Home

Caneco BT Reference Manual

1. Board equipment calculation options These options make it possible to de rate equipment ratings according to temperature Options for sizing and verification of board circuits If they are unchecked these options make it possible to not calculate and not verify the circuits downstream of the switchboard Caneco BT O This is useful for example in cases where the circuits are calculated under another standard but one wishes to represent them within a Caneco BT project 6 2 9 Specifications tab TD001 on MSB Board Standard Upsteam Cicut Additionaldata Additionalresults Conformity Texts Curve discrimination Coordination Cable Protection Downstream Board UPS Ik dU Impedances Currents Schematic ptions Specifications Equipment brand El Cabinet metal sheets Color Enclosure type Material Position Dimensions H wi Transport separation Aspect IEC 60439 1 EN 60439 1 El Indexes Index IP Index IK Service Factor Other index Plinth Cables sheath El Door Hinge Lock El Engraving Imposed to CCTP According to CCTP According to CCTP According to CCTP At ground level By selection 0 mm 2b 1 1 No Left Standard Label Dutgoing ref Mark Label colour Conduit ref Mark Default options Engraved iv Apply the default values ise For a description of all these fiel
2. Allemand Allemagne Anglais Bavaume Lni Espagnol traditionnel Francais France r Italien Italie Fields name Translated languages List of 1358 fields to translate Aboutissant Affaire AftCaneco400 AffCanecoLight AfficheRiep AffPrix Arh ame AideContexte AjusterCals L End End Project Caneco 400 project Caneco Light project Display Ref Mark Price Project Help Adjust Colomns 17 6 Documents with external files ALPI 2012 For any printing document with an image file in wmf dxf bmp jpg format or text txt rtf it is necessary to set the link between this template and the external file You can see and modify this link in the project specific documents of the project tree To set this link click right on the file link which you attach for this project to the Caneco BT document or folder templatel and use the Replace file command In the example below you can see the Chassis plan document template used in Decree of 10 October 2000 folder template Caneco BT notify that the external file is missing document template is not attached to any other external file In this example you can see a premises plan with earthing system document linked to an external file called track and whose access path is indicated at right Additional documents for printing List of
3. i gaza uses Se SENSN Ee N e Attention don t forget to fill in the inverter data under the UPS tab in the BOARD window The short circuit values 2 and the short circuit withstand time 1 must be updated in accordance with the information provided by the equipment manufacturer This will make it possible to calculate the circuits downstream of the UPS taking the latter s short circuit ratings into account 3 P TD 00i Beard appi by TDOO RJ Boxd UPS kd decadence Curioni ahama pisni Sel ial Miis art ik a n no kis incid 11 1 2 Dual supply UPS The circuit is available in the graphics library under the Circuit blocks tab 1 It is based on a miscellaneous circuit for calculating the network 1 A and a board circuit for calculating the network 2 or By Pass B and filling in the inverter data UPS tab under Board The downstream circuits are obviously entered downstream of the board 98 Uninterruptible power supplies UPS Reference manual ALPI 2012 Caneco BT O Bend L a Sabet Circuit Sole Cacus block DIET a Representation of the UPS network 1 A Representation of the UPS network 1 A and and network 2 or By Pass B in the Board network 2 or By Pass B in the network single line single line diagram diagram e Attention don t forget to fill in the inverter data unde
4. aj SUR m Pipes pn EB phir 5 g b E 7 TE n uu Ey F H 4 i LS ES TS r Asia ba mi T B m si a B amp ga T me 2 Tmi Jane E T i Z LJ E s b i i t r a i 8 x d T F Bil Ba ai a bi k 3 s a Re i e p e Es j AL 4 H ial i I h 2L ML mi f 1 t Li E a T T L E E E EZ E 313 31 ri I EL S f mgr f PIS 4 raat ji deu Rh APF Exi fl L rust Spent Droa Hic Polen Soa a 70 Modifying the diagram of a circuit Reference manual ALPI 2012 Caneco BT O 8 2 2 Creating circuits using style libraries and circuit blocks To create one or more circuits it is possible to use also the circuit style and circuit block libraries Each of these libraries has different proprieties Circuit style library allows to create a single circuit completed with one or more associated circuits not calculated circuits Values of created circuit are initialised depending on rules set for this style The library of circuit blocks allows you to create several circuits as you use the copy paste control Values of created circuits are identical to those of the block circuits To active circuit style and circuit block libraries click on buttons situated at the bottom of the library Haam ICT Whssiaba Liema T i i i k 4e pj m n m Pe m lm d ia oF oo ta ER PY a gk oret ra TIANSE i L 1 Ed Fez i L E i rl Balhae
5. Cabinet production sheet s Reference manual Insertion of additional diagrams for each distribution 145 Caneco BT O ALPI 2012 16 11 Inserting additional diagrams associated with protections A library of additional diagrams representing auxiliary contacts is available from the Additional diagrams tab of the library Results Libraries n m j E g o S alali maa E Ble z kanli 1 ni mur Bm RTP The additional diagrams may be in DWG or wmf format and are found in the following folder C Documents and Settings All Users Application Data ALPI Caneco BT 5 4 ENG Schema An additional diagram is inserted by drag and drop using the Board single line diagram entry tool E 07 s Fiziuk Libsacer Sprbak Ir Dacta Elle Lacu Block Addio diaaramsz os Al M L imotartation Face avant schema do commande in 0 mii Wa Bm KI Fl F Additional diagrams have an attribute to specify the sheet in the control diagram where their wiring will be represented This information is defined in the Text 8 field of the Circuit sheet text tab see below Curve diiinte otidan Labbe r Diceerilicamn LM prize Ceci fader sl Packer ual iecit Condon Teati vem TE The sheet number is i entered in the Text 8 inh field Ir FUD X Bloc de cicuite TEE Boia da biac Aaa De Result obtained 146 Inserting additional diagrams associated with protection
6. Corlomity Tents Downstieam Copy crcut curve Paste a curve Curve discrimination Linstation Dt Limitation Tp Max Up HRA IM Dosen CA BE i t Undo Copy graph Copy circuit curve Paste a curve Curve discrimination Limitation I t Limitation Ip E E 122 Discrimination by Curves on 3 levels Right click on the discrimination by curves tab of circuit A sheet Select the copy the circuit curve command Right click on the discrimination by curves tab of circuit C sheet Select the copy the circuit curve command The figure opposite shows Reference manual ALPI 2012 14 5 Differential Discrimination Caneco BT O The diagnosis of differential discrimination is done according to the following rule Discrimination is total if upstream gt 3x Lgownstream 1 and t upstream t downstream gt 40ms 2 e Discrimination is partial if one of both conditions above is not met Discrimination is nil in all other cases e Discrimination is not relevant if the upstream circuit has no differential Differential discrimination Nil c 5 Label Value A 2 Max lenght 21 m CC s JB 200 0 A S ISTH 73 5 mm 3 Wz 317 9 Z dU Circus 0 30 S dU total 2 13 is Kk2 3 Max 6056 A it Max 3307 A k2 Min 3910 4 S
7. Switch disconnector Equipments 1Y Thermal relay Terminal block Equipment ref marks section Allows you to define prefixes for each type of equipment Default prefixes comply with the EN 60 082 marking standard The Change method of marking button activates the Equipment marking method window to allow a marking method to be selected see next page Reference manual Object ref marks section Defines the prefixes for different objects Various options are available to enhance object marking The Advanced button activates the Advanced circuit prefixes window to enable prefixes to be customised for each type of equipment Advenced prefixes for circuits vi Use a different prefix for each type of equipment Advanced prefixes Motor Board Busbar trunking Socket system Lighting Capacitor Heating Transformer Misc Busbar Numbering terminals 139 Caneco BT O ALPI 2012 16 8 Methods for marking equipment This is where a marking method is selected The zone on the right shows a diagram associated with the selected marking method Device marking methods Choice ol the marking method lor materiale Method N according to the Ine of the circuit CON according to the line of the probectye device COM reflechng the betarchy al the instellation CN refleechng the eraty al the installation 1 level C3 N according ta the line of the displa
8. v Statusbar Display today s trick at start Default options Help Cancel Reference manual Generalities on Preferences 105 Caneco BT O ALPI 2012 12 3 Save tab This item allows you to set saving options Preferences Documenti ali Read password Password for modification Read only recommended New project v Create a modification index v Engineering fields of the project filled with default values v Choice of default manufacturers Save options v Allow quick saving 7 Ask for the project properties v Use Project folder for open and save as files Create a backup file for each change of modification index for each project saving 12 4 Colours tab This item allows you to choose colour for each circuit state e Correct circuit e Circuit to be recalculated e Circuit not OK Section and route colours of a cable tray may be also set in this window Preferences Documenti all Save In Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks Automatic Ref Marks Print Colours Default Values Directories Warnings and remarks Circuits colors Correct Not correct ta be recalculed Sections Route Default options Cancel Help 106 Save tab Reference manual ALPI 2012 Caneco BT O 12 5 Default Values Tab This window enables you t
9. B to create a circuit to the right of the last one created The new circuit is represented automatically on the diagram 1 62 Create one or more circuits Reference manual ALPI 2012 Caneco BT O To entry its characteristics double click on the circuit the Circuit sheet window appears ise See the following chapter Circuit data entry and results The button New circuit becomes Replace circuit when the cursor is on a circuit In this case it is possible to modify the active circuit style Create several circuits To create simultaneously several circuits proceed as above but before you choose the circuit style press and hold the Shift key After you has chosen the circuit style Caneco BT ask you for the number of identical circuits you want to create Number of circuits ta be created Deleting circuits 1 Select the circuit s to be deleted the selection 2 Press the Del key on your keyboard or use must include at least two squares 1 the Windows methods Ctrl X etc i e _ Reference manual Create one or more circuits 63 Caneco BT O ALPI 2012 7 3 Representation of the network single line diagram We has seen in Description of the network single line diagram paragraph how this diagram can be represented from a board and differenced from the active source Other commands can be used to customize the network single line diagram e add labels e delete terminal circuits on
