclosed in Example, so description is fairly simple, referring to method part illustration in place of correlation ?.
Professional further appreciates that, in conjunction with the unit of each example of the embodiments described herein description And algorithm steps, can with electronic hardware, computer software or the two be implemented in combination in, in order to clearly demonstrate hardware and The interchangeability of software, generally describes composition and the step of each example in the above description according to function.These Function to be executed with hardware or software mode actually, the application-specific depending on technical scheme and design constraint.Specialty Technical staff can use different methods to each specific application realize described function, but this realization should Think beyond the scope of this invention.
The step of the method in conjunction with the embodiments described herein description or algorithm can directly be held with hardware, processor The software module of row, or the combination of the two is implementing.Software module can be placed in random access memory (RAM), internal memory, read-only deposit Reservoir (ROM), electrically programmable ROM, electrically erasable ROM, depositor, hard disk, moveable magnetic disc, CD-ROM or technology In known any other form of storage medium in field.
Method to relay protection device of intelligent substation SV, GOOSE input test provided by the present invention and be above System is described in detail.Specific case used herein is set forth to the principle of the present invention and embodiment, above The explanation of embodiment is only intended to help and understands the method for the present invention and its core concept.It should be pointed out that for the art Those of ordinary skill for, under the premise without departing from the principles of the invention, the present invention can also be carried out some improve and repair Decorations, these improve and modify and also fall in the protection domain of the claims in the present invention.

Claims (8)

1. a kind of method of relay protection device of intelligent substation SV, GOOSE input test is it is characterised in that parsing makes a reservation for continue The ICD file of electrical protective device, SV, GOOSE is inputted empty terminal and MMS message data is associated, form test incidence number According to storehouse;Wherein, described MMS message data is the result to each SV, GOOSE input signal for the described predetermined protective relaying device Data;Methods described includes:
SCD file in parsing intelligent substation, obtains SV, GOOSE void terminal link information in tested predetermined protective relaying device And ordered SV, GOOSE message data;
According to described test linked database, set up SV ordered by described tested predetermined protective relaying device, GOOSE message number According to the corresponding relation with described MMS message data;
According to described SV, GOOSE void terminal link information and described corresponding relation respectively to the input of SV sampled value, GOOSE input Tested;Wherein, according to described SV void terminal link information and described corresponding relation, the input of SV sampled value is tested Method includes:
Obtain the line order of the SV void terminal in described SV void terminal link information, and determine that SV adopts according to described line order Sample value input test order;
SV sampling value message is sent to described tested predetermined protective relaying device simulation successively according to testing sequence, and passes through MMS Communication obtains the MMS message data corresponding with described SV sampling value message from described tested predetermined protective relaying device;
Sampled value in described MMS message data is compared with sampled value in described SV sampling value message;
When comparative result meets predictive error condition, then carry out next SV sampled value input test;When comparative result is discontented with During sufficient predictive error condition, then terminate SV sampled value input test.
2. the method for relay protection device of intelligent substation SV, GOOSE input test as claimed in claim 1, its feature exists In also including:Generate test report according to predetermined format.
3. the method for relay protection device of intelligent substation SV, GOOSE input test as claimed in claim 1, its feature exists In being included to the method tested of GOOSE input according to described GOOSE void terminal link information and described corresponding relation:
Obtain the line order of the GOOSE void terminal in described GOOSE void terminal link information, and according to described line order really Determine GOOSE input test order;
GOOSE displacement message is sent to described tested predetermined protective relaying device simulation successively according to testing sequence, and passes through MMS Communication obtains from described tested predetermined protective relaying device and conjugates the corresponding MMS message data of message with described GOOSE;
Described MMS message data is carried out logical judgment with described GOOSE displacement message according to rule;
When logical judgment result is correct, then carry out next GOOSE input test;When logical judgment result mistake, then eventually Only GOOSE input test.
4. the method for relay protection device of intelligent substation SV, GOOSE input test as claimed in claim 3, its feature exists In inclusion before carrying out GOOSE input test:
Send the Initial message of GOOSE control block ordered by described tested predetermined protective relaying device so that described tested Predetermined protective relaying device has initialized opening into state.
5. the method for relay protection device of intelligent substation SV, GOOSE input test as claimed in claim 3, its feature exists In also including before described termination SV sampled value input test:Provide corresponding information;Or,
Also include before described termination GOOSE input test:Provide corresponding information.
6. a kind of system of relay protection device of intelligent substation SV, GOOSE input test is it is characterised in that include:
Test associated data library module, for parsing the ICD file of predetermined protective relaying device, SV, GOOSE is inputted empty terminal It is associated with MMS message data, form test linked database;Wherein, described MMS message data is that described predetermined relay is protected The data of the result to each SV, GOOSE input signal for the protection unit;
Parsing module, for parsing SCD file in intelligent substation, obtains SV, GOOSE in tested predetermined protective relaying device empty Terminal link information and ordered SV, GOOSE message data;
Relating module, for according to described test linked database, setting up ordered by described tested predetermined protective relaying device SV, GOOSE message data and the corresponding relation of described MMS message data;
Test module, for defeated to SV sampled value respectively according to described SV, GOOSE void terminal link information and described corresponding relation Enter, GOOSE input is tested;Wherein, defeated to SV sampled value according to described SV void terminal link information and described corresponding relation Enter to carry out test to include:Obtain the line order of the SV void terminal in described SV void terminal link information, and according to described line Order determines SV sampled value input test order;Sent out to described tested predetermined protective relaying device simulation successively according to testing sequence Send SV sampling value message, and obtained and described SV sampled value report from described tested predetermined protective relaying device by MMS communication The corresponding MMS message data of literary composition;Sampled value in described MMS message data is carried out with sampled value in described SV sampling value message Relatively;When comparative result meets predictive error condition, then carry out next SV sampled value input test;When comparative result is discontented with During sufficient predictive error condition, then terminate SV sampled value input test.
7. system as claimed in claim 6 is it is characterised in that also include:Generation module, surveys for generating according to predetermined format Examination report.
8. system as claimed in claim 6 is it is characterised in that also include:Reminding module, for providing corresponding prompting letter Breath.
CN201510179070.2A 2015-04-15 2015-04-15 The method and system of relay protection device of intelligent substation SV, GOOSE input test CN104734364B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201510179070.2A CN104734364B (en) 2015-04-15 2015-04-15 The method and system of relay protection device of intelligent substation SV, GOOSE input test

