CN109388838A - SCD Quadratic Imaginary loop check system and method based on the layering of semantic intensity - Google Patents

Abstract

The present invention relates to a kind of SCD Quadratic Imaginary loop check system and methods based on the layering of semantic intensity, the system includes: the first inspection module based on IEC61850 standard: module parsing SCD file obtains IED static models, and carries out SCD semantic test to IED static models；The second inspection module based on SCD specification: the IED static models that the module meets SCD semantic test rule carry out the inspection of the IED specification of attribute；Check module based on the third that Q/GDW 1396 is standardized: the module carries out IED configuration inspection to the IED static models for meeting the IED specification of attribute；The 4th inspection module standardized based on Q/GDW 1161 and Q/GDW 1175: the module carries out Quadratic Imaginary loop check to the IED static models for meeting IED configuration inspection rule, and then exports Quadratic Imaginary loop check result.The prior art is compared, and inspection result of the present invention is reliable, is checked high-efficient.

Description

SCD Quadratic Imaginary loop check system and method based on the layering of semantic intensity

Technical field

The present invention relates to a kind of intelligent substation secondary void loop check system and methods, are based on language more particularly, to one kind The SCD Quadratic Imaginary loop check system and method for adopted intensity layering.

Background technique

Automatic system of intelligent transformer station is based on IEC61850 system, proposes the concept of process layer, process layer IED dress Set (Intelligent Electronic Device, intelligent electronic device) combining unit, intelligent terminal comes into being.It is more next More intelligent electronic devices (IED) is designed application using the system standard of IEC61850.

With the continuous popularization of intelligent substation technology, the side that existing secondary circuit is transmitted as information is substituted using optical fiber Formula brings new challenge to existing debugging method.The secondary circuit of intelligent substation is no longer as former traditional substation It is at physical existence, but is transformed into the mode of request and reply, all information transmitting become intelligent substation electronics Logic line between equipment (Intelligent Electronic Device, IED).Just for substation secondary void circuit True property is directly related in power grid substation the correctness of (local), scheduling (strange land) operation operation, and timely quasi- to accident Really analysis and judgement processing.Existing intelligent substation configuration is by each integrator based on IEC61850 agreement using rear number of units It is generated according to library, however there is no general detection method for the substation secondary void circuit that integrator is configured at this stage, it can not The correctness for guaranteeing substation secondary void circuit, brings hidden danger to the safe operation of intelligent substation.

Summary of the invention

It is an object of the present invention to overcome the above-mentioned drawbacks of the prior art and provide one kind based on semantic intensity The SCD Quadratic Imaginary loop check system and method for layering.

The purpose of the present invention can be achieved through the following technical solutions:

A kind of SCD Quadratic Imaginary loop check system based on the layering of semantic intensity, the system include:

First based on IEC61850 standard checks module: the module parses to obtain IED static models according to SCD file, And SCD semantic test is carried out to IED static models；

The second inspection module based on SCD specification: the module meets SCD semantic test rule after checking module check to first IED static models then carry out the inspection of the IED specification of attribute；

Check module based on the third that Q/GDW 1396 is standardized: the module meets IED attribute to the second inspection module check The IED static models of specification carry out IED configuration inspection；

Check module based on the Q/GDW 1161 and Q/GDW 1175 is standardized the 4th: the module checks module check to third The IED static models for meeting IED configuration inspection rule carry out Quadratic Imaginary loop check, and then export Quadratic Imaginary loop check knot Fruit.

First checks that module includes:

SCD resolution unit: the unit, which obtains SCD file and parses, obtains Quadratic Imaginary circuit IED static models；

Semantic rules unit: the unit is based on IEC61850 standard building SCD semantic test rule and forms semantic test rule Then XSD file；

IED static models comparing unit: comparing IED static models and semantic test rule XSD file, judges IED static state Whether model meets SCD semantic test rule；

SCD semantic test result output unit: the IED static models for meeting SCD semantic test rule are sent to second Check module, the IED static models for not meeting SCD semantic test rule are exported with list mode.

Second checks that module includes:

SCD rules unit: the information such as the mode of connection, voltage class, affiliated interval of building primary system are standardized based on SCD The definition of Quadratic Imaginary circuit correctness, to differentiate Quadratic Imaginary circuit and primary equipment corresponding relationship, the formation IED specification of attribute；

IED attribute inspection unit: the IED static state mould of SCD semantic test rule will be met by the first inspection module check Type is compared with the IED specification of attribute, judges whether IED static models meet the IED specification of attribute；

IED attribute inspection result output unit: the IED static models for meeting the IED specification of attribute are exported to third inspection Module, the IED static models for not meeting the IED specification of attribute are exported with list mode.

Third checks that module includes:

1396 specification resolution units: being standardized based on Q/GDW 1396, constructs IED normalized checking model, forms IED configuration Check rule；

IED configuration specification inspection unit: the IED static state mould of the IED specification of attribute will be met by the second inspection module check Type is compared with IED configuration inspection rule, judges whether IED static models meet IED configuration inspection rule；

IED configuration inspection output unit: the IED static models for meeting IED configuration inspection rule are exported to the 4th and are checked Module, the IED static models for not meeting IED configuration inspection rule are exported with list mode.

4th checks that module includes:

Quadratic Imaginary loop check rule construction unit: the unit be based on 1161 specification build path of Q/GDW check rule and DESC checks rule, while the unit standardizes building reference path and the inspection rule of DESC based on Q/GDW 1175；

Quadratic Imaginary loop check unit: the unit will check that module check meets IED configuration inspection rule by third All inspection rules of the IED static models respectively with the building of Quadratic Imaginary loop check rule construction unit compare, and judge IED Whether static models meet all inspection rules, and Quadratic Imaginary circuit is correct if meeting；

Quadratic Imaginary loop check result output unit: the inspection result of Quadratic Imaginary loop check unit is defeated with list mode Out.

It is a kind of that Quadratic Imaginary loop check is carried out using the above-mentioned SCD Quadratic Imaginary loop check system based on the layering of semantic intensity Method, this method comprises the following steps:

(1) first inspection module, which obtains SCD file and parses, obtains Quadratic Imaginary circuit IED static models, while the first inspection It looks into module and is based on IEC61850 standard to IED static models progress SCD semantic test, held if meeting SCD semantic test rule Row step (2) is otherwise exported the IED static models for not meeting SCD semantic test rule with list mode；

(2) second inspection modules are standardized based on SCD and carry out IED category to the IED static models for meeting SCD semantic test rule Property normalized checking otherwise will not meet the IED static state mould of the IED specification of attribute if meeting the IED specification of attribute thens follow the steps (3) Type is exported with list mode；

(3) third checks that module is standardized based on Q/GDW 1396 and carries out to the IED static models for meeting the IED specification of attribute IED configuration inspection otherwise will not meet IED configuration inspection rule if meeting IED configuration inspection rule thens follow the steps (4) IED static models are exported with list mode；

(4) third checks module based on Q/GDW 1161 and Q/GDW 1175 specification to meeting IED configuration inspection rule IED static models carry out Quadratic Imaginary loop check, and export Quadratic Imaginary loop check result.

Step (1) specifically:

Firstly, the first inspection module obtains SCD file and parses and obtains Quadratic Imaginary circuit IED static models；

Then, first check that module is based on IEC61850 standard building SCD semantic test rule and forms semantic test rule XSD file；

Finally, first checks that module compares IED static models and semantic test rule XSD file, IED static state mould is judged Whether type meets SCD semantic test rule, and the IED of SCD semantic test rule will be met if meeting SCD semantic test rule Static models are sent to the second inspection module, will not meet the IED static models of SCD semantic test rule otherwise with list mode Output.

Step (2) specifically:

Firstly, second checks that module standardizes the mode of connection, the voltage class, affiliated interval of building primary system based on SCD Etc. the Quadratic Imaginary circuit correctness definition of information form IED attribute to differentiate Quadratic Imaginary circuit and primary equipment corresponding relationship and advise Model；

Then, the second inspection module is static by the IED for meeting SCD semantic test rule by the first inspection module check Model is compared with the IED specification of attribute, judges whether IED static models meet the IED specification of attribute, if meeting IED attribute rule The IED static models for meeting the IED specification of attribute are then exported to third and check module by model, otherwise will not meet the IED specification of attribute IED static models exported with list mode.