10. LICENSE AGREEMENT means this Agreement including any other document incorporated herein by reference LICENSEE means you the licensee of the SOFTWARE SOFTWARE means Caneco BT software used by the LICENSEE named Caneco BT and or Caneco BT for the purpose of this Licence contract including any technology and utility software licensed by Caneco BT from the developers and owners thereof together with all accompanying documentation 3 LIMITATION OF WARRANTY AND LIABILITY ALPI does not warrant guarantee or make any representations that the functions contained in the SOFTWARE and described in the Manual will meet the LICENSEE s requirements or that the operation of the SOFTWARE will be uninterrupted or error free Any other software and any hardware furnished with or accompanying the SOFTWARE is not warranted by ALPI THE SOFTWARE and the Manual furnished herewith are provided AS IS without warranty of any kind either expressed or implied including but not limited to the implied warranties of merchantability and fitness for a particular purpose or of any other type whether expressed or implied and to any remedy against ALPI and or its licensors whether in contract tort delict quasi delict or otherwise Some jurisdictions do not allow the exclusion of certain implied warranties so the preceding exclusions may not apply To the maximum extent permitted by applicable law in no event shall ALPI and or its licensors be lia
11. 19 1 Generalities on warnings and remarks This chapter concerns warnings and remarks produced by Caneco BT Warnings and remarks have been identified for easier use The identifier is made up of one letter followed by figures e general warnings concerning system or Caneco BT warnings concerning source supply warnings concerning circuits cable and protection warnings concerning boards 000 Warnings and remarks generated by Caneco BT may be saved in the calculation report d xl SUPPLY SUPPLY Check Group factor G22 E Documenti Calculation done on 07 01 2008 10 56 11 lt or shown in a dialog box after you have typed a data entr or a calculation Example MSB cC O02 Circuit consumption compulsory C106 You can personalise these possibilities by means of Preferences command in Tools menu Preferences Save Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks Automatic Ref Marks Print Colors Default Values Directories Warnings and remarks v Display report _ Warnings display v Edit warnings in the report Warnings validation Default options Reference manual Generalities on warnings and remarks 159 Caneco BT O ALPI 2012 19 2 Editing of calculation report Calculation report is a file which fills itself automatically with the data resulting from the last calculations made If the file becomes too large Caneco BT will ask you t
12. 2D 5 sametry i 3D Display Levels Location used only Locations Track references Min height Complete view Max height Fram Scale and view point Size factor 100 0 Rotation amp axis rH Projection angle Rotation Z axis Um aa SS Reference manual Tracks Tab 111 ALPI 2012 Caneco BT O 13 Calculation options 13 1 Calculation Tab Calculation Options Documenti x Calculation Protection Cables Price Tracks Singlecore or multicore separate PE cables Increase SPH Increase SPE Admissible time for protective devices Always lt tables 41 Amps Watt V kw kV kVAR D Thermal setting 0n IB On rating No check of thermal stress for Ik on conductors anon CIAA 48 FF v Surcharges v Voltage drop v Contacts Indirects v Short circuit Default options Cancel Help 13 1 1 Protection of personnel Singlecore or multicore separate PE cables Increase SPH Increase SPE if phase cross section is equal to PE you must seta priority to increase the conductor cross section according to the choice made by ticking Admissible time for protective devices Always lt tables 41 If ticked values from standard board will be applied Circuit breaker Thermal setting On IB d On rating Adjustment of IB allows more favourable cable cross sections In this case ensure that the adjust
13. 5 15 9 Ik2 Max This is the max symmetrical 2 phase short circuit current at the MSB used for determining the breaking capacity of the equipment and for calculating the thermal stresses for 2 phase circuits 5 15 10 Ik1 Max This is the max symmetrical single phase short circuit current at the MSB used for determining the breaking capacity of the equipment and for calculating the thermal stresses for single phase circuits This value is calculated according to the Maximum number of sources in parallel and to the maximum power of HV network short circuit 5 15 11 IK2 Min This is min 2 phase short circuit current IK2 Ik phase phase at the MSB when there is no neutral present 5 15 121K1 Min Single phase minimum short circuit current IK1 IK phase neutral at MSB level when neutral is present minimum short circuit power e This value is calculated according to the min number of supplies in and the HV grid s 5 15 13 If Default short circuit current phase PE at MSB level used to check human protection indirect contacts This value is calculated according to the Minimum number of sources in parallel and to the minimum power of HV network short circuit 46 Results Reference manual ALPI 2012 Caneco BT O 6 Distributions 6 1 General A distribution is a device used to supply other circuits e aboard e a busbar trunking system e atransformer LV LV 6 2 Board windows You can display the Boar
14. Change marking method Switch disconnector Thermal relay ig Default options Cancel Terminals calculation option Incoming terminal _ v Terminal black optimization use all terminals Homa 3 Check the terminal forcing box after calculation Terminals type Not disconnectable Terminal name bb X Terminals N 1 8 Reference manual Numbering terminals 137 Caneco BT O ALPI 2012 Example of terminal block marking and terminal numbering 16 7 2 Numbering associated circuit terminals The number of terminals for an associated circuit is calculated as follows N n1 n2 Where n1 is the number of conductor resulting from Caneco BT s interpretation of the number of conductor of the connecting cable you have defined in the window If you have defined a 2x1 5 cable for the connection with a wall mounted P B within the installation Caneco BT deduces that n1 2 as many terminals as there are conductors If you have written 561 5 Caneco BT deduces from this n1 4 1 PE conductor which will be connected to the earth bar possibly with intermediate terminals depending on terminal option you have selected n2 is the number of additional terminals defined in the associated circuit window 138 Numbering terminals Reference manual ALPI 2012 Automatic Marking The Marking command in the Options menu displays the Rename window Th
15. Circuit spreadsheet Tab This window allows you to set operating mode of the Spreadsheet entry tool Preferences Documenti l E s Automatic Ref Marks Print Colours Default Values Warnings and remarks Display Circuit Spreadsheet Board Single line Diagram Network single line 7 Display the line number w Display Grid Appearance Colour Y Fonts Header Arial A Circuits Arial A Reference manual Automatic reference marks Tab 109 Caneco BT O ALPI 2012 12 11 Board Single line Diagram Tab This window allows you to e Define the options for using the Board Single line Diagram tool e Define the position of the ref marks for terminal blocks and terminals e Display device ref marks as per the EN 60082 standard Preferences Documenti Automatic Ref Marks Colours Default Values Directories Warnings and remarks Save Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks w Display the line number v Display Grid w Display symbols text Ref Marks and Term v Display reference marks according to EM 61082 standarc Terminal block Ret Mark position Terminal Ref Mark position D not visible O nat visible l Underneath the Ref Marks terminals on the left of the symbol C Coupled ta the Ref Marks terminals an the left of the symbol D on the right of the symbol Ci
16. Files itr Circuit breaker files Files ZTR Files of transformer power and impedance Files ZGE Files of alternator power and impedance Reference manual Contents of Caneco BT 11 Caneco BT O ALPI 2012 2 9 Calculation reference 2 9 1 Technical Agreement Caneco BT version 5 has obtained Compliance Approval Certificate no 15L601 under these new terms of reference This Approval Certificate arises out of an examination of the results that covered solely the above mentioned calculation modifications together with the application of the symmetry factor fs Caneco BT version 5 has obtained Approval Certificates for C15 100 Approval Certificate no 15L601 for the RGIE and for BS7671 These Approval Certificates arise out of an examination of the results that covered the calculations in compliance with these standards 2 9 2 The different calculation standards and the different versions of Caneco Principle Caneco BT 4 standards and calculation standards prior to Caneco BT 5 new calculation standard 2 9 3 Caneco 4 project recovery into Caneco BT 5 4 All the circuits of a Caneco 4 project recovered into version 5 are locked Three separated cases must be considered 2 9 4 Case 1 New installation for which the building permit is prior to 31 May 2003 Projects must continue to be dealt with using Caneco 4 2 9 5 Case 2 New installation for which the building permit is later than 31 May 2003 Projects must be dealt
17. If on Board 15240 4 a Calculate Cancel Help 5 8 2 dU origin Voltage drop at beginning of the installation in Theoretically 0 warranted by the provider For the two part rate 5 8 3 I available The current contracted before the electricity provider 5 8 4 Ikon board Max and Min short circuit currents at the MSB making it possible to accurately recalculate the impedances at the switchboard Reference manual Board Source by Ik 35 Caneco BT O ALPI 2012 5 9 Board source by R and X The supply by LV Switchboard applies in the following cases e Installation extension e Multiple supply configuration The design study will then be performed in several design calculations The design calculations will be linked together by copying the impedances that will be injected at the Switchboard supply by R and X j Supply E e SUPPLY o Board supplied MSB Supply Additional Downstr board ETT DH surr Type i BoadbyR amp X v Standard C15100 2002 v Frequency 50 Hz Harmonics HR lt 15 Earthing TN v Conductors 3P PEN v dl origin 0 00 gt system LY Voltage 400 Vw 420V Not standardised Available 455 A current 5 9 1 dU origin Voltage drop at beginning of the installation in Choose values different from 0 only when low voltage supply has a noticeable voltage drop for example e design study for an installa
18. command to create the export files CONDOR WNDN Transfer Options Language fiteiiat List Lists Numerical Alemand Allemagne Espagnol traditionnel Francais France Italien Italie Taking into account associated circuits ASCII Transfer Fields separators with title line Tab Semi column Text identifier Comma Misc Language MEMEH Lists Numerical 7 Numerical Select Literals to enter item names in the Lists field instead of a number indicating their position in the list Example Conductors scrolling field the content 3P N PE is the 2nd in the list Conductors SP4N4PE Reference manual Text export Import Export Pack 157 Caneco BT O ALPI 2012 18 3 Text import Import Export Pack The import text function allows Caneco BT to take account of modifications made in the exchange file e g xls This gives valuable flexibility in cases where the user wishes to enter the circuits for a project directly in Excel modification addition and deletion of circuits Importing the Excel file will apply the necessary updates in the project which is active in Caneco BT the data imported must of course correspond to the active project Import Export Co ration fx Models M Configuration Definition Transfert direction P Basis Export k d Basis Import Mame TEST gt Export TEST Type Encel Transiter TT Ce