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201510179070.2A CN104734364B (en) 2015-04-15 2015-04-15 The method and system of relay protection device of intelligent substation SV, GOOSE input test

Publications (2)

Publication Number Publication Date
CN104734364A CN104734364A (en) 2015-06-24
CN104734364B true CN104734364B (en) 2017-03-01

Family

ID=53457942

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201510179070.2A CN104734364B (en) 2015-04-15 2015-04-15 The method and system of relay protection device of intelligent substation SV, GOOSE input test

Country Status (1)

Country Link
CN (1) CN104734364B (en)

Families Citing this family (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106327043A (en) * 2015-07-02 2017-01-11 北京东土科技股份有限公司 Data processing method, system and apparatus in substation integration
CN105044530B (en) * 2015-08-13 2018-10-19 国家电网公司 Intelligent substation bus protection test method based on DM5000E
CN106161139A (en) * 2016-06-27 2016-11-23 哈尔滨工业大学 A kind of intelligent substation SV message simulation generates and detection method
CN106209418A (en) * 2016-06-27 2016-12-07 哈尔滨工业大学 A kind of intelligent substation GOOSE message simulation generates and detection method
CN106199249A (en) * 2016-06-28 2016-12-07 积成电子股份有限公司 A kind of automatic closed loop test system towards intelligent substation and method of testing
CN108254634B (en) * 2016-12-29 2020-02-14 长沙诺思谱瑞仪器有限公司 Intelligent substation SV virtual terminal closed loop test method and device
CN107085159A (en) * 2017-06-22 2017-08-22 国网江苏省电力公司电力科学研究院 GOOSE based on CCD files is inputted to an automatic test approach
CN107546853A (en) * 2017-09-07 2018-01-05 许昌许继软件技术有限公司 A kind of substation network data acquisition, management method and device
CN107786000B (en) * 2017-10-18 2020-10-09 南京能云电力科技有限公司 Intelligent generation method for configuration file of digital relay protection tester
CN107976607A (en) * 2017-11-14 2018-05-01 海南电网有限责任公司电力科学研究院 Patterned SV virtual terminators Auto-Test System
CN108107289A (en) * 2017-12-01 2018-06-01 国网江苏省电力有限公司电力科学研究院 A kind of SV input circuits automatic test approach
CN109379251B (en) * 2018-10-10 2020-06-09 南京国电南自软件工程有限公司 Automatic testing method and system for GOOSE and SV communication of relay protection device process layer
CN109738717A (en) * 2018-11-29 2019-05-10 国网安徽省电力有限公司检修分公司 The method and system of smart substation equipment sampling verification based on continuity variance
CN110376468A (en) * 2019-07-24 2019-10-25 云南电网有限责任公司红河供电局 The live check method of virtual terminator is set in assembly under a kind of intelligent substation protection equipment