Step (3) specifically:

Firstly, third checks that module is standardized based on Q/GDW 1396, IED normalized checking model is constructed, forms IED configuration Check rule；

Then, third check module by by the second inspection module check meet the IED static models of the IED specification of attribute with IED configuration inspection rule is compared, and judges whether IED static models meet IED configuration inspection rule, if meeting IED configuration It checks that rule then exports the IED static models for meeting IED configuration inspection rule to the 4th and checks module, otherwise will not meet The IED static models of IED configuration inspection rule are exported with list mode.

Step (4) specifically:

Firstly, the 4th checks that module is based on 1161 specification build path of Q/GDW and checks that rule and DESC check rule, together When based on Q/GDW 1175 standardize building reference path and DESC inspection rule；

Then, the 4th inspection module will check that module check meets the IED static state of IED configuration inspection rule by third Model checks that the inspection rule of rule and reference path and DESC compare with route inspection rule, DESC respectively, judges Whether IED static models meet all inspection rules；

Finally, the 4th inspection module exports the inspection result of Quadratic Imaginary loop check unit with list mode.

Compared with prior art, the present invention has the advantage that

(1) secondary circuit inspection system of the present invention is the module of audit-in-depth to realize layer-by-layer close inspection, that is, is met The check object of first inspection module second could check that module be checked in turn, and so on, last secondary circuit inspection It as a result must be the inspection requirements for meeting four layers of inspection module, inspection result is relatively reliable, and strict guarantee substation secondary is empty The correctness in circuit improves the safety of intelligent substation；

(2) present invention just can tie during audit-in-depth when discovery does not meet a certain layer inspection requirements by checking Fruit output also improves while guaranteeing that last inspection result is reliable convenient for being changed in time to SCD file and checks efficiency.

Detailed description of the invention

Fig. 1 is the structural block diagram for the SCD Quadratic Imaginary loop check system being layered the present invention is based on semantic intensity；

Fig. 2 is the flow diagram for the SCD Quadratic Imaginary loop check method being layered the present invention is based on semantic intensity.

0 is man-machine interactive interface, and 1 checks module for first, and 2 check module for second, and 3 check module for third, and 4 be the Four check module.

Specific embodiment

The present invention is described in detail with specific embodiment below in conjunction with the accompanying drawings.

Embodiment

As shown in Figure 1, a kind of SCD Quadratic Imaginary loop check system based on the layering of semantic intensity, the system include:

First based on IEC61850 standard checks module 1: the module parses to obtain IED static models according to SCD file, And SCD semantic test is carried out to IED static models；

The second inspection module 2 based on SCD specification: the module meets the inspection of SCD semanteme after checking the first inspection module 1 The IED static models for looking into rule carry out the inspection of the IED specification of attribute；

Check module 3 based on the third that Q/GDW 1396 is standardized: the module meets IED to the second inspection inspection of module 2 and belongs to Property specification IED static models carry out IED configuration inspection；

Check module 4 based on the Q/GDW 1161 and Q/GDW 1175 is standardized the 4th: the module checks that module 3 is examined to third The IED static models progress Quadratic Imaginary loop check for meeting IED configuration inspection rule is looked into, and then exports Quadratic Imaginary loop check knot Fruit.

The present embodiment introduces man-machine interactive interface 0, and first checks that module 1 obtains SCD file from man-machine interactive interface 0, together When first inspection module 1, second check module 2, third check module 3 and the 4th inspection module 4 inspection result feed back to Man-machine interactive interface 0.

First checks that module 1 includes:

SCD resolution unit: the unit obtains SCD file and parses to obtain Quadratic Imaginary circuit using SCL tag search technology IED static models, the SCL tag search technology refer to: search SCL label, such as: IED label classification:<iED,>,</ IED>, Inputs label classification:<inputs,>,</Inputs>,/>, GSEcontrol label classification:<gSEControl,>, </GSEControl>, LD label classification:<lDevice,>,</LDevice>,/>, LN label classification:<lN,>,</LN>,/>, Dataset label classification:<dataSet,>,</DataSet>,/>etc., IED static models refer to: only including IED void circuit phase Model represented by all information of pass, including the definition of GOOSE control block, Extref define, data in the definition of GOOSE control block The definition etc. of collection；