19. 5 4 5 Min active supplies in parallel Ik mini are calculated taking into account the minimum number of sources in parallel Caneco BT proposes 1 by default which means that it is possible to have only one source in certain conditions for the installation Usually it is advisable to take the maximum number of sources in parallel minus one Transfo 5 4 6 Source type Five possible choices Genset e Transformer HV LV Dasani e Genset e Board Source by Ik Board by R e Board Source by R and X Supply 2 medium e Power monitored supply D C current e Battery set source DC 5 4 7 Source characteristics They can be obtained e From a file giving sources impedances and standard powers e From Ukr short circuit voltage in 9o for transformers steady state and transient reactances given in to define generating sets Genset or transformer power can in this case be a not standardized power 5 4 8 File This is the name of the standard source characteristics file These files can be completed by means of new files or from source values choose Database from Options menu This function is used to handle equipment database The field is automatically filled and cannot be changed if you choose to define source characteristics from a file Caneco BT version 5 4 displays supply filenames in plain text 5 4 9 Ukr This field can be filled only if you have chosen to define source characteristics from Ukr 32 Source Se
20. Import Loncermed data General Intamabon Supplies Boards and iranetonmmars Busbar burking systems w Circuits Mame File Tracks Calculation parameters Hes Delete Directoy LAC aneco S SVAh ENG 5 3 1 Execute Translate Desi Close Procedure Open the project concerned by the data import Activate the Import Text command Select the required import template Tick Import in the Transfer direction area The Details button gives access to the setting window for import conditions Tick the desired import options creation of new circuits etc Validate the Transfer options window after defining the transfer options Activate the Execute command to update the data for the active project 1 2 3 4 5 6 T 8 Transfer Options Tick the desired update options Transfer Options New elements creation Language Delete not transfered elements Lists Numerical Define the data to be im po rted Taking into account associated circuits Excel Transfer with title line Text identifier Transfered fields Records Available fields Selected fields All fields A Ea TabAmont Circuit RepCir Protective device Consommation Cable Longueur Equipment Jdb amp mont Results ModeCir Miscellaneous TypRecepteur x All fields next lt lt ProtCalibre Close 158 Text import Import Export Pack Reference manual ALPI 2012 Caneco BT O 19 Warnings and remarks
21. a ema Josa 278A 1 tr a a es E a a E a a a E _ BS C 15100 RGIE Certificates example2 hd Normal Standby DB LOGO eee a e e CIRCUIT Entreprise Board Single Line Maintenance 8 cir MSB po palais Fik exampl3 Nomal Stadby DB_VS3AFR BALPICaneoo 5 31 ALPICompktFR 21 156 Graphic export Import Export Pack Reference manual ALPI 2012 Caneco BT O 18 2 Text export Import Export Pack The export text function allows the user to export project data in various text formats Import Export Configuration Models A Configuration Delimnilion Transfert direction Mame TEST ASCH Transfer Basis Export y Basis Import ASC Tranter CSV Transher Facel Trancfer HTML Transfes SUP SL Transfer Boards and transformers Busba turking system Circuke Tracks Calculation paramebers New Delete Execute Translate Ongarize Directors L Caneco 5 Sw ENG 53 1 18 2 1 Procedure Create an export template using the command New Define the export format in the Type field Tick Export in the Transfer direction area Tick the data to be exported in the Concerned data area Specify the file name s to be associated with the data The Details button gives access to the setting window for export files Validate the Transfer options window after defining the transfer options Activate the Execute
22. contains the associated diagrams Country ENG Template contains the project templates Country WBASE which includes Caneco BT database Country ENG CFG one directory per installation language so ENG means English A three character code distinguishes each language It is compulsory to reach target directory for writing reading Frequently Caneco BT reaches CFG directory to store its configuration If there is not enough space on your hard disk or if you prefer to install the software somewhere else choose another path to install the software Click on Browse button Click on Next si See separate appendix Installing Caneco BT 2 7 Uninstalling Caneco BT To uninstall Caneco BT you must proceed as follows Click on uninstall icon the program will ask you to confirm and will delete all files linked to the software on the disk In order to uninstall Caneco BT do not delete successively files and directories You may forget to delete some files stored in the Windows system directory 2 8 Contents of Caneco BT 2 8 1 CFG Directory This is the configuration directory of Caneco BT 10 Uninstalling Caneco BT Reference manual ALPI 2012 Caneco BT O 2 8 2 FOLIOS directory Files inf Description file for document models AO0 inf Network single line AO A3 inf Network single line A3 Fiche inf Detailed calculation sheet for each circuit Folio inf Landscape Folio background Foliov inf Portrait Folio backg
23. dU circuit 96 dU total 96 dU start Ik3 Max Ik2 Max Ik1 Max If Max Ik2 Min Ik1 Min Cable Neutral PE or PEN Criterion Max Length IB A 180 Results window Multi core cable conventional writing or phase conductors if the link is of single core type Examples 4G1 5 means 4 conductors out of which 1 is earth yellow green G ground 3 50 N35 means 3 phase conductors 1 N conductor of 35 mm Neutral conductors conventional writing if the link is of single core type PE PEN conductors conventional writing if the link is of single core type Criterion for the phase cross section calculation MINI Minimal cross section ex 1 5mm2 for Light 2 5 mm2 for Socket motors IN overload condition DU Voltage drop IC Indirect contacts Human protection against electrical shocks SC Thermal stress after Short Circuit FIXED Fixed value by user Cable maximal length to keep protection and circuit design conditions Circuit design current directly deducted from consumption in A Theoretical cross section calculated in mm according to overload condition Current carrying capacity of the link adjusted with correction factors this value gives the maximum protection thermal setting Circuit voltage drop in 9o on the cable length Total Voltage drop in 9o from source supply Voltage drop at start motors or when switching on lights Circuit maximum 3 phase short circuit current at A Circuit maximum 2 phase short
24. lower than the theoretical cross section calculated according to the overload condition See User Manual Standard calculations Overload condition You can remove this tolerance by modifying the corresponding information in the window called up by the Cables command in the Options menu C87 Check the proximity factor KN taking into account the no of conductors phase The proximity factor for your circuit must take into account the fact that your circuit includes several cables per phase In this instance the standard considers that there are as many circuits the number to be taken into consideration when determining the proximity factor as there are conductors per phase in parallel C68 Program cross section search error 170 List of warnings and remarks and suggested remedies Reference manual ALPI 2012 Caneco BT O C89 Attention available power is negative The current distribution switchboard or busbar trunking system does not have a high enough permitted current See User Manual Power requirement Check the simultaneity factor for this distribution e f necessary increase the current of the circuit feeding your distribution this value defines the permitted current in the distribution C90 No cascading table with this choice of manufacturer The general purpose and modular circuit breaker filenames shown in the window called up by the Manufacturers files command from the Options menu do n
25. BT ALPI 2012 13 3 2 Thermal and electrodynamic stress and backup Use of the limitation curves under thermal stress I2 t to calculate cross sections Cen z 3 4 poles Use of the current limitation of c rcuit breakers determination of limited lo peak according to the RMS short circuit current This value is used for verifying Electrodynamic stress for busbar trunking systems e Association coordination with downstream fuses e The electrodynamic stress of the busbar trunking system CBO 2 3 4 poles kA xli ELL ILLIUS LIBE LLL LELLLIEBHLILLIL LLL TS LIU Hus LU LL Hhh L Feet a ccdennibm 13 3 3 Breaking capacity calculated with co ordination association TT and TN earthing system If checked Caneco BT will look for upstream and downstream protective devices with cascading Fuses and switches If checked Caneco BT handles the co ordination between fuse and switch 13 3 4 Switch ise For the description of the two fields see section 15 Circuit breaker switch co ordination 116 Protection Tab Reference manual ALPI 2012 Caneco BT O 14 Discrimination 14 1 Discrimination on Ik Discrimination on Ik takes into account the whole range of overcurrents from overload to the maximum presumed short circuit current The determination of discrimination can be obtained e either from manufacturers tables the method By tables e or by superimposition of protection curves if they exi
26. BT O ALPI 2012 e Minimum and maximum values can be calculated through calculation and HV installation diagram software Caneco HT These two values are sufficient to assure calculation continuity between HV part and LV networks calculated with Caneco BT 5 6 Link section 5 6 1 Mean length between sources and MSB Enter mean length between sources terminals and MSB 5 6 2 Installation method When the wiring system is made of cables cable installation method must be entered Caneco BT proposes installation method on perforated cable trays as default with Standard 5 6 3 Link type Cables or bar sheath 5 6 4 Link nature When the wiring system is made of cables link nature can be copper or aluminium 5 6 5 Cable type Choose the desired cable type 5 6 6 Calculation To Calculate source according to entered values e It is possible to calculate directly the source by a right click on the mouse 5 7 Results forcing Factors Conductors Temperature 1 000 T IE 7 Group 1 010 Loaded Neutral PEN l 1 5 mme REPUTO oen K loaded neut 1 00 Additional 1 00 Case of transformer MSB cable links To fix a value tick corresponding box and enter required value 5 7 1 Temperature factor K temp Temperature factor limiting cable current carrying capacity This default coefficient equals 1 0 which corresponds to a normal ambient temperature 30 C non confined atmosphere with aerial installation method 20 C u
27. BT interface overview Caneco BT user s interface looks like most programs functioning under Windows The action bar on top of the screen displays the eight Caneco BT CANECO BT Actions contained in these menus make it possible to activate an action directly or display a sub menu or Dialog box The tool bar under this menu bar allows direct access to a command in one of the menus ET Die ES Deeply ppb hinienn CQucuss foot Wusdow GE IAM due m THDS Rmi i NX T IDgESMuI ia xy EH GL Noma iappiy A B Mie et ee B V O Not disconnectabl 5s gt in ae Project fokters x e ir Prea rmueryde fo i li 7 H 5ynieih Meaty LTSIT f Mandackaen ii OR Exc a c Debio MSE Cucuit con Sucre doocun Label Value e load ungere m anal 23 Hodian ei LIII a ALL T 7 1 dU tote 0 32 5s 4 C Poet i 3 Max MAITA 1 J fee Maa 23247 ad Moo fe nou e DB 1 Tic Mem 253384 i Fha 25483 i DB 2 be Mi LAS A Mn 11440 4 d tots D Li Mp nS Ma 2108 A ei Maw LSA Tct Max 2341 A lH kipe gi amp a H fcc ns Lee rne i Cici condime Hmmal 5tandb T 70 DH z Winton avadablke neatis CES 1 The project tree old network graph with additional information specific to the project 2 The button for creating one or more circuits on the active switchboard 3 The buttons activating the 3 circuit data entry tools 4 Central screen for entering informat
28. Board supplied MSB suppl impedances Downstream board SS source Power 400 kVA Type Transfo Ukr transfa Supplies Mb 1 mn 2max z Caract from File File IUTESS ZTR Network standard HD384 Frequency B Hz dh TN Conductors 3P PEN SKO Min JU MMA LV Voltage ADV m 420 V HY Prot Funct T 500 ms Sk Mas 500 MV Link Cable Length 10m Type Singlecore file PRC Instal 13 Fertorated tre Core Copper Coefficients Conductors Temperature 1 n Phase 1 240 mme w Group 1 00 PEN 240 mm Loaded Neutral Reference manual Source types 31 Caneco BT O ALPI 2012 5 4 Source Section 5 4 1 Source ref mark The default proposed ref mark is SOURCE It can be modified 5 4 2 Source power Standardized power if source characteristics are given from a file click on the combo box arrow to get the list of standard powers Power can be not normalized if you choose source characteristics from Ukr see above 5 4 3 Number of sources in parallel Caneco BT proposes 1 by default however several supplies may be installed in parallel but operate only in the event of failure of the primary supply 5 4 4 Max active supplies in parallel In Caneco BT elementary sources are considered as identical This data is used to determine Ikmax which makes it possible to propose downstream protective device in case of coupling between several transformers
29. Dh daeonnectable X Tod Ela Dph bod E Pre Lv abaza iartg mo Wia eame higi urria ADO ICA xy TH TJ Addo documer ira Bl Brad agi tines addice xa Hiis ridesar B Pei E HSB mt zm nes a Dg zi 55 3 Project Ios dart imom al Ae l 4 A pop up menu contains the following commands Print distributions Analyse status of distributions balance power requirement etc Example Consumption status DB 1 DB 3 Edit Ckrl AlEJ E Reach the distribution CErl AlE4 A Search CErl AlE4 F Graph consumption 525 amp DELS amp Vertical synoptic Horizontal synoptic Expand all Reduce All Adjust to page New board Ctrl Alt T New transformer Ctrl Alt F New busbar trunking system Ctrl aAlt k Delete distribution Chrl Alk Graphs Reference manual Entry and analysis of distributions using a graph 29 ALPI 2012 Caneco BT O 5 Source creation 5 1 Source types There are three possible choices e Transformer HV LV e Alternators genset supplying a LV source e LV supplies Supervised power connection yellow rate 5 2 Definition of a Source in Caneco BT A project done with Caneco BT can have a maximum of two source types a Normal Source and a Standby Source each being made up of one to 6 sources identical in parallel 5 3 Presentation The New option of File menu displays on the screen the Sources Edition Dialog box which concerns Normal sources G SOURCE
30. Help menu under the option About to see if the module pack concerned is validated 511 Standards file NHM not found The standards file has been deleted in the CFG directory 572 Delete report file If you answer Yes the modifications written into the report file will be deleted If you want to keep these comments you can print or save this data in a text file editable using a word processor for Windows 160 Editing of calculation report Reference manual ALPI 2012 Caneco BT O 513 The report file is getting large Delete the file When you perform an automatic calculation of your whole project the Print report option saves a file name project rap in the working directory This file is limited to 64 kB CANECO asks if you want to delete it or keep it If you keep it the most recent modifications will not be saved S14 Dongle not found Unable to continue Check that your dongle is properly plugged in to the parallel port on your computer If your printer is connected check that its power is on Contact ALPI to check if your dongle is in the correct format S15 No clock available Quit an application that fs running The number of clocks available in Windows has been exceeded Quit an application in order to free up a clock 516 File empty or does not exist Select another file You are trying to use a file that has not been declared in CANECO s parameters usually a manufacturer s file 517 CANECO ha
31. Ki Mn 2410 A z t 2266 A f irMg Max 2008 A IkUpStr DwnStr 6 5 kA 6 1 kA dim Discrimination on Ik Nul Thermal discriminah without RCD discrimination F artial Backup without Path lenght Om Cacut T_O002TDOO1 Circuit Ok IkUpStr DwnStr 6 5 kA 6 1 kA Discrimination on Ik Nul Thermal discriminab Without RCD discrimination Total Backup Without Path lenght Om 5 Label Value A g Max lenght 21 m CC s 18 200 0 A STH 73 5 mm EE liz 317 9 A dU Circut 0 30 fi dU total 2 13 2 3 Max 6056 A I lit Max 3307 k2 Mn 3910 A 5 iki Mn 2410 mI iit 2266 A f irMg Max 2008 A E Total differential discrimination 300 mA 40 ms LP LISSE eee espe Er mS mmm Circuit T O02TDOO1 Circuit confc Libell Valeur A ccu 21m CC 200 0 73 5 mm 317 9 0 30 95 213 6056 4 3307 3910 2410 2266 4 2008 4 6 5 k4 6 1 k S lectivit sur lk Nulle S lectivit thermiqu Sans S lectivit diff rent Totale 30 mA Implantation Face avant Sch ma de commande Reference manual lupstream 300 mA tupstream 30ms laownstream 300 mA tdownstream Oms The two conditions are not met lupstream 300 mA tupstream OMS ldownstream 30 mA tdownstreamn OMS The condition 1 is met The condition 2 is not met lupstream 300 mA tupstream 40ms laownstream 300 mA tdownstream Oms The two conditions 1 and 2
32. Tab 108 12 9 Automatic reference marks Tab 109 12 10 Circuit spreadsheet Tab 109 12 11 Board Single line Diagram Tab 110 12 12 Network single line Tab 110 12 13 Tracks Tab 111 Calculation options 113 13 1 Calculation Tab 113 13 2 Cables Tab 114 13 3 Protection Tab 115 Discrimination 117 14 1 Discrimination on Ik 117 14 2 Discrimination by Tables 118 14 3 Discrimination by Curves 119 14 4 Discrimination by Curves on 3 levels 122 14 5 Differential Discrimination 123 Circuit breaker switch co ordination 125 15 1 General rule 125 15 2 Application in Caneco BT 126 Schematics 131 16 1 Functions of the schematics 131 4 Tableofcontents Reference Manual ALPI 2012 Caneco BT O 16 2 Diagram representation 131 16 3 Insertion of associated circuits in incoming feeders 132 16 4 Enrich the symbol text 132 16 5 Parameter management for associated circuits 133 16 6 Management of ground bar and terminals 134 16 7 Numbering terminals 136 16 8 Methods for marking equipment 140 16 9 Specifying the distribution enclosure 142 16 10 Insertion of additional diagrams for each distribution 144 16 11 Inserting additional diagrams associated with protections 146 Printing 149 17 1 General 149 17 2 Documents models 151 17 3 Print settings 153 17 4 Folder templates 153 17 5 Printing language 154 17 6 Documents with external files 154 Import Export 155 18 1 Graphic export Import Export Pack 155 18 2 Text export Im
33. The upstream circuit conductors do not allow this choice Change the content of the cable or of the busbar trunking system K16 The busbar trunking systems in the catalogue do not allow this choice K21 Out of calculation cable neutral thermal stress The neutral of the circuit feeding your busbar trunking system cannot carry the maximum single phase short circuit current at the input to the busbar trunking system Override the cable s neutral or phase cross section to a higher value Reference manual List of warnings and remarks and suggested remedies 173 Caneco BT O ALPI 2012 K22 Out of calculation cable PE thermal stress The PE of the circuit feeding your busbar trunking system cannot carry the maximum phase PE short circuit current ID at the input to the busbar trunking system Override the cable s PE or phase cross section to a higher value K23 Out of calculation cable Phase thermal stress The phase conductor of the circuit feeding your busbar trunking system cannot carry the maximum 3 phase short circuit current at the input to the busbar trunking system Override the cable s phase conductor cross section to a higher value K24 Out of calculation BBTS neutral thermal stress The neutral of your busbar trunking system cannot carry the maximum single phase short circuit current at the input to the busbar trunking system Override to change the type of busbar trunking system or try to reduce the short circuit current K2
34. a project Search in Project In 4 Search OK Distribution Search fields Ref Mark F Differentiate CAP small Complete words C Add new elements to selection RefMark Upstream Distribution Upstream State Normal Standby Mode Downstream Distribution Downstream _ 4 5 1 Searching for a circuit by its reference mark Simply enter the mark or part of the mark preceded by a in the Search field Search in Project In Circuits Y Search G c amp Search fields Differentiate CAP small Complete words C Add new elements to selection Ref Mark Upstream Distribution Upstream State Normal Standby Mode Downstream Distribution Downstream Madification index e 1 jc 1 MSB Circuit C Normal DB 1 SNC 3 MSB Circuit C Normal DB 3 3 ic 2 MSB Circuit C Normal DB2 4 1C 9 MSB Circuit C Normal BEC 11 DB 1 Circuit C Normal B C 12 DB 1 Circuit C Normal 7 C4 DB 1 Circuit C Normal The OK button starts the search and the circuits matching the search criterion will be displayed in a list A right click on a circuit in the list displays a pop up menu offering various commands Search in Project In Circuits Search C K amp Search fields Differentiate CAP small Complete words C Add new elements to selection RefMark Upstream Distribution Upstream State Normal Standby Mode Downstream D
35. between conductors into account Above three conductors per phase the currents are not shared evenly between the each conductor To allow for this imbalance reduce the proximity factor by at least 20 96 C76 Unknown cable type The cable type entered for your circuit is not in the cable type file for your project CBL This error usual arises when you have imported from an external application Modify the cable type for your circuit or add it to the cable list in the cable cross section file C77 Apply modifications to existing circuits The configuration modification you ve just made may affect some existing circuits If you answer Yes Caneco will regard all the circuits affected by the modification as to be recalculated Hence you will then have to recalculate these circuits which may lead to significant modifications Answer No if you want your modification to only affect new circuits C78 Cable type file not found The cable type file is missing show in the window called up by the Manufacturers files command from the Options menu By default this file is CANECO CBL and is located in the CFG sub directory of the directory where CANECO is installed C79 Busbars ref mark already exists Sub busbars in the same switchboard have the same ref mark Modify the ref mark C80 Incorrect installation method The installation method indicated in your circuit does not appear in the list of installation methods associated with
36. calculate Check the existence of the upstream board and the cable feeding it upstream circuit C10 Short circuit protection is provided by the overload protective device In the configuration window Options menu Cross sections command you have opted for the circuit breaker not to be tripped as a matter of course on Ik Min Your circuit breaker s magnetic trip does not trip when a short circuit occurs at far end of the circuit IK Min See Standard calculations Short circuit protection protection by circuit breaker section C11 Operating current or breaking capacity too high for the type of protective device The type of protective device you have selected does not offer equipment with the current or breaking capacity required If you have selected a modular circuit breaker curve B or C select a general purpose circuit breaker Reference manual List of warnings and remarks and suggested remedies 163 Caneco BT O ALPI 2012 C12 Out of calculation voltage drop condition The voltage drop condition gives a cross section greater than 800 mm and a number of conductors greater than 6 This usually means there is an error you are imposing on your circuit a maximum voltage drop that it is not able to obtain either because this value is too low or because the upstream voltage drop is too great In the latter case recalculate this upstream circuit imposing on it a lower maximum voltage drop or overriding the cross secti
37. caneco BT Calculation and diagrams for Low Voltage electrical installations REFERENCE MANUAL Reference Manual Manual CBT54 INT ENG Caneco BT Version 5 4 Calculation and diagrams for Low Voltage electrical installations www alpi software com 10 2012 ALPI 2012 Caneco BT Table of contents 1 Licence Contract F 2 Installation 9 2 1 Goal of this manual 9 2 2 Prerequisites 9 2 3 Minimum system requirements 9 2 4 System recommended 9 2 5 Protection of Caneco BT 9 2 6 Installation of Caneco BT 9 2 Uninstalling Caneco BT 10 2 8 Contents of Caneco BT 10 2 9 Calculation reference 12 3 Database in EDIELEC format 15 3 1 EDIELEC format 15 3 2 Identification of manufacturer format type 15 3 3 Differences between Caneco 4 format and EDIELEC format 16 3 4 Manufacturer file Information 17 4 Caneco BT Interface 19 4 1 Caneco BT interface overview 19 4 2 Menus 19 4 3 Buttons 21 4 4 Power requirement 22 4 5 The search function 23 4 6 Organising the list of styles 25 4 Circuit entry tools 26 4 8 Maintenance toolbar 27 4 9 Diagram toolbar 28 4 10 A project with Caneco BT 28 4 11 Entry and analysis of distributions using a graph 29 5 Source creation 31 5 1 Source types 31 5 2 Definition of a Source in Caneco BT 31 5 3 Presentation 31 5 4 Source Section 32 5 5 Network section 33 5 6 Link section 34 5 7 Results forcing 34 5 8 Board Source by Ik 35 5 9 Board source by R and X 36 5 10 Power moni
38. circuit We Fora description of all these fields see the Board window paragraph in the Distributions section 44 Downstream board 1 11111 Reference manual ALPI 2012 Caneco BT O 5 14 6 Specifications Supply _ amp SUPPLY Board supplied MSB Supply Additional Downstr board Board Protection UPS Ik dU Currents Schematic Options Specifications Equipment brand Imposed to CCTP El Cabinet metal sheets Color According to CCTP Enclosure type According to CCTP Material According to CCTP Position At ground level Dimension H Ww By selection Omm Transport separation Aspect IEC 60439 1 EN 60439 1 El Indexes Index IP Index IK Service Factor Dther index Plinth Cables sheath El Door v v Default options Apply the default values Cancel Help se For a description of all these fields see paragraph in Schematic section 5 15 Results Display in Results window Menu Display Calculation results Results PEE Circuit C2 Circuit Ok Label Value Cable 5510 Criterium In ax length 79 m IC IB 50 0 STH 9 0 mm IZ 53 8 IB Neutral 50 0 4 STH Neutral 9 0 mm IZ Neutral 53 8 4 dU Circuit 1 26 95 dU total 1 58 95 Ik2 3 Max 4268 4 Iki Wax 2207 4 Ik2 Min 2494 4 Ik1 Min 1525 4 If 1525 A Irhig Max 1269 4 Ik UpStrOwenStr 26 8 ko 4 5 kA Discrimination Total Association With 50 kA M
39. circuits Selection is made as for rows on a spreadsheet software clicking on a first row pressing and holding Shift key then clicking on last row you want to choose So you can copy and paste one or more circuits 9 2 2 Selection of one or more cells Selection is made as for cells on a spreadsheet software clicking on a first cell pressing and holding Shift key then clicking on last cell you want to choose 9 2 3 Cut Copy Paste When you select one or more circuits or one or more cells the Cut Copy Paste commands become active These commands run as in a spreadsheet 74 Edition Commands Reference manual ALPI 2012 10 Detailed circuit calculation window Caneco BT O To display the circuit window you can double click on a circuit or pass through the Circuit Edit menu User can then choose between two display modes e Minimum display e Detailed display 10 1 Minimum display Minimum display shows the minimum data needed to calculate a circuit Circuit sheet C_i on MSB Board Standard Curve discern ton Coordnstion Cable Probechon Dr ewenetream Upstneam Circu Additional Additscnal results Coevicerrahy Text cl Upshemm MSE u Indes Suppl Neemal Conductor 3P H FE Dessgnahion MRiO0F TM100D 1004 4P3T 5S hoil circuil protection 1 lig 100A Delayed Delap Caelfsicients Temperature Type FRE Prosimily 0 72 Core Copper
40. default editor e g AutoCAD The New command opens a drawing editor to create the required diagram The Reload file allows an image to be updated The File name format command opens a window for defining the composition of a file name and the file extension 144 Insertion of additional diagrams for each distribution Reference manual ALPI 2012 File name File name composition mo 2 Mame dist SCH EF Caneco BT The additional diagram to be printed is made from the Board single line diagram parameters which is opened by clicking the Details button associated with the single line diagram in the Document tab of the Print manager window Documents Folders Translation Documents A Composition a Definition 2 Calculation sheet Distribution Calculation sheet 3 cin PTT irs ree tema ET UE PSU LS CLE E v Conformity sheet Print settings E Conformity sheet 4c Parametrers sheet v Board single line contr Board Single Line Site Replace equipment symbols by default symbol Board Single Line Site Associated documents M Board Single Line Mai iV Print a production sheet for the cabinet before each distribution Board Single Line Mai v Board Single Line ind Board Single Line ind V Print an image document after each distribution Board Single Line Cab E When there are not outlets in the distribution V Print a page
41. designation Diversity Simultaneity factor for circuits fed by the considered board Equipment geographical location Board Earthing system TT TNC TNS IT between phase and neutral ina single phase board Phase Neutral between phases in other cases No load voltage in V used to calculate Ik3 Max Circuit Upstream ref mark feeding board Board breaking device generally a switching device in distribution boards Nature of the human protection against electrical shock RCD Allowed current downstream board Available current downstream board Design current IB sum of all circuits issued from the board multiplied by the board diversity simultaneity factor Mean cosinus phi at board level taking into account downstream circuits and eventual capacitors Ration between sum of Z of downstream circuits IZ calculated without taking into account group factor and upstream thermal relay setting 20 6 UPS Glossary Power Power in kVA Tsc sustaining time of the UPS in ms Ik3 Maximum three phase short circuit current in A IK2 Maximum two phase short circuit current in A Ik1 Maximum single phase short circuit current in A If Fault current phase PE in A Reference Manual Board Glossary 181 CLL I international electrical design software 1 boulevard Charles de Gaulle 92 07 COLOMBES CEDEX FRANCE Tel 33 1 47 52 97 27 Fax 33 1 47 52 95 60 www alpi software com info alpi soffware com
42. discrimination limit and if the upstream downstream thermal curves intersect the thermal discrimination result will be Not calculated The discrimination on Ik will be equal to the limit indicated by the table see example 1 If the upstream protection is electronic use of the tables is only possible if the access conditions defined by the manufacturer are present Im setting Inst on off etc In the opposite case the discrimination will be defined automatically by superimposition of the curves e Example 1 1083 5000 LoT O8SJBS ooo 1000 500 0 085 0 05 001 0005 dkMakAmeBERA 0000 ikh ax Avz8 Bk m IkMin Av 3 6kA Ik kA 0 01 005 01 016 05 1 5 10 5 Upstream protection DT 40 32A Downstream protection DT4O 16A The table provides a discrimination limit of 0 25 kA The thermal curves intersect and there is no thermal discrimination The figure below shows the Caneco BT diagnosis If 3607 A IrMg Max Ik UpStr DwnStr 8 6 kA G 6 kA Discrimination on Ik 1 0 2 51A yermal discrimination Non Calc RCD discrimination Without l gt 118 Discrimination by Tables Reference manual ALPI 2012 Caneco BT O 14 3 Discrimination by Curves Discrimination will be determined by superimposition of curves in the following cases e The selected discrimination option is By Curves e No value in the tables or the conditions of access to t
43. displays cascading WITH lcm or Icw Associated in kA in the results window Resulte Libraries Label Cable Neutral PE or PEN Criterion IM Max length IB 63 0 A STH 7 6 mm IZ 747A dU circuit 0 00 du total 0 30 Ik3 Max 209396 A Ik Max 18183 A Iki Max 19477 A If Max Tk Min 15163 A Ik1Min 15239 A If IrMg Max 15153 A Tk Am Av 21 0 kA 21 0 kA Discrimination Type Discrimnation on Ik Not calculated ermal discrimination Mot Calc ential discrimination Not Applicable Association With 25 kA alo n k Icm Making capacity of the switch or switch fuse Ip pk Peak current limited by the protective device or non limited n crest factor Reference manual Caneco BT O the TN NTH protective qi Y em Ei dius the Application in Caneco BT 127 Caneco BT O ALPI 2012 e Example Upstream circuit breaker NG125N 63A 4P4D The INS63 switch handles an Icm of 15 kA and an lcw of 25 kA in CO rdination with the upstream circuit breaker pau i 7a Dmm ED elim TRU Baz e Oe E ee a Ar Pre PRE tERREe eee VP il Pit and Piel Arm Ard nma emat PES Ped IL E ESE L LEUESESECRU unuuuvUvEUTUOUTUY px uunc uuu dad ann im Dmden P GRE uam 3 PT Tagan tud HE ot Hem isIE Ber aM Ge eb Bee BREER PETERE ur a INS63 is non compliant as the Icm 15 kA lt Ip peak limited or non limited 44 09 kA By virtue of the co ordination wit
44. en the right of the symbol Default options ox Cancel Help 12 12 Network single line Tab This window allows you to Set operating mode for the Network single line entry tool Display circuit and distribution labels Set a background colour for each label type Set fields for each label Display field wording Set label attributes and field fonts 110 Board Single line Diagram Tab Reference manual ALPI 2012 Caneco BT O Preferences Documenti Network single line iv Display labels Iw Display the complete tree iw Display final circuits Displa iv Display supplies labels LC D grad Titre actif Iv Display distribution labels TS Active Border iv Display circuits labels CL Money Green Fields selection Records Available fields Selected fields Sources Circuit Prot Device Busbar trunking ystems Protective device Consumption Boards Cable Lenath Equipment Cable Type Results E EE Ed E E EH H Miscellaneous Presentation Display wordings Iw Display a border iw Display a shadow under the border Label font Labels width Cancel EEE 12 13 Tracks Tab This window allows you to set display parameters for cable trays Preferences Documenti gt Automatic Ref Marks Default Values Warnings and remarks Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks Data entry grid M Iv Display Grid Fonts Header Cres amp
45. folders x Document title File File Type Pres Path Size i Project example2 No is General drawing Pavillon wmf Image WMF Yes C Documents and Settings All Users 599 Ko EJ Symbols library Glossary Glossary Canec Format RTF Yes C Documents and Settings 4ll Users 249 Ko i aft U wmf Image WMF Yes C Documents and Settings 4ll Users 105 Ko af Manufacturers fil open ss x m ical specif Format RTF Yes C Documents and Settings 4ll Users 13 Ko itional docurr Replace file e Board single line Display gt aa Modification inde Project MSB amp m DB 1 amp m DB 2 amp mj DB 3 154 Printing language Reference manual ALPI 2012 18 Import Export Caneco BT offers import and export functions for text and graphics The commands are accessible from the File option in the main menu Document1 4 A E Caneco BT O Gij File Edit Display Supplies Distribution Circuits Tools Windows te cu pen Ctrl O 35 43 Pr Close Pro al Save Criss Irc uil All styles i Save as Save a model Import Export i D P Preview a Print 5 H Page setup Graphic Ctrl P Layout Jmm 7 18 1 Graphic export Import Export Pack Folders and documents CJ Preliminary study folder Studies folder G Control folder Legal Documentation C detailled bord folder CJ Project folder E network graphic Network
46. in upstream distribution unable to calculate Check the validity of the upstream circuit T9 Selection not possible on a circuit fed from the first switchboard T10 Deleting a switchboard Attention All the circuits fed from this distribution will also be deleted 711 Downstream switchboard incorrect as the types of the supply circuit conductors are incompatible This switchboard is connected by 2 circuits with incompatible conductors Reference manual List of warnings and remarks and suggested remedies 175 ALPI 2012 Caneco BT O 20 Glossary 20 1 Source Glossary Power File Ukr Xd Xo Network LV Voltage Frequency Funct T Prot HV Pcc HV Min Pcc HV Max Factors Temperature K T Group K prox oymmetrical fs Conductors Phase PEN Po RA Input from motors Ratio Ib connection In Supply Loaded Neutral Results IB STH dU total Ik3 Max Ik2 Max Ik1 Max Ik2 Min Ik1 Min If Reference Manual Source standardized Power in KVA 1 to 2500 kVA Dry95 ZTR File for dry transformers Oil95 ZTR File for oil transformers Short circuit voltage in 9o Transient direct Reactance in standard 30 Steady state direct Reactance in 9o standard 6 Source operating voltage between phases on load default 400V No load voltage is equal to 1 05 times operating voltage Network frequency 50Hz or 60Hz Operating time for HV protective device at transformer HV LV primary level High
47. installation 50 Hz For 60 Hz Caneco BT increases reactances for cables and equipments by a factor of 1 2 5 5 6 Polarity Type of Network Three phase or Single phase 5 5 7 T Func Prot HV HV Protection functioning Time ms 5 5 8 Harmonics According to standard calculation does not take harmonics into account It is user s responsibility to entry manually the factors to be taken into account or to impose appropriate values for protection devices and cables This calculation is possible only with french standard NFC15 100 02 2002 for which calculation rules have been defined e Harmonics Rate lt 15 Neutral cross section reduction possible e 15 lt Harmonics Rate lt 33 No Neutral cross section reduction e Harmonics Rate gt 33 Increase of Phase and Neutral cross section 5 5 9 Short circuit HV power Updated short circuit power values are proposed by default in Caneco BT version 5 4 Maximum power SkQ Max The default value of 433 MVA the short circuit power for the 20 kV grid can be modified Choose lower values in order to allow for e g high impedance overhead LV lines This parameter has only a small effect on the Ik calculations Minimum power SkQ Min Enter a value different from the maximum value where your supply is a transformer supplied at HV and if the HV supply is backed up by alternators In this case enter the short circuit power of these alternators Reference manual Network section 33 Caneco
48. into account all standard criteria If you want to force this value enter the PE PEN number of conductors for the link then the cross section in mm2 Loaded Neutral To apply an additional factor to current carrying capacity if Neutral is loaded 10 4 5 Equipment topics ECLODI a Peimaneni Slat Bi Consumption 2 Bw Use 1 Cos phi 032 Cos phi O32 Locator T HA ca 155 Diversity 1 dU mas amp X IDAN 1 00 Ref Mark of the equipment 1 V5 For the distribution circuits board LV LV transformer busbar trunking system you can modify directly the distribution ref mark fed Equipment number Enter the equipment number 2 You can also design circuits feeding several pieces of equipment Example 12 lighting devices of 2 36 W Total circuit consumption equals to Total circuit power number of equipments consumption where consumption is defined as follows Consumption Enter the consumption for each equipment current or consumed electrical power or standard power Power can be entered in A W kW kVA consistency of the chosen unit is checked according to selected equipment type e Ex KVA are forbidden for motors The arrow at right from this field makes allows to open the standard power list which related to the circuit style e lf the circuit style is based on Caneco BT motor style the standard powers are motor mechanical powers e lf the circuit style is based on Caneco BT Lighting style standard powers
49. is only verified if circuit breaker switch co ordination is not requested or if there are no co ordination tables or no value in the table This verification Icw x t 2 op x t op is in addition to verifying the fuse s Icm and lcu if it is a switch fuse Each manufacturer gives Icw values associated with a time but if this is not the case according to the 947 3 standard a value of lcw 12 In for 1 second must be considered for the verification Reference manual Application in Caneco BT 129 ALPI 2012 Caneco BT O 16 Schematics 16 1 Functions of the schematics The functions of the schematics are only effective in the BOARD SINGLE LINE DIAGRAM entry tool in Print preview mode In addition to the possibilities offered by Caneco BT like creating new styles creating circuit blocks creating new symbols etc a number of more advanced features are also available Inserting associated circuits in incoming feeders Management of parameters for associated circuits Ground bar management Management of terminals and their numbering Automatic marking of circuits and components Support of the EN 60 082 marking standard Insertion of additional diagrams for each distribution control layout cabinet front panel Definition of the specifications of a cabinet and print out of the associated manufacturing sheet Insertion of auxiliary diagrams associated with protections Diagram 16 2 Diagram representation 16 2 1 Representation
50. it br eaker Inside cantral Layout equipment Proposed Location According to Drawing Wires O Outgoing D Equipment Earth O terminals Jg ComroutatorsBar Bl Indifferent ring O Strand 0 Conduit Bl Indifferent Busbarohase Splitter O Polybloc O Multiclip O Splitter El Indifferent Ct hers Ref Mark r3 m Respect of CCTP Yes El sheet of manufacture present to close properly to the board Notices cabire production chee ESE PROJECT N DRAWING HP Ay 3 a Reference manual opecifying the distribution enclosure 143 Caneco BT O ALPI 2012 16 10 Insertion of additional diagrams for each distribution The following additional diagrams can be associated with each distribution e Cabinet layout e Front panel of cabinet e Control diagram These diagrams can be created in formats such as DWG wmf etc The files containing the diagrams must have a name identical to the distribution ref mark followed by a suffix corresponding on the type of diagram to be inserted FAV IMP or SCH They must be saved in the same folder as the project e Example of a control diagram in DWG format associated with TD1 distribution panel Taimiras kas ure LA a H IE Byl ped dees eed VL url viria ini rima a ma o sape mm TEE A contextual menu allows a certain number of commands a Propet Tani E PRETEGC M 32H m Ms H Da saama rides LP S Chbdusgi i The Edit command opens a diagram in the
51. item corresponds a tab containing options to set up Preferences Documenti _j Automatic Ref Marks Print Colours Default Values Directories Warnings and remarks Save Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks v Display dialogs help v Display network graphic v Display the calculations and results window Libraries v Display libraries Library Symbols size Small D Big Circuit or symbol selection Click Drag and Drop General v Last files used 5 gt file s v Statusbar Display today s trick at start Default options Lo I Cancel Help 12 2 Display tab This window enables you e To set acquisition and navigation context To set use mode for symbol library To display status bar To set the number of files used which will be displayed in File window To enable the Today s trick at start window Preferences Documenti ali Automatic Ref Marks Print Colours Default Values Directories Wamings and remarks Save Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks v Display dialogs help v Display network graphic v Display the calculations and results window Libraries v Display libraries Library Symbols size 9 Small Big Circuit or symbol selection Click Drag and Drop General V Last files used 5 7 file s
52. legends option 2 Labels size You may modify the label width modifying the column width reserved to them 1 64 Representation of the network single line diagram Reference manual ALPI 2012 Ex e ie mum T T a a Caneco BT TGNT TUNTEET E E Modification is applied to all labels of the network single line diagram Delete final circuit display In large projects with a large number of distributions network single line diagram may be used difficulty You can then e do not represent whole tree but the active board only e represent circuits supplying distributions only boards busbar trunking systems or LV LV transformers All these commands are in Tools Preferences menu Editors tools tab Example By unchecking the Display terminal circuits option 1 you limit the diagram to the circuits feeding distributions Preferences Documenti afr 4 Ka Aiba Aled Moa Firid ok Det acit V adc Duechone Warangs and haria Dapy Cacub Spneadihe Eoad Sitina Chega Mehek arine Jiska Weaiemk Imne Iu LETTI ea M L V Dapis lbe wt Dapy ina circuli ipis Gred y Dep puppet latak wv Dp n label we Dare feline tancaal Ihe Fal zrebecln Fieccadz Ku ef Hows Sources Bush trunkani tystemmt Board amp j Pralecinenm ihren Bj Lablin E Enenpimont E Herul Mrzcelarnecrus D gr
53. m 1035 v Ji Setup E Document amp Print Margins Close Modification L eat Set m 400 v DISTRIBUTI Te Upstream D s work SL Mormal indby 115473A ITotal 515 mme f ae e Mak Cable SOURCE SOURCE SS ES SS aulpment Ret Mak DB 1 5B 3 05 2 Nb Consumption 1 400KVA 1 400KVA 1 100A dda o ooo 150A Howa 10KVAR _ _ _ ___ Suppl INomal j Normal Nomal CC Normal Up st BB Hp q 9 Heimat emi M Install XLPE XLPE 1 eR sth Coppel Max prot L ooo mm o c ammesso oo 0m ee 85 m CI U Total 0 32 0 32 0 78 0 84 Cable 3X 1X240 3X 1X240 4x50 635 5625 Next Page ei Ld 1 Last page PE PEN 1X240 1 i oe MUNERE Setup ip Jiz eC FA TCA BFA 10000 A 11421A 50 00K 75 35A 150 004 F f i Ik3 Max 26837 A 11440 A 258374 114404 452448 A 7396 oisaa 4858 20120 A 5 Print Ctrl P Ik1 Min 114401 A 141440 1 A 5893 A 54038 A 3372 A 3372A 8246 A 604 P IDEGnminsHon ear L ee tee cue meme mers Save as a WMF Windows metafile NSA EON p Type gt Rating prn fesoa 87809 jeson 57800 moa pooo esa 6500100 A 160 00 28a 2200 1 1 1 sit 5 700 5700 125600 aooo 31320600 COD CC Cd psa Ling max ame joa ams joa Jaen
54. not known in the range selected 166 List of warnings and remarks and suggested remedies Reference manual ALPI 2012 Caneco BT O C52 Selecting a curve B c rcuit breaker might reduce your cross section The short circuit currents IkMin or ID are not high enough to trip your circuit breaker s magnetic trip Caneco has therefore increased the cross section to achieve this tripping Select a curve B circuit breaker is this is possible and verify if this reduces your cross section Choosing an SPEB or protective equipotential bonding of exposed conductive parts may also be advised if the criterion for determining your cable is IC protection against indirect contact C53 This rating appears too high for a modular circuit breaker Opt for a general purpose circuit breaker C54 The cross section is non standard C55 Very unfavourable calculation criterion Remember that the program calculates the phase cross section and number of conductors according to 4 criteria Overload condition IN This determines a minimum STH cross section to carry the maximum continuous current liable to not trip the protective device Voltage drop DU criterion e Human protection against indirect contact IC criterion Heating of the conductor following a short circuit SC criterion The cross section adopted is that for the most unfavourable criterion If this differs by more than 2 cross sections from the most unfavourable of the other criteria me
55. project Some sub busbar circuits are looped within the same distribution Check the circuits interconnections Reference manual List of warnings and remarks and suggested remedies 171 Caneco BT ALPI 2012 C103 The switchboard ref mark does not exist C104 Looped switchboards C105 System library read error C106 Consumption of circuit is obligatory Enter a consumption in amps kW kVA or in the form of a standard power C107 Delete the circuits fed from the downstream distribution first Deleting a distribution means the circuits fed from it will be deleted too C108 Impossible to create a busbar trunking system circuit on this distribution It is not possible to create a busbar trunking system downstream of a Standby supply The upstream circuit must be N or N S C109 You are not allowed to create a transformer circuit from this distribution It is not possible to create a low voltage transformer downstream of a Standby supply only The upstream circuit must be N or N S C110 Impossible to redirect the Standby Several switchboards are fed with N and S separately Look for the Standby circuits feeding these switchboards and redirect them C111 Impossible to redirect the Standby Look for circuit XXXX and redirect it C112 Switchboard XXXX contains circuits Delete these or redirect the Standby from them C113 Risks of looping Caneco does not calculate looped networks C114 Upstream switchboard forbidden C115 Inc
56. protection ou au maximum support par la liaison IZ du c ble pour les r cepteurs ne n cessitant pas d tre prot g contre les surcharges If you want to force this value enter the value which characterizes the protection against overloads e thermal relay setting when protection is a circuit breaker gM th or g1 th fuse e fuse rating when protection is a fuse g1 Reference manual Circuit Tab 79 Caneco BT O ALPI 2012 Thermal Protection Overload protection Short circuit protection Rating Ting m asd i EE Impact of choice of position of thermal circuit breaker e Upstream of the busbar trunking Cross section calculated according to the protection of the upstream circuit e Downstream of the busbar trunking The cable cross section will be calculated according to In or thermal adjustment for a circuit breaker or I2 for a gG fuse value to be entered by the user if the protection is not defined in Caneco BT Irmg or IN protection against SC Circuit breaker magnetic setting or fuse rating insuring protection against short circuits e For a circuit breaker magnetic setting is set to the maximum value compatible with circuit breaker and insuring opening with the smallest of the minimum short circuits If or IK1 or Ik2 e f you want to force this value enter the value which characterises the protection against short circuits magnetic setting when protection is a general purpose circuit breaker Gen CBrk or a mo
57. sal Lary nes In the same way you can create several circuits from the circuit block library e The circuit style and circuit block libraries are also used in network and board single line editors Reference manual Modifying the diagram of a circuit 71 Caneco BT O ALPI 2012 8 2 3 Creating new blocks of inverter circuits with built in LV LV transformers SOURCE SECOURS DIV0OS TROO1 AS_003 TROO2 8 3 Edition Commands 8 3 1 Selection of one or more circuits Selection is made as for columns on a spreadsheet software clicking on a first column pressing and holding Shift key then clicking on last column you want to choose 8 3 2 Cut Copy Paste When several circuits are selected the Cut Copy Paste commands become active These commands run as in a spreadsheet 8 3 8 Enriching the circuit style and circuit bloc libraries To enrich the circuit style and circuit bloc libraries select the circuits you want include in the library and use the slide release control to slide them into the library Caneco BT opens a window allowing you to set in the library the identification of the created circuit block The circuit style and circuit block libraries are also enriched from the network and board single line editors 8 3 4 Inserting additional diagrams see DIAGRAMS section 72 Edition Commands Reference manual ALPI 2012 Caneco BT O 9 Spreadsheet Tool This entry tool is especially suitable to ente
58. styles Y 0 ml ASI R seau 1 2 Bm s E 7 3 1 CE zer 2 10A Z 4 i s v TN v 6 aov ET X Cancel Ctrl Z L ki Cut Ctrl X 9 Copy Ctrl C t f Paste Ctrl V 10 X Delete Del Edit Ctrl E New circuit gt 11 Information on active distribution 5 g E ve Automatic Calculation F8 s m s a o 2 u a Data entry options Symbol properties Tr Insert page break Insert a blank page Diagrams Lock Unlock 11 1 3 Dual supply UPS with isolating transformer The circuit is available in the graphics library under the Circuit blocks tab 1 It is based on a miscellaneous circuit for calculating the network 1 A cross section and protective device and an LV LV transformer circuit for calculating the network 2 or By Pass B cross section and protective device and filling in the inverter data UPS tab of the LV LV transformer 100 Uninterruptible power supplies UPS Reference manual ALPI 2012 Caneco BT O The data for the downstream circuits will obviously be entered downstream of the LV LV transformer and the calculation rules are the same as for the previous cases i Fr E Representation in the network single line diagram Representation in the Board single line diagram XD w TOT EHE E TOGIT TEUOR 3 SoCH aie IF OLS BOL Reference manual Uninterruptible power supplies UPS 101 Caneco BT O ALPI 2012 11 2 R
59. the diagram 7 3 1 Labels A label is a wording made up of data or results and attached to the source a distribution or a circuit To create and define labels select the menu Tools Preferences and then Network single line tab Preferences Documenti at Aa i amn Fulom Fel Mad Prin Dokar De auk Valuer Diectoes Wiamingi and semuke Save Display Cicub Speeadiheet BowdSingelne Diagram Network mngieine Tracks vf Duplag Grid piy abali vw Depis the complete bee v Display final croua ETT ND Display v Display vupple abel C3 Dyr Tia acti v Dispis datrbouhon abel C Actes Borde w Dipia cacam labeir LL Mense teen Fields selection Record Ki Bailable feii Selected heki C E gt Source Lincuit Prot Derice Hubo iunior zyzlenmir Proteciree dewice Lonsumphon Boards Cathe z Length Eqinpment Cable Tope Hezultz Cathe Mircellareaut Haia se PE PEN Disi venecian v Displs a border v Dupelss s ihsdos undei the bordel Label fort Anal A Label width Died aut opponz Records Choice of information kind to be displayed Circuits Sources Boards Available fields List of fields which can be displayed among all record fields or from fields categories Selected fields Includes all selected fields for display Select the fields with the appropriate arrows Labels displaying Check the Display labels option 1 The label legends can be displayed by checking the Display
60. this matter Additional factor K Addit Enter additional downgrading factor for current carrying capacity depending on external conditions This factor is not standardised it can be fixed by the user Symmetrical factor fs Apply a symmetrical factor fs 0 8 if need and if the number of conductors per phase gt 1 according to NFC 15 100 standard only Reference manual Circuit Tab 81 CancoBTO 0 ALPI 2012 10 4 4 Results fixing topic 1 Conductors Phase 1m 1 5 mnf Neutral Jum 1 5 mm PE 1H 1 5 mn Results which may be fixed are values calculated by Caneco BT which you can eventually adapt to existing data It concerns cables and protection To force one data you must tick the box on the left of this data You can cancel fixing by clicking again on the check box When a value is fixed it is checked by Caneco BT Conductors Phase The smallest calculated phase cross section of the link taking into account all standard criteria lf you want to force this value enter the number of conductors per phase for the link then the cross section for each phase Conductors Neutral The smallest calculated neutral cross section of the link taking into account all standard criteria If you want to force this value enter the neutral number of conductors for the link then the cross section for neutral Conductors PE or PEN The smallest calculated PE PEN cross section of the link taking
61. 0112 2011 UE 72013 06771 2303 us Sarena JAHL UH T L dl ec gemens QUE TH mni A be Serer SUE SU a E de lec hares z A n FFA E After you have chosen an equipment the Information tab indicates the characteristics of the used file ts qd sg i c Laie Fe Po erie Cotaloque 2004 2005 Electrician 2008 shank mem voeem um Reference manual EDIELEC format 15 Caneco BT O ALPI 2012 3 3 Differences between Caneco 4 format and EDIELEC format Circuit breaker choice in catalogue Catalogue 7004 7009 Electricien Z006 Chose iniormations Shes Technology Moulded Cate Rated curert 1004 Eieleace M amp gnelo thermali Thermal Protection Salati Fi r listare Min Cond EK D vesahing lor DC linctart Max OA UF Der Coond ur es es nitas No Pise ia Rave 2 e E In this general purpose circuit breaker example the red surrounded information is e entered in the EDIELEC format e non existent in a Caneco 4 format This means that this information is not taken into account for calculation 3 3 1 Information about short circuit protection This concerns Min 20 ms and Max 350 ms delays on short circuit protection When you indicate the delay adjustment on a circuit breaker of this model Caneco BT checks if this adjustment is in possible limits between 20 ms and 350 ms Moreover Caneco BT selects automatically the more appr
62. 13798 4 Iki Max 11799 A IF Max 9968 4 Tk Min 11196 4 Ik1 Min 9057 4 IF F503 A IrMg Max 6521 4 Ik Amfay 21 0 b4 15 9 EA Type de s lectivit Par Courbes S lectivit sur Ik I3 84kA S lectivit thermique Avec 1000 500 SXT6OFMicrologic 2 2 160A N 0 01 I I IkMax Av TBRA kMin Av 5kA 0 001 01 05 1 38 5 10 5 Ik kA D Since Caneco BT does not handle the Reflex zone of moulded case circuit breakers in this case the discrimination limit is therefore 3 84 kA end of the curve before the Reflex zone e Example 3 Using the Curve discrimination with limited Ik option Discrimination calculation Method 14 3 1 1 Option not checked Ea Fram Table Ean cuise Cure discrimination with limited Ik In this case the calculated short circuit values are used Tb LI i1 NSX160FMicrolagic 2 2 1504 Ma Lulli cL LLEEG The graphical analysis shows that ESHA Ae e ee e E discrimination is nil Caneco diagnosis 3 84kA Discrimination up to 3 84 kA not handled above this value Ik3 Max 11427 A Ik2 Max 9957 A Iki Max 7233 4 If Max 5482 4 i E Tk Min 7755 4 kMax Ame 18k j a ese Ikl m 53aa A IF 4005 A 0 001 0 01 005 01 05 1 385 10 s0 is Ir g Max Ik Am Av 15 9 kA 11 5 k Type de s lectivit Par Courbes S lectivite sur Ik 1 3 84k A 7 Selectivit thermique Avec 120 Discrimination by C
63. 4x E Spreadsheet v Board Single line Diagram lt Network Single line Diagram Tracks ES ES TESTES TES amp m Caneco Draw Reset Toolbar Customize Reference manual Buttons 21 Caneco BT O ALPI 2012 4 4 Power requirement If the Power requirement Phase balancing function is present Expert version the automatic calculation will be preceded by a display of the power requirement window The user can then if required enforce the power value entered for one or more boards by ticking the IB box and continue the calculation after validation of the window Caneco BT will display a list of the non balanced distributions if deviation gt 10 before performing the calculation For the new way of operating 3 options have been added e One option Including sub busbars in the Adjust currents box If this option is checked 2 the current adjustment for sub busbars is handled in the same way as for distributions at present e Two option defining the method for calculating the power requirement for distributions and sub busbars e Calculation of the power requirement using the average value of the phases 3 The calculation is performed as at present on the average currents without taking phase imbalance into account e Calculation of the power requirement using the of the most heavily loaded phase 3 The calculation is performed using t