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102611199B (en) * 2012-03-07 2014-04-02 长园深瑞继保自动化有限公司 Design and configuration integrated system for intelligent substation
CN102685012B (en) * 2012-05-25 2015-05-20 国电南瑞科技股份有限公司 GOOSE secondary virtual wiring dynamic verification method for intelligent device
CN103176084B (en) * 2013-03-07 2014-04-16 江苏省电力公司电力科学研究院 Intelligent substation simulation system in panoramic replace mode and integration testing method for intelligent substation simulation system
CN103439592B (en) * 2013-06-27 2016-12-28 国家电网公司 A kind of intelligent substation site intelligent method of testing
EP2854337A1 (en) * 2013-09-27 2015-04-01 ABB Technology AG Testing of a substation automation system
CN103631921B (en) * 2013-12-03 2017-11-07 国家电网公司 A kind of configuration information of transformer substation detection method and device
CN103779966B (en) * 2014-02-10 2016-01-20 上海毅昊自动化有限公司 Based on intelligent terminal monitoring system and the method for the empty terminal mapping mechanism of input

Also Published As

Publication number Publication date
CN104734364A (en) 2015-06-24

Similar Documents

Publication Publication Date Title
CN103105550B (en) A kind of intelligent relay protection device detection method and system
CN103529377B (en) The Auto-Test System of intelligent transformer substation digital protection device and method
CN103001328B (en) Fault diagnosis and assessment method of intelligent substation
CN101272051B (en) Information system integration method of electric network production control region and management information region
CN103414251B (en) A kind of substation network communication analogue system based on IEC61850
RU2431913C2 (en) Inspection of intelligent electronic device configuration
CN103176084B (en) Intelligent substation simulation system in panoramic replace mode and integration testing method for intelligent substation simulation system
CN102957204B (en) Intelligent simulation method and system of power distribution network terminal
CN105373655B (en) A kind of method of one electrical secondary system connection figure of organic association Intelligent transformer station
CN103744422B (en) A kind of to the protective relaying device automatic test approach based on IEC61850 standard
CN102332709B (en) Equivalent high-voltage direct-current transmission direct-current protection digital simulation method and system
CN102937685B (en) The integrated testing platform of a kind of transformer station based on Real-time Simulation Technology
CN103746882B (en) The method of intelligent substation station level test
CN102967780B (en) Modeling method for substation intelligent alarm
CN104793076A (en) Intelligent automatic test system and method
CN103091609A (en) Performance detecting system and method thereof of gas insulated substation (GIS) partial discharge on-line monitoring device
CN105093033A (en) Power grid multi-source information-based fault integrated analysis system and analysis method
KR101012464B1 (en) Testing method and its apparatus of digital substation Merging Unit
CN103955789B (en) A kind of supply path analysis method based on allotment Integrated Model
CN103869190A (en) Real time simulation system-based power distribution terminal automatic closed-loop test platform
CN102043719B (en) Method for testing IEC61850 configuration description file
CN104699801A (en) Method and device of secondary equipment associating configuration
CN102622463B (en) Drawing-model uniformity based method for automatic check of design drawings
CN102403788B (en) Test system applicable to southern power grid communication guaranteeing system
CN101867225B (en) Debugging method for integrated automation of transformer substation and integration of relaying protection system

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant