CN105931132A - Intelligent substation secondary system physical circuit file complete path analysis method - Google Patents
Intelligent substation secondary system physical circuit file complete path analysis method Download PDFInfo
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Abstract
The invention discloses an intelligent substation secondary system physical circuit file complete path analysis method. The method comprises the steps of (1) importing an SCD file and an SPCD file through a visualization tool, (2) initializing and obtaining an IED logic relation topology and a switch port topology, (3) carrying out analysis which comprises an SPCD level analysis and an SPCD physical circuit analysis. The continuous searching to two sides through a fiber core to find IED equipment can be realized. The theory research of physical circuit model file back end analysis is enriched, a reference is provided for other latter advanced applications of a physical model file, and thus the working efficiency of intelligent substation design, debugging and operation is improved indirectly.
Description
Technical field
The present invention relates to a kind of secondary system of intelligent substation physical loop file fullpath analytic method.
Background technology
The secondary circuit of intelligent substation includes logical circuit and physical loop, and logical circuit is mainly Intelligent electric
Signal annexation between subset (IED:Intelligent Electronic Device), physics
Loop is mainly physical port between equipment and passes through optical cable, stern fast, the annexation of jumping fiber.Logical circuit exists
On physical loop transmit, physical loop be the medium realizing logical circuit, logical circuit and physical loop be intelligence
The core of energy transformer station secondary system design.International standard IEC61850-6 defines intelligent substation and patrols
Collecting the modeling standard in loop, transformer substation system configuration describes SCD (Substation Configuration
Description) file is the model tormulation of electrical secondary system logical circuit, and designing unit is complete by SCD file
Becoming the design of electrical secondary system logical circuit, engineering construction unit completes electrical secondary system logical circuit according to SCD file
Configuration.And physical loop there is no relevant criterion and defines its model, designing unit is by the figure of optical cable contact figure
Paper form expresses physical loop design, and engineering construction unit completes electrical secondary system physics according to optical cable contact figure and returns
The construction on road.
Publication No. CN104732021A, invention entitled secondary system of intelligent substation physical loop modeling and
The Chinese patent of the method that actual situation is corresponding, discloses panorama model file especially physical loop model file
SPCD (the Substation Physical Configuration Description) form of file, panorama
The design cycle of model file, the actual situation corresponding method of panorama model file.But this patent is the most specifically
Bright in the graphic procedure drawing physical loop, how to show the implementation in complete physical path, this patent
To grind further based on patent " method that secondary system of intelligent substation physical loop models and actual situation is corresponding "
Study carefully the searching method of fullpath in physical loop drawing course.
Elaboration for the ease of follow-up technical method illustrates, the lattice of brief description SPCD file once here
Formula requirement, " modeling of secondary system of intelligent substation physical loop and actual situation are corresponding with patent for illustrated content
Method " it is consistent.Wherein, SPCD file is physical loop model file, and physical modeling is strict according to thing
The membership of reason equipment is modeled, and its membership follows the physical layer level relation of reality.With in Fig. 1
110KV line segregation physical link figure as a example by, its corresponding complete S PCD file is as follows:
Above-mentioned file format illustrates as follows:
1) SPCL root element, represents that the language format of file is that transformer station's physical configuration describes language
(Substation Configuration Language)。
2) Substation element, represents transformer station, and a SPCL element comprises only a Substation
Element.The attribute of Substation has desc, name:desc to represent the description of transformer station, such as " 220kV
Sea rhythm becomes ";Name defaults to sky, wouldn't use.
3) Region element, represents the cell of transformer station, and a Substation element can be containing multiple
Region element.The attribute of Region has desc, name:desc to represent the description of transformer station, such as " 220
Cell ", " outdoor " etc.;Name is the mark of cell, is made up of English+numeral, such as R220.
4) Cubicle element, represents screen cabinet, and a Region element can contain multiple Cubicle elements.
The attribute of Cubicle has desc, name:desc to represent the description of screen cabinet, such as " line switching convergence control cabinet A "
Deng;Name is the mark of screen cabinet, is made up of English+numeral, such as XLG1A.
5) Unit element, represents physical unit itself, and a Cubicle element can be containing multiple Unit unit
Element.The attribute of Unit has desc, IEDname, name and type:desc to represent the description of physical unit,
Such as " circuit 1 protects A ";IEDname represents the IEDname of physical unit, with the IEDname in SCD file
Should be identical, unintelligent device is empty;Name is device numbering in screen cabinet, volume internal with the device in drawing
Number identical, such as 1n;Type is type of device, enumerated value is IED, ODF, GS-NET, SV-NET, GS-SV-NET,
MMS-NET, IED represent that smart machine, ODF represent that fibre distribution frame, GS-NET represent GOOSE switch,
SV-NET represents SV switch, and GS-SV-NET represents GOOSE/SV switch, and MMS-NET represents that MMS hands over
Change planes.
6) Board element, represents board, can comprise multiple Board element in a Unit.Board
Attribute have desc, slot:desc to represent the description of board, such as NR1102;Slot represents the groove of board
Position, enumerated value is 1,2,3 ... 20.It should be noted that ODF and SWI for transverse slat structure, for convenience
Indicating, groove position uses enumerated value to be A, B, C ... Z.
7) Port element, represents port, and a Board can comprise multiple Port element.The genus of Port
Property have desc, direction, no, plug and type:desc represent port function describe, as MMS,
GOOSE/SV, GPS etc.;Direction represents the data flow of port, and enumerated value is Tx, Rx, TxRx,
Tx represents that transmission, Rx represent that reception, TxRx represent that transmission receives;No represents that port sorts, and enumerates
Value is for A, B, C ... Z, plug represent type of plug, enumerated value is LC, ST, SC, FC, RS485, RS232,
RJ45, type represent interface type, and enumerated value is FOC (optical cable), STP (Shielded Twisted Pair), 100BaseT
(100,000,000 netting twine).It should be noted that ODF and SWI for transverse slat structure, for convenience of indicating, port is adopted
It is 1,2,3 with enumerated value ... 20.
8) IntCore element, represents physical connection in screen, and a Cubicle can comprise multiple IntCore
Element.IntCore attribute has PortA, PortB, name, type:PortA to represent physical connection in screen
A port, such as " 1n.6.A-Tx ";PortB represents the B port of internal physical line, as
“2n.A.02-TxRx”;Name represents physical connection title in screen, such as TX01;Type represents physical connection
Type, enumerated value is FJ (jumping fiber), STP (Shielded Twisted Pair), 100BaseT (100,000,000 netting twine).
9) Cable element, represents the physical connection between screen cabinet, and a Substation can comprise multiple
Cable element.Cable attribute has coresNum, cubicleA, cubicleB, desc, name, type:
CoresNum represents the core number of physical connection, such as 4;CubicleA represents the A screen cabinet of physical connection, as "
R220.SWP1A";CubicleB represents the B screen cabinet of physical connection, such as " Outdoor.XLG1A ";desc
Table physical connection describes, and name represents physical connection title between screen, such as " SW_GL_183A ";Type represents
Physical connection type, enumerated value is FC (optical cable), FT (stern fast), FJ (jumping fiber), STP (shielding multiple twin
Line), 100BaseT (100,000,000 netting twine).
10) Core element, represents the inner core of physical connection between screen cabinet, and a Cable can comprise multiple Core
Element.Core attribute has no, PortA, PortB:no table sequence number, represents the inner core sequence number of optical cable, PortA
Represent the A port of physical connection between screen cabinet, such as " 1n.6.A-Tx ";PortB represents physical connection between screen cabinet,
Such as " 2n.A.02-TxRx ".
This patent will be based on patent " method that secondary system of intelligent substation physical loop models and actual situation is corresponding "
The searching method of fullpath in research physical loop drawing course further.
Summary of the invention
For the problems referred to above, the present invention provides a kind of complete road of secondary system of intelligent substation physical loop file
Footpath analytic method, carries out the complete of secondary system of intelligent substation physical loop based on SCD file, SPCD file
Whole path resolves.
Explanation of nouns:
A side: the side being connected with PortA.
B side: the side being connected with PortB.
For realizing above-mentioned technical purpose, reaching above-mentioned technique effect, the present invention is achieved through the following technical solutions:
Secondary system of intelligent substation physical loop file fullpath analytic method, it is characterised in that include
Following steps:
Step 1, import SCD file and SPCD file by visualization tool;
Step 2, initialize, including:
Connect by resolving the empty terminal of SCD file, obtain IED logical relation topology;
By resolving the model of switch in SPCD file, obtain switch ports themselves topology;
Step 3, resolve, including:
SPCD level resolves: traversal SPCD file, extracts respective element information, element bag according to click on content
Include transformer station, cell, screen cabinet, equipment and optical cable;
SPCD physical loop resolves: according to IED logical relation topology, switch ports themselves topological sum SPCD level
Analysis result, carries out SPCD physical loop parsing, resolves including the optical cable annexation between screen cabinet, shields between cabinet
The jumping fiber annexation parsing that the inside fibre core annexation of optical cable resolves and shields in cabinet.
Preferably, the optical cable annexation between screen cabinet resolves and specifically includes following steps:
A) central display cabinet to be drawn, i.e. center screen cabinet are selected;
B) traversal Cable element, obtains all optical cable information of transformer station;
C) cubicleA and the cubicleB attribute in Cable element is obtained, it is thus achieved that the both sides of all optical cables
Screen cabinet information;
D) information of filter center's screen cabinet, it is thus achieved that the screen cabinet information being connected with center screen cabinet;
E) judge whether the screen cabinet obtained in step d) has identical screen cabinet;
If f) not having, the most automatically drawing optical cable centered by the screen cabinet of Ze Yi center and connecting figure;If having, then merge
Automatically optical cable connection figure is drawn centered by the screen cabinet of screen cabinet block diagram Hou Zaiyi center.
Preferably, the jumping fiber annexation in screen cabinet resolves and specifically includes following steps:
A) connect figure interface at optical cable, select the screen cabinet of internal jumping fiber annexation to be resolved;
B) the jumping fiber IntCore element in traversal screen cabinet;
C) PortA and the PortB attribute of IntCore element is obtained, it is thus achieved that two side apparatus letters of all jumping fibers
Breath;
D) jumping fiber of IED equipment in extraction PortA and PortB is this screen cabinet.
Preferably, between screen cabinet, the inside fibre core annexation of optical cable resolves and specifically includes following steps:
A) optical cable of internal fibre core annexation to be resolved is selected;
B) the Cable element of this optical cable is resolved;
C) the fibre core Core element information in Cable element is obtained;
D) fibre core Core element is resolved one by one;
E) PortA and the PortB information of Core element is obtained;
F) fibre core automatic search algorithm is called: by the fibre core Core of optical cable Cable as point of penetration, point
Constantly do not extend search to A side and B side, finally search the IED equipment of both sides.The useful effect of the present invention
Fruit is:
Resolve SPCD file fullpath and be divided into three kinds of situations: between screen cabinet between optical cable, screen cabinet in fibre core, screen cabinet
Jumping fiber, devises concrete process of analysis for every kind of situation, especially to fibre core between the most complicated screen cabinet
Parsing proposes fibre core automatic search algorithm, it is possible to achieve constantly searched for both sides until finding IED by fibre core
Equipment.Enrich the theoretical research that physical loop model file rear end resolves, for the physical model file later stage
Other senior application provide reference, thus indirectly improve intelligent substation design, debugging, the work of O&M
Make efficiency.
Accompanying drawing explanation
Fig. 1 is the physical link figure of 110KV line segregation;
Fig. 2 is the entirety of secondary system of intelligent substation physical loop file fullpath analytic method of the present invention
Flow chart;
Fig. 3 is the flow chart that the present invention obtains IED logical relation topology;
Fig. 4 is the flow chart that the present invention obtains switch ports themselves topology;
Fig. 5 is that the present invention obtains the flow chart of optical cable connection figure between screen cabinet;
Fig. 6 is that the present invention obtains the flow chart of jumping fiber contact between screen cabinet;
Fig. 7 is that the present invention obtains the flow chart of fibre core contact between screen cabinet;
Fig. 8 be A side of the present invention be the fibre core automatic search routine figure of IED equipment;
Fig. 9 be A side of the present invention be the fibre core automatic search routine figure of ODF;
Figure 10 be A side of the present invention be the fibre core automatic search routine figure of switch;
Detailed description of the invention
With specific embodiment, technical solution of the present invention is described in further detail below in conjunction with the accompanying drawings, with
Make those skilled in the art can be better understood from the present invention and can be practiced, but illustrated embodiment is not made
For limitation of the invention.
Mainly physical equipment level relation, the physical loop of the graphical representation of SPCD file.Physical layer level
Displaying relatively simple, the coherent element directly resolved in SPCD file is achieved with, the weight that this patent illustrates
Point is the methods of exhibiting of physical loop.Firstly the need of explanation, this patent is drawing physical loop process
In, will not use the mode of transformer station's full figure by the way of showing step by step, this is because: resolving inversely
Show that time space is limited owing to carrying out software interface at instrument, the most all intercept one or several physical pathway
Show;All transformer station shows in a width figure, and the autoplacement drawing to software requires high, transformer station
When scale is the biggest, the physical loop of intersection is the most, it is impossible to clearly show that physical loop figure.
Secondary system of intelligent substation physical loop file fullpath analytic method, needs the point according to interface
Hitting content real time parsing and real-time drawing function, show compared to hierarchical object, destination object no longer determines that,
The physical pathway of whole physical pathway especially fibre core needs software automatically to calculate according to SPCD file.
The physical loop resolved is needed to have three kinds by analysis: to include that the optical cable annexation shielding between cabinet resolves, shields cabinet
Between the inside fibre core annexation of optical cable resolve and jumping fiber annexation in screen cabinet resolves.
As in figure 2 it is shown, secondary system of intelligent substation physical loop file fullpath analytic method, including
Following steps:
Step 1, import SCD file and SPCD file by visualization tool;
Step 2, initialize, initialize mainly to provide for follow-up " fibre core is searched for automatically " and resolve base
Plinth, resolves and includes two contents:
(1) by resolving the empty terminal connection of SCD file, the input of each IED and the relation of output are obtained,
I.e. IED logical relation topology, the step for be equivalent to obtain forward configuration during infologic relation,
It is easy to find, through switch, the opposite side IED equipment that is associated follow-up according to side IED equipment,
The most as shown in Figure 3:
A) SCD file is imported;
B) empty terminal link information is resolved;
C) obtain the transmission of each IED and receive logical relation.
(2) by resolving the model of switch in SPCD file, the physical couplings of all switches is obtained
(i.e. the physical connection path of each port of switch), obtains switch ports themselves topology.The step for be also
For follow-up route searching servicing, when side IED equipment needs to know opposite side IED through switch
During equipment, the switch-layer topology relation that this step has been completed can help to complete route searching faster.
If switch ports themselves is direct-connected to IED device port, record this physical connection path;If switch end
Mouth is connected to light and joins machine and then enter iterative search, until searching IED device port, records this complete
Whole physical pathway;If what switch was ultimately connected to is switch, then record cascade port;More than record
Three kinds of situations, ultimately form switch ports themselves topology.
The most as shown in Figure 4:
A) traversal each port of switch;
B) physical pathway is resolved piecemeal;
If c) obtain is IED equipment, then obtains IED device end, search for next port.
If that d) obtain is ODF, then continue cycling through search, until searching out IED equipment;
If b) search is less than IED equipment, then it is assumed that is switch, then points out equipment if not switch
Type error;
C) if switch then records the port topology of switch.
Step 3, resolve: initialize after terminating, enter the formal flow process resolved, specifically include following merit
Energy module:
SPCD level resolves: traversal SPCD file, extracts respective element information, element bag according to click on content
Include transformer station, cell, screen cabinet, equipment and optical cable etc.;
SPCD physical loop resolves: according to IED logical relation topology, switch ports themselves topological sum SPCD level
Analysis result, carries out SPCD physical loop parsing, resolves including the optical cable annexation between screen cabinet, shields between cabinet
The jumping fiber annexation parsing that the inside fibre core annexation of optical cable resolves and shields in cabinet.
Introduce in detail below:
Optical cable annexation between screen cabinet: when clicking on screen cabinet, the light being associated with this screen cabinet should be able to be drawn out
Cable information, beginning and end are the screen cabinet of this optical cable, and optical cable can be to need the armored optical cable of welding can also
It it is the stern fast that need not welding.Because having special Elements C able to describe this physical connection at SPCD file
Relation, software has only to do resolve to extract and is obtained with shielding the optical cable annexation between cabinet, and this step is more
Simply, as shown in Figure 5:
Optical cable annexation between screen cabinet resolves and specifically includes following steps:
A) central display cabinet (hereinafter referred to as center screen cabinet) to be drawn can be selected by software interface;
B) traversal Cable element, obtains all optical cable information of transformer station;
C) cubicleA and the cubicleB attribute in Cable element is obtained, it is thus achieved that the both sides of all optical cables
Screen cabinet information;
D) information of filter center's screen cabinet, it is thus achieved that the screen cabinet information being connected with center screen cabinet;
E) judge whether the screen cabinet obtained in step d) has identical screen cabinet;
If f) not having, the most automatically drawing optical cable centered by the screen cabinet of Ze Yi center and connecting figure;If having, then merge
Automatically optical cable connection figure is drawn centered by the screen cabinet of screen cabinet block diagram Hou Zaiyi center.
The inside fibre core annexation of optical cable between screen cabinet: when clicking on screen cabinet, should be able to draw out screen cabinet inside and jump
Fine complete physical loop, screen fullpath within cabinet should simply shield the jumping fiber of cabinet, because in screen cabinet
Jumping fiber have partial content be on send screen cabinet between fibre core connect a part, it is contemplated that the complexity of drafting and clear journey
Degree, does not search again for fullpath.Jumping fiber in screen cabinet uses Intcore element, it is only necessary to resolve Intcore
Just can obtain jumping fiber information in cabinet.Additionally, the jumping depicted during drafting fibre core in department's screen cabinet
Fibre, draws clearly in order to more simplify, and the jumping fiber in screen cabinet is only drawn both sides and is IED equipment and entirely exists
The physical pathway of screen cabinet, as shown in Figure 6:
Jumping fiber annexation in screen cabinet resolves and specifically includes following steps:
A) connect figure interface at optical cable, select the screen cabinet of internal jumping fiber annexation to be resolved;
B) the jumping fiber IntCore element in traversal screen cabinet;
C) PortA and the PortB attribute of IntCore element is obtained, it is thus achieved that two side apparatus letters of all jumping fibers
Breath;
D) jumping fiber of IED equipment in extraction PortA and PortB is this screen cabinet.
Jumping fiber annexation in screen cabinet: when clicking on optical cable, should be able to draw out the complete of all of internal fibre core
Whole physical loop, the use of internal fibre core is extremely complex, following points specifically:
A) relate to a lot of intermediate equipment link, as one or more ODF (fibre distribution frame), one or many
Individual switch.
B) internal fibre core has the fibre core used, also either with or without the standby core used.
C) point device that rises of all fibre cores of internal fibre core is not necessarily in same screen cabinet, and end device also differs
Surely it is in same screen cabinet, causes physical loop to have length to have short, drawing layout difficulty.
D) found by IED equipment, through switch, the most easy-to-look-up next stage equipment, it is desirable to have
Corresponding algorithm supports.
E) for same optical cable, it is not necessary to be the beginning and end of equipment, may a plurality of optical cable combination
Can constitute complete physical loop, therefore there is the different position of click needs to draw the feelings in same physical loop
Condition, in other words, software needs compatible different click location to search same physical loop.
F) physical connection produces contact, but not necessarily inside has logical circuit to contact, such as route protection and intelligence
Terminal the most on switches, but both information be all by be directly connected to transmission.
For the problems referred to above, counter-measure is as follows:
A) set up fibre core automatic search algorithm, support containing ODF, the search of the physical loop of switch.
B) software drawing course considers the service condition of standby core, do not have equipment as starting point due to standby core and
Terminal, it is contemplated that make standby core at software and indicate.
C) software is drawn needs to consider location problem, supports that the equipment starting point (terminal) of same optical cable does not exists
Same screen cabinet.
D) design resolves the initialization procedure of SCD and SPC file, it is provided that the logical relation topology of IED equipment
With the port topology of switch, the follow-up lookup through switch.
E) setting up fibre core automatic search algorithm, point situation discusses the searching algorithm of different click location.
F) can not know whether current loop has service connection during drawing, the most all draw out,
" actual situation is corresponding " does not has logical circuit associated.
As it is shown in fig. 7, the inside fibre core annexation of optical cable resolves and specifically includes following steps between screen cabinet:
A) optical cable of internal fibre core annexation to be resolved is selected;
B) the Cable element of this optical cable is resolved;
C) the fibre core Core element information in Cable element is obtained;
D) fibre core Core element is resolved one by one;
E) PortA and the PortB information of Core element is obtained;
F) fibre core automatic search algorithm is called: by the fibre core Core of optical cable Cable as point of penetration, point
To both sides, i.e. A side (side being connected with PortA) and B side (side being connected with PortB) be not continuous
Extend search, finally search the IED equipment of both sides.
The physical equipment in intelligent substation secondary loop mainly includes IED equipment, ODF and switch, wherein,
The search of IED equipment and ODF is relatively simple, and the searching algorithm of switch relates to recursive call and convergence problem then
Complex, therefore " switch cyclic search is calculated in the research that focuses on of " fibre core automatic search algorithm "
Method ".According to the different optical cable positions clicked on, below point three kinds of situations are illustrated:
The first situation: as shown in Figure 8, when A side is IED equipment, fibre core automatic search algorithm is as follows:
A) search of IED equipment-ODF:
A1) B side physical pathway is resolved piecemeal;
A2) if B side is IED equipment, then obtain B side IED equipment and search terminates, under otherwise entering
One step a3);
A3) determine whether ODF (fibre distribution frame), if ODF, then return step a1) continue to
Next section search (purpose of cyclic search is to prevent the generation of ODF transit case);Otherwise, enter
Switch cyclic search algorithm;
B) switch cyclic search algorithm, based on " the switch ports themselves topology " analyzed when initializing and " IED
Logical relation topology ", current SWITCH can be judged:
B1) switch is determined whether, if not then reporting an error;If then entering step b2);
B2) switch ports themselves is analyzed, it may be judged whether have switch concatenation;
B3) if it is not, then take current SWITCH port topology and A side protection measurement and control logic relationship topology common factor, obtain
All terminate after obtaining all B sides IED equipment;The most then determine whether a switch concatenation;
B4) if only one of which switch concatenation, then obtaining this switch b side IED equipment, this switch is searched
Hitch bundle, enters step b2) start the search of next switch;Otherwise enter step b5);
B5) obtaining all B sides IED equipment of this switch, the search of this switch terminates, and simultaneously enters step
Rapid b2) the search all switches of next stage.
It should be noted that, if only one of which switch concatenation, being common cascaded switches, if there being two or more
Switch concatenation then centered by switch, general, system only one of which center switch and general with several
Logical cascaded switches cascade.Center switch, therefore this calculation typically will not be cascaded again in view of center switch
Method step b5) in, search only for an all switch of next stage and i.e. terminate.
The second situation: as it is shown in figure 9, when A side is ODF, fibre core automatic search algorithm is as follows:
01) search for A side physical pathway piecemeal, it may be judged whether be IED equipment, the most then perform when A side
For fibre core automatic search algorithm during IED equipment;Otherwise determine whether ODF;
02) if ODF is then back to step 01) continue to search for next section, otherwise judge whether it is to hand over
Change planes;
03) if not switch then reports an error, otherwise stop the search of A side and start to search for B side;
04) determine whether ODF, if otherwise optical cable connection does not meets actual conditions, otherwise, continue next section
Search;
05) judge whether it is IED equipment, the most then obtain B side IED equipment;Otherwise determine whether
ODF;
Wherein, if IED equipment, then after obtaining B side IED equipment, it is also possible to start to search for Port A side,
Owing to the search of A side stops at switch, then calling " switch cyclic search algorithm " can be by input B
Side IED equipment obtains A side IED equipment.
06) if ODF, then continue next section and search for and enter step 05);If not ODF, then judgement is
No is switch;
07) if not switch then reports an error, otherwise judge that this fibre core is as cascade fibre core, it is impossible to draw and terminate.
The third situation: as shown in Figure 10, when A side is switch, fibre core automatic search algorithm is as follows:
001) stop the search of A side, start the search of Port B side, resolve piecemeal;
002) judge whether it is IED equipment, the most then perform fibre core automatic search algorithm from Port B side;
Otherwise determine whether ODF;
003) if ODF, then step 001 is entered);If not ODF, then judge whether it is switch;
004) if not switch then reports an error, otherwise judge that this fibre core is as cascade fibre core, it is impossible to draw and terminate.
After intelligent substation proposes physics loop model file, its meaning is constantly to open up physical loop model
The senior application in rear end, its first step is exactly graphical to resolve physical loop model file, mainly realizes physics
Equipment hierarchical relationship is shown, physical loop is shown.The displaying of physical layer level is relatively simple, directly resolves SPCD
Coherent element in file is achieved with, and its difficult point is the analytic method of physical loop.This patent fully divides
Having analysed the constituted mode of SPCD file, the optical cable in conjunction with transformer station connects present situation, is resolved by optical cable and is divided three classes:
Shield fibre core between optical cable between cabinet, screen cabinet, shield jumping fiber in cabinet, and one one have carried out program circuit design to it, especially
It is that the parsing of fibre core between the most complicated screen cabinet is proposed fibre core automatic search algorithm, it is possible to achieve by fibre
Core is constantly searched for both sides until finding IED equipment.Meaning of the present invention is to enrich physical loop model
The theoretical research that file rear end resolves, other the senior application for the physical model file later stage provide reference,
Thus indirectly improve intelligent substation design, debugging, the operating efficiency of O&M.
These are only the preferred embodiments of the present invention, not thereby limit the scope of the claims of the present invention, every profit
The equivalent structure made by description of the invention and accompanying drawing content or equivalence flow process conversion, or directly or
Connect and be used in other relevant technical fields, be the most in like manner included in the scope of patent protection of the present invention.
Claims (9)
1. secondary system of intelligent substation physical loop file fullpath analytic method, it is characterised in that include as
Lower step:
Step 1, import SCD file and SPCD file by visualization tool;
Step 2, initialize, including:
Connect by resolving the empty terminal of SCD file, obtain IED logical relation topology;
By resolving the model of switch in SPCD file, obtain switch ports themselves topology;
Step 3, resolve, including:
SPCD level resolves: traversal SPCD file, extracts respective element information, unit according to click on content
Element includes transformer station, cell, screen cabinet, equipment and optical cable;
SPCD physical loop resolves: according to IED logical relation topology, switch ports themselves topological sum SPCD
Level analysis result, carries out SPCD physical loop parsing, resolve including the optical cable annexation between screen cabinet,
The jumping fiber annexation parsing that between screen cabinet, the inside fibre core annexation of optical cable resolves and shields in cabinet.
Secondary system of intelligent substation physical loop file fullpath parsing side the most according to claim 1
Method, it is characterised in that the optical cable annexation between screen cabinet resolves and specifically includes following steps:
A) central display cabinet to be drawn, i.e. center screen cabinet are selected;
B) traversal Cable element, obtains all optical cable information of transformer station;
C) cubicleA and the cubicleB attribute in Cable element is obtained, it is thus achieved that the both sides of all optical cables
Screen cabinet information;
D) information of filter center's screen cabinet, it is thus achieved that the screen cabinet information being connected with center screen cabinet;
E) judge whether the screen cabinet obtained in step d) has identical screen cabinet;
If f) not having, the most automatically drawing optical cable centered by the screen cabinet of Ze Yi center and connecting figure;If having, then merge
Automatically optical cable connection figure is drawn centered by the screen cabinet of screen cabinet block diagram Hou Zaiyi center.
Secondary system of intelligent substation physical loop file fullpath parsing side the most according to claim 2
Method, it is characterised in that the jumping fiber annexation in screen cabinet resolves and specifically includes following steps:
A) connect figure interface at optical cable, select the screen cabinet of internal jumping fiber annexation to be resolved;
B) the jumping fiber IntCore element in traversal screen cabinet;
C) PortA and the PortB attribute of IntCore element is obtained, it is thus achieved that two side apparatus letters of all jumping fibers
Breath;
D) jumping fiber of IED equipment in extraction PortA and PortB is this screen cabinet.
Secondary system of intelligent substation physical loop file fullpath parsing side the most according to claim 2
Method, it is characterised in that between screen cabinet, the inside fibre core annexation of optical cable resolves and specifically includes following steps:
A) optical cable of internal fibre core annexation to be resolved is selected;
B) the Cable element of this optical cable is resolved;
C) the fibre core Core element information in Cable element is obtained;
D) fibre core Core element is resolved one by one;
E) PortA and the PortB information of Core element is obtained;
F) fibre core automatic search algorithm is called: by the fibre core Core of optical cable Cable as point of penetration, respectively
Constantly extend search to A side and B side, finally search the IED equipment of both sides.
Secondary system of intelligent substation physical loop file fullpath parsing side the most according to claim 4
Method, it is characterised in that when A side is IED equipment, fibre core automatic search algorithm is as follows:
A) search of IED equipment-ODF:
A1) B side physical pathway is resolved piecemeal;
A2) if B side is IED equipment, then obtain B side IED equipment and search terminates, otherwise enter next
Step a3);
A3) determine whether ODF, if ODF, then return step a1) continue to search for next section;No
Then, switch cyclic search algorithm is entered;
B) switch cyclic search algorithm:
B1) switch is determined whether, if not then reporting an error;If then entering step b2);
B2) switch ports themselves is analyzed, it may be judged whether have switch concatenation;
B3) if it is not, all terminate after then obtaining all B sides IED equipment;The most then determine whether one
Switch concatenation;
B4) if only one of which switch concatenation, then obtaining this switch b side IED equipment, this switch is searched for
Terminate, enter step b2) start the search of next switch;Otherwise enter step b5);
B5) obtaining all B sides IED equipment of this switch, the search of this switch terminates, and simultaneously enters step
B2) the search all switches of next stage.
Secondary system of intelligent substation physical loop file fullpath parsing side the most according to claim 5
Method, it is characterised in that step b5) in, search only for an all switch of next stage and i.e. terminate.
Secondary system of intelligent substation physical loop file fullpath parsing side the most according to claim 5
Method, it is characterised in that when A side is ODF, fibre core automatic search algorithm is as follows:
01) search for A side physical pathway piecemeal, it may be judged whether be IED equipment, the most then execution is when A side is
Fibre core automatic search algorithm during IED equipment;Otherwise determine whether ODF;
02) if ODF is then back to step 01) continue to search for next section, otherwise judge whether it is exchange
Machine;
03) if not switch then reports an error, otherwise stop the search of A side and start to search for B side;
04) determine whether ODF, if otherwise optical cable connection does not meets actual conditions, otherwise, continue next section
Search;
05) judge whether it is IED equipment, the most then obtain B side IED equipment;Otherwise determine whether
ODF;
06) if ODF, then continue next section and search for and enter step 05);If not ODF, then judge whether
It it is switch;
07) if not switch then reports an error, otherwise judge that this fibre core is as cascade fibre core, it is impossible to draw and terminate.
Secondary system of intelligent substation physical loop file fullpath parsing side the most according to claim 7
Method, it is characterised in that step 05) in, if IED equipment, then obtain B side IED equipment and start
Search A side, it is thus achieved that A side IED equipment.
Secondary system of intelligent substation physical loop file fullpath parsing side the most according to claim 5
Method, it is characterised in that when A side is switch, fibre core automatic search algorithm is as follows:
001) stop the search of A side, start the search of B side, resolve piecemeal;
002) judge whether it is IED equipment, the most then perform fibre core automatic search algorithm from B side;Otherwise
Determine whether ODF;
003) if ODF, then step 001 is entered);If not ODF, then judge whether it is switch;
004) if not switch then reports an error, otherwise judge that this fibre core is as cascade fibre core, it is impossible to draw and terminate.
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