Semantic rules unit: the unit is based on IEC61850 standard building SCD semantic test rule and forms semantic test rule The input circuit of then XSD file, the semantic test rule such as IED must be with the ExtRef element (rules under inputs 1), LD, LN, DO, DA in FCDA should find (rule 2), specifically, rule 1 under the path correspondence LD/LN/DO/DA of IED Refer to: tExtRef, which should have, to be met as properties: as iedName, ldInst, prefix, lnClass, lnInst, DoName, daName, intAddr attribute provide difference prompt if any attribute lacks, and rule 2 refers to: tFCDA should have Meet as properties: ldInst, prefix, lnClass, lnInst, doName, daName, fc, ix, if any attribute lacks It loses, then provides difference prompt；

IED static models comparing unit: comparing IED static models and semantic test rule XSD file, judges IED static state Whether model meets SCD semantic test rule；

SCD semantic test result output unit: the IED static models for meeting SCD semantic test rule are sent to second Check module 2, the IED static models for not meeting SCD semantic test rule are exported with list mode.

Second checks that module 2 includes:

SCD rules unit: the information such as the mode of connection, voltage class, affiliated interval of building primary system are standardized based on SCD Quadratic Imaginary circuit correctness definition (rule 3), to differentiate Quadratic Imaginary circuit and primary equipment corresponding relationship, formation IED attribute Specification；

IED attribute inspection unit: it will check that the IED for meeting SCD semantic test rule is static by the first inspection module 1 Model is compared with the IED specification of attribute, judges whether IED static models meet the IED specification of attribute；

IED attribute inspection result output unit: the IED static models for meeting the IED specification of attribute are exported to third inspection Module 3, the IED static models for not meeting the IED specification of attribute are exported with list mode.

Specifically, above-mentioned regular 3 specifically: tIEDName should have the property that IED type (such as P indicates protection), return Belonging to device type (such as L indicate route), voltage class (such as 50 expression 500kV), home device number, (such as 500kV route is Two such as 31 after corresponding sides switch number indicate 5031) switch of side corresponding to the route is, is spaced interior same device serial number (such as A indicates first set).If lacking attribute, difference prompt is provided.

Third checks that module 3 includes:

1396 specification resolution units: being standardized based on Q/GDW 1396, constructs IED normalized checking model, forms IED configuration Check rule (rule 4)；

IED configuration specification inspection unit: it will check that the IED for meeting the IED specification of attribute is static by the second inspection module 2 Model is compared with IED configuration inspection rule, judges whether IED static models meet IED configuration inspection rule；

IED configuration inspection output unit: the IED static models for meeting IED configuration inspection rule are exported to the 4th and are checked Module 4, the IED static models for not meeting IED configuration inspection rule are exported with list mode.

Above-mentioned regular 4 (i.e. IED configuration inspection rules) specifically: protective device logical node should meet in 1396 standards Requirement of the 7th part IED application model specification for protective device model description (M type), is specifically patrolled as route protection has It collects node description to require, there is LLN0, LPHD, PDIF etc..If with 1396 standards regulation it is variant if provide prompt.

4th checks that module 4 includes:

Quadratic Imaginary loop check rule construction unit: the unit is based on 1161 specification build path of Q/GDW and checks rule (rule 5) and DESC check rule (rule 6), while the unit quotes path and DESC based on the specification building of Q/GDW 1175 Check rule (rule 7)；

Quadratic Imaginary loop check unit: the unit will check that module 3 checks by third and meet IED configuration inspection rule All inspection rules of the IED static models respectively with the building of Quadratic Imaginary loop check rule construction unit compare, and judge IED Whether static models meet all inspection rules, and Quadratic Imaginary circuit is correct if meeting；

Quadratic Imaginary loop check result output unit: the inspection result of Quadratic Imaginary loop check unit is defeated with list mode Out.

Above-mentioned regular 5 (i.e. route inspection rules) specifically: protective device output virtual terminator should meet attached in 1161 specifications The reference path description requirement in C " intelligent protection device interface information " in C4, C8, C12, C15 is recorded, breaker A phase is such as jumped, Quoting path is " PIGO/*PTRC*.Tr.phsA ".

Above-mentioned regular 6 (i.e. DESC checks rule) specifically: in 1161 standard appendix Cs C.1.4.2 in, although not bright Really reference path, but 1396 standards, IEC61850 standard are combined, it can obtain for " breaker sequential trip position TWJa " Description is specific such as: " RPIT/*XCBR*.Pos.stVal "；But " circuit breaker position " information can only be expressed, cannot give expression to is which One phase circuit breaker position, therefore, it is necessary to separate to express by " A/B/C " in DESC, it may be assumed that " RPIT/*XCBR* .Pos.stVal+DESC:A ", complete " A phase circuit breaker position " information can be expressed as a result,.

Above-mentioned regular 7 (i.e. the inspection rules of reference path and DESC) specifically: 1175 standard annex G intelligent stations should be followed The requirement of protective device interface message, but the reference road in annex G in 220kV voltage class protection equipment for transformer virtual terminator table Diameter is not enough to describe complete information, in addition, needing DESC information.Specifically such as: " PIGO/*PTRC*.Tr.general " can only be expressed Cannot " jumping breaker three-phase " information, give expression to specifically which breaker, high-pressure side or mesolow side? 1 side of high pressure is also Does is it 2 side of high pressure? so needing to express specific breaker information: i.e. " PIGO/*PTRC* by " high pressure 1 " in DESC .Tr.general+DESC: high pressure 1 " expresses complete " 1 side breaker is pressed in high jump " information as a result,.

As shown in Fig. 2, a kind of secondary using the above-mentioned SCD Quadratic Imaginary loop check system progress based on the layering of semantic intensity The method of empty loop check, for convenience of indicating, part steps are had been omitted from Fig. 2, and this method comprises the following steps:

(1) first inspection module, which obtains SCD file and parses, obtains Quadratic Imaginary circuit IED static models, while the first inspection It looks into module and is based on IEC61850 standard to IED static models progress SCD semantic test, held if meeting SCD semantic test rule Row step (2) is otherwise exported the IED static models for not meeting SCD semantic test rule with list mode；

(2) second inspection modules are standardized based on SCD and carry out IED category to the IED static models for meeting SCD semantic test rule Property normalized checking otherwise will not meet the IED static state mould of the IED specification of attribute if meeting the IED specification of attribute thens follow the steps (3) Type is exported with list mode；

(3) third checks that module is standardized based on Q/GDW 1396 and carries out to the IED static models for meeting the IED specification of attribute IED configuration inspection otherwise will not meet IED configuration inspection rule if meeting IED configuration inspection rule thens follow the steps (4) IED static models are exported with list mode；

(4) third checks module based on Q/GDW 1161 and Q/GDW 1175 specification to meeting IED configuration inspection rule IED static models carry out Quadratic Imaginary loop check, and export Quadratic Imaginary loop check result.

Step (1) specifically:

Firstly, the first inspection module obtains SCD file and parses and obtains Quadratic Imaginary circuit IED static models；

Then, first check that module is based on IEC61850 standard building SCD semantic test rule and forms semantic test rule XSD file；

Finally, first checks that module compares IED static models and semantic test rule XSD file, IED static state mould is judged Whether type meets SCD semantic test rule, and the IED of SCD semantic test rule will be met if meeting SCD semantic test rule Static models are sent to the second inspection module, will not meet the IED static models of SCD semantic test rule otherwise with list mode Output.

Step (2) specifically:

Firstly, second checks that module standardizes the mode of connection, the voltage class, affiliated interval of building primary system based on SCD Etc. the Quadratic Imaginary circuit correctness definition of information form IED attribute to differentiate Quadratic Imaginary circuit and primary equipment corresponding relationship and advise Model；

Then, the second inspection module is static by the IED for meeting SCD semantic test rule by the first inspection module check Model is compared with the IED specification of attribute, judges whether IED static models meet the IED specification of attribute, if meeting IED attribute rule The IED static models for meeting the IED specification of attribute are then exported to third and check module by model, otherwise will not meet the IED specification of attribute IED static models exported with list mode.

Step (3) specifically:

Firstly, third checks that module is standardized based on Q/GDW 1396, IED normalized checking model is constructed, forms IED configuration Check rule；

Then, third check module by by the second inspection module check meet the IED static models of the IED specification of attribute with IED configuration inspection rule is compared, and judges whether IED static models meet IED configuration inspection rule, if meeting IED configuration It checks that rule then exports the IED static models for meeting IED configuration inspection rule to the 4th and checks module, otherwise will not meet The IED static models of IED configuration inspection rule are exported with list mode.

Step (4) specifically:

Firstly, the 4th checks that module is based on 1161 specification build path of Q/GDW and checks that rule and DESC check rule, together When based on Q/GDW 1175 standardize building reference path and DESC inspection rule；

Then, the 4th inspection module will check that module check meets the IED static state of IED configuration inspection rule by third Model checks that the inspection rule of rule and reference path and DESC compare with route inspection rule, DESC respectively, judges Whether IED static models meet all inspection rules；

Finally, the 4th inspection module exports the inspection result of Quadratic Imaginary loop check unit with list mode.

Claims (10)

1. a kind of SCD Quadratic Imaginary loop check system based on the layering of semantic intensity, which is characterized in that the system includes:

First based on IEC61850 standard checks module (1): the module parses to obtain IED static models according to SCD file, and SCD semantic test is carried out to IED static models；

Second based on SCD specification checks module (2): the module, which is checked first, meets SCD semantic test after module (1) checks The IED static models of rule carry out the inspection of the IED specification of attribute；

Check module (3) based on the third that Q/GDW 1396 is standardized: the module checks that module (2) check that meeting IED belongs to second Property specification IED static models carry out IED configuration inspection；

Check module (4) based on the Q/GDW 1161 and Q/GDW 1175 is standardized the 4th: the module checks module (3) inspection to third The IED static models progress Quadratic Imaginary loop check for meeting IED configuration inspection rule is looked into, and then exports Quadratic Imaginary loop check knot Fruit.

2. a kind of SCD Quadratic Imaginary loop check system based on the layering of semantic intensity according to claim 1, feature exist In first checks that module (1) includes:

SCD resolution unit: the unit, which obtains SCD file and parses, obtains Quadratic Imaginary circuit IED static models；

Semantic rules unit: the unit is based on IEC61850 standard building SCD semantic test rule and forms semantic test rule XSD File；

IED static models comparing unit: IED static models and semantic test rule XSD file are compared, judges IED static models Whether SCD semantic test rule is met；

SCD semantic test result output unit: the IED static models for meeting SCD semantic test rule are sent to the second inspection Module (2), the IED static models for not meeting SCD semantic test rule are exported with list mode.

3. a kind of SCD Quadratic Imaginary loop check system based on the layering of semantic intensity according to claim 1, feature exist In second checks that module (2) include:

SCD rules unit: the two of the information such as the mode of connection, voltage class, affiliated interval of building primary system are standardized based on SCD Secondary void circuit correctness definition forms the IED specification of attribute to differentiate Quadratic Imaginary circuit and primary equipment corresponding relationship；

IED attribute inspection unit: it will check that module (1) inspection meets the IED static models of SCD semantic test rule by first It is compared with the IED specification of attribute, judges whether IED static models meet the IED specification of attribute；

IED attribute inspection result output unit: the IED static models for meeting the IED specification of attribute are exported to third and check module (3), the IED static models for not meeting the IED specification of attribute are exported with list mode.

4. a kind of SCD Quadratic Imaginary loop check system based on the layering of semantic intensity according to claim 1, feature exist In third checks that module (3) include:

1396 specification resolution units: being standardized based on Q/GDW 1396, constructs IED normalized checking model, forms IED configuration inspection rule Then；

IED configuration specification inspection unit: it will check that module (2) inspection meets the IED static models of the IED specification of attribute by second It is compared with IED configuration inspection rule, judges whether IED static models meet IED configuration inspection rule；

IED configuration inspection output unit: the IED static models for meeting IED configuration inspection rule are exported to the 4th and check module (4), the IED static models for not meeting IED configuration inspection rule are exported with list mode.

5. a kind of SCD Quadratic Imaginary loop check system based on the layering of semantic intensity according to claim 1, feature exist In the 4th checks that module (4) include:

Quadratic Imaginary loop check rule construction unit: the unit is based on 1161 specification build path of Q/GDW and checks rule and DESC Check rule, while the unit standardizes building reference path and the inspection rule of DESC based on Q/GDW 1175；

Quadratic Imaginary loop check unit: the unit is quiet by the IED for meeting IED configuration inspection rule by third inspection module check All inspection rules of the states model respectively with the building of Quadratic Imaginary loop check rule construction unit compare, and judge IED static state Whether model meets all inspection rules, and Quadratic Imaginary circuit is correct if meeting；

Quadratic Imaginary loop check result output unit: the inspection result of Quadratic Imaginary loop check unit is exported with list mode.

6. it is a kind of using the SCD Quadratic Imaginary loop check system being layered such as Claims 1 to 5 any one based on semantic intensity into The method of row Quadratic Imaginary loop check, which is characterized in that this method comprises the following steps:

(1) first inspection module, which obtains SCD file and parses, obtains Quadratic Imaginary circuit IED static models, while first checks mould Block is based on IEC61850 standard and carries out SCD semantic test to IED static models, executes step if meeting SCD semantic test rule Suddenly (2) are otherwise exported the IED static models for not meeting SCD semantic test rule with list mode；

(2) second inspection modules are standardized based on SCD and carry out IED attribute rule to the IED static models for meeting SCD semantic test rule Model inspection, if meeting the IED specification of attribute thens follow the steps (3), otherwise by the IED static models for not meeting the IED specification of attribute with List mode output；

(3) third checks that module is standardized based on Q/GDW 1396 and matches to the IED static models progress IED for meeting the IED specification of attribute Inspection is set, it is otherwise that the IED for not meeting IED configuration inspection rule is quiet if meeting IED configuration inspection rule thens follow the steps (4) States model is exported with list mode；

(4) third checks that module is quiet to the IED for meeting IED configuration inspection rule based on Q/GDW 1161 and Q/GDW 1175 specification States model carries out Quadratic Imaginary loop check, and exports Quadratic Imaginary loop check result.

7. the method for Quadratic Imaginary loop check according to claim 6, which is characterized in that step (1) specifically:

Firstly, the first inspection module obtains SCD file and parses and obtains Quadratic Imaginary circuit IED static models；

Then, first check that module is based on IEC61850 standard building SCD semantic test rule and forms semantic test rule XSD text Part；

Finally, first checks that module compares IED static models and semantic test rule XSD file, whether IED static models are judged Meet SCD semantic test rule, the IED static models of SCD semantic test rule will be met if meeting SCD semantic test rule It is sent to the second inspection module, otherwise exports the IED static models for not meeting SCD semantic test rule with list mode.

8. the method for Quadratic Imaginary loop check according to claim 6, which is characterized in that step (2) specifically:

Firstly, second checks that module standardizes the letters such as the mode of connection, voltage class, affiliated interval of building primary system based on SCD The Quadratic Imaginary circuit correctness of breath defines, and to differentiate Quadratic Imaginary circuit and primary equipment corresponding relationship, forms the IED specification of attribute；

Then, second inspection module by by first inspection module check meet SCD semantic test rule IED static models and The IED specification of attribute is compared, and judges whether IED static models meet the IED specification of attribute, will if meeting the IED specification of attribute The IED static models for meeting the IED specification of attribute, which are exported to third, checks module, otherwise that the IED for not meeting the IED specification of attribute is quiet States model is exported with list mode.

9. the method for Quadratic Imaginary loop check according to claim 6, which is characterized in that step (3) specifically:

Firstly, third checks that module is standardized based on Q/GDW 1396, IED normalized checking model is constructed, forms IED configuration inspection rule Then；

Then, third checks that module will meet the IED static models and IED of the IED specification of attribute by the second inspection module check Configuration inspection rule is compared, and judges whether IED static models meet IED configuration inspection rule, if meeting IED configuration inspection It is regular then by the IED static models for meeting IED configuration inspection rule export to the 4th check module, otherwise will not meet IED and match It sets and checks that the IED static models of rule are exported with list mode.

10. the method for Quadratic Imaginary loop check according to claim 6, which is characterized in that step (4) specifically:

Firstly, the 4th checks that module is based on 1161 specification build path of Q/GDW and checks that rule and DESC check rule, while base Building reference path and the inspection rule of DESC are standardized in Q/GDW 1175；

Then, the 4th inspection module will check that module check meets the IED static models point of IED configuration inspection rule by third It does not check that the inspection rule of rule and reference path and DESC compare with route inspection rule, DESC, judges IED static state Whether model meets all inspection rules；

Finally, the 4th inspection module exports the inspection result of Quadratic Imaginary loop check unit with list mode.