64. 5 Out of calculation BBTS PE thermal stress The PE of your busbar trunking system cannot carry the maximum phase PE short circuit current ID at the input to the busbar trunking system Override to change the type of busbar trunking system or try to reduce the short circuit current K26 Out of calculation BBTS Phase thermal stress The phase conductor of your busbar trunking system cannot carry the maximum 3 phase short circuit current at the input to the busbar trunking system Override to change the type of busbar trunking system or try to reduce the short circuit current K28 Out of calculation personnel protection The impedance of the Phase PE fault loop is too high to ensure personnel are protected from indirect contact Where necessary increase the cable s PE and phase conductors or try to provide personnel protection using a differential device or SPEB or overall equipotentiality K29 Out of calculation magnetic trip set too high neutral The impedance of the Phase Neutral fault loop is too high to ensure the magnetic unit will trip Where necessary increase the cable s neutral and phase conductors or adjust your magnetic trip to a lower value or select a circuit breaker with a low magnetic trip value K30 Out of calculation magnetic trip set too high PE Your magnetic trip unit does not provide adequate breaking to protect your PE K31 Out of calculation magnetic trip set too high Phase Your magnetic trip unit doe
65. 55 Caneco BT O ALPI 2012 Export extent All pages Selected pages Documents parameters T NTZEUPUSUNRUITURUER 5 Optimized the same number of rows and columns Language Anglais Havaume L vi CO In rows all folios are laid out on only a row Date 22 04 2009 d Drawing or Document CO In columns EN Number DF file setup Create a file per folio Folios layout Choose folio layout Create a file per distribution 5 Create only a file for all folios Folios presentation spread out stacked em Different export options can be selected Caneco BT creates files according to the options selected You can then modify them using a suitable editor e g AutoCAD for DXF files When creating a single file for all the sheets the user can select the presentation and layout of the sheets If you wish to complete the Caneco BT diagrams using AutoCAD or another DXF editor itis advisable to create a special layer for the additions so as to avoid modifying the original Caneco BT layers previously allocate the space necessary in Caneco for the diagram additions To this end you can use blank pages function in Caneco BT 18 1 1 Export a single sheet A single sheet can also be exported This requires you to display the print preview for the sheet to be exported Then request the export of the sheet in DXF format using the pop up menu activated by a right click
66. BT project or for automatically determining the part numbers for these items of equipment within Caneco This possibility will be operational for users having optional features As the EDIELEC format involves a considerable volume of information ALPI only undertakes to provide information in EDIELEC format for the main manufacturers or those who have an agreement with ALPI 3 2 Identification of manufacturer format type The manufacturer file you use for a given equipment defines its type In the below picture you can see the file type difference of general purpose circuit breakers TR Canecc BT S40 C SBTRETT SS x E Die Get Dagia Supplies uAnbuben Qeoss Iooh Yindees f 8X a r3 So wb Oh od 7 1 EE T7 zii BIET Saw Del ol ae ws Le r Fiarralar borer Sim i nI pierre E Ea Ho Dua bae CiP Ca BT dAE a R Project folders Eria Sup PLAIN ct Doc 1 2 ly Project Document uon Catalogue nhe J I ynta busy edem oF Mi Lanufe sures fle bet Ditgsneturi Urge Caen ral M TD Aa a Boa Tite SS Me L Mpls Eled PA SUE EET 2 Ei C Pr WI Mosii Fincas FA WAEN RMT id adi Sichnesder EL abonn ALEN GM T 2 Shredder Ellison AEN BEC 7 7 Schrade DL Mhonmnd 210511 H GEHT Schrader ELC ANEW BM 2 IE GE Screen ET Mace SEM SAT E Schresder Discs DELTA GPA Sd IL ares Schied Dieses 2010 EN SOSA EEL Frans HERR BREED Sehr Dies 201 LAM AT E di Semana HREM BIATI 1 Sirera MOLEH 505472
67. Budehhorial 1 00 Instal 13 Perlorated tra Y Pole Single 5 Max v Total Comection 072 Det Coelhcieri Fermar Cs Consumption 100 Use 1 Cas phi 08 Location Reference manual Minimum display 75 Caneco BT O 10 2 Detailed display With detailed display you can see and modify circuit data at expert level Circuit sheet C 1 on MSB it Board Standard Curve discrimination Coordination Cable Protection Downstream Upstream Circuit Additional Additional results Conformity Texts CA MC Upstream MSB Supply Normal Y Conductors 3P N PE Designation Command Protection Type Indirect contacts Basis Prot Y Protection NR100F TM100D 1004 4P3T eb Overload protection Short circuit protection Rating IrMg IN ZIrThZlrLB Delayed Delay Coefficients Conductors Length 25m Temperature Phase 1 Type PRC v Proximity Neutral 1 Core Copper Y Additional PE 1 Instal 13 Perforated tra Y ahah a gt Pole Single S gt Max Y Total Correction Neutral loaded Equipment os Consumption v Use 1 Cos phi 0 8 Location DU max 8x Coefficients Permanent 10 3 Navigation arrows 10 3 1 Upstream distribution arrow Opens upstream distribution window feeding circuit 10 3 2 Downstream distribution arrow Opens downstream distribution window fed by the circuit 10 3 3 Next circuit arrow Validates active circuit and display following
68. By normative tables The min PE cross section can be calculated according to 2 methods defined in standard 13 3 Protection Tab Calculation Options Calculation Protection Cables Price Tracks Automatic calculation Protection choice Manual Automatic Discrimination calculation Method From Tables with Curves Curve discrimination with limited Ik Thermal and electrodynamic stresses and Association Limitation effect considered for Circuit Breakers Limitation effect considered for Fuses Breaking capacity calculated with Backup Coordination association v In TT and TN earthing system In IT earthing system v Fuse circuit breaker amp fuse interruptor Switches v Verifying making capacity lcm v Verifying short term Ik cw Factor on thermal r for gd Th and gG Th 1 00 Factor on fuse 1 00 General purpose Circult breaker 40 C Y Distribution Circuit breakers 30 C Switche 30 C v u r j Cancel Help 13 3 1 Discrimination calculation Discrimination by board Caneco BT uses the discrimination tables provided by the manufacturers same brand and catalogue year Discrimination by curves Caneco BT determines the discrimination by superimposition of the curves Check the Curve discrimination with limited Ik option in order to make use of the effect of limitation by the downstream circuit breaker Reference manual Protection Tab 115 Caneco
69. Control Folder Legal Documentation Flyleaf Folios list Hetwork Graph Hetmork single line A4 Formal Hetmork single line 44 Standby Hetwork single line 3 Formal Hetwork single line 42 Hetmork single line 41 Metwrork single line 40 Supply sheet Calculation sheet 1c Calculation sheet distribution Calculation sheet 3 circuits Tlaleilatione sheet A rira nka Folders and documents CJ Preliminary study folder CJ Studies folder CJ Control folder CJ Legal Documentation E Flyleaf Folios list Network Graph Network single line amp 4 Normal Network single line amp 4 Standby Network single line amp 3 Normal Network single line amp 2 Network single line 41 v 3 DBI C Print one folder by distribution Parameters Printing language Document date Plan or document Number Anglais Royat v e Supply sheet ea Calculation sheet 1c 6 Calculation sheet distribution Calculation sheet 3 circuits Network single line AO E 30 12 1999 mal Calculation sheet 4 circuits pa ALPI 2012 Select the folder to edit and Documents Select All option in the zone Select the folder to edit in the window Folders and Documents Click on option Select in the zone Distributions to print Select the distributions to print in the tree structure Select the document to edit in the window Folders and Documents Select dis
70. Device adjustable in mA You cannot get access to this value if you choose Diff Ad Differential adjustable for human protection against indirect contacts Diff Time delay Residual Current time delay in ms Diff Discr Differential discrimination with upstream This is the differential discrimination in case of earth fault current If on the calculated circuit It can be Discrimination Meaning O Nil the upstream protection trips at the same time as that of the circuit Uncertain the upstream protection is liable to trip at the same time as that of the circuit Total the circuit protection trips and the upstream protection does not Not calculated the differential discrimination is not calculated Icu Protection breaking capacity eventually with backup coordination in KA Reference manual Additional results Tab 87 CancoBTO ALP 202 10 7 2 Max Breaking Time Topic Tmax IC Max functioning time in ms for a circuit breaker protection not to exceed human protection against electrical shocks condition This time is fixed by the standard from 100 to 800ms according to voltage and earthing system For distributions the time is increased to 5s see standard Tmax Ph Max functioning time in ms for a circuit breaker protection not to exceed cable phase thermal stress This time is calculated considering a max three phase short circuit at the beginning of the link IK3 max see I3Max later For fused prot
71. Dratas amp L PlCaneco BT 5 44ENSB ase FR End of Support 31 12 2012 Category Circut breakers General Use Curves BC D Motors Ma thermal Prot Dev Association C B thermal aM thermal gG thermal Fuses gla aM aH gH Cables Type Lrass sectionz of N ard PE Price labour Busbar Trunking Systems Busbar Trunking Systems Cable trays Tablettes Switches Switches Standard Powers Standard Powers Transformers Transformers Generating sets Generating sets Reference manual Catalogue Schneider Electric 2011 EN 60947 2 E diE lec Schneider Electric 2011 EN 60947 2 E diE lec Schneider Electric 2011 EN 60947 2 E diE lec Schneider Electric 2011 EN 60947 2 E diE lec Schneider Electric 2011 AEC B0947 4 1 2 Socomec 2 EM 60 269 Socomec 2005 EM 60 269 Standard gG 2008 EN 60 269 Socomec aM 2009 EN 60947 2 Feraz aR 2UT1U0 EN 6094 7 2 Feraz gA 2010 EN 60947 2 Caneco chl Caneco cab alpi prs Schneider 2010 CABLOFIL 2006 Schneider Electric 2011 EN 60947 2 Caneco std Transfo Huile 1995 NFC 52 112 Alternateur 1995 Cancel File mgl 1fr1 dug mug11fr1 dmi mgl 1fr1 dmt mgl fri dat Mgtez 11 dth 5ncomec amt Socomec git AlpiggW8 fsb Socoah04 fsa teari 0 far fegrl 0 figr L aneca cbl Caneco cab alpi prx Schl Okan CABLOFIL TBL mg 1 fr itr Caneco std IITESS ZTR UITE GE Manufacturer file Information 17 ALPI 2012 Caneco BT O 4 Caneco BT Interface 4 1 Caneco
72. Earthing F st di TN 7 Voltage 230 400 V No load voltage 420 V Upstream circuit ref SU PPLY mark Breaking device None v Indirect contact protection Basis Prot ise For a description of all these fields see the Board window paragraph in the Distributions section 5 14 1 Protection Additional D ownstr board deste Ik File Schneider Electric 2010 EN 6084 7 2 Ec v Protection NSA930F Microlagic 2 3 6304 3P3T e Ca Rating B30 A Irth 455 4 Release Becton Irdg 4550 4 Delayed Delay Instantaneou 2g For a description of all these fields see the Board window paragraph in the Distributions section ALPI 2012 Reference manual 42 Downstream board ALPI 2012 Caneco BT O 5 14 2 Ik dU k a J Normal Es a E lk Mas 10635 A E k3 Max 13214 Ip 2127 A Ip 1381 4 K amp sum 2 00 K Asum 1 50 I2 Mas 3211 A Ike Mas 11444 E Iki Max oof A E Iki Max 17 884 Ip 16960 A Ip 2691 A K Asum 1 70 K Asum 1 50 IF Max gg A E IF Max 17884 Ip 16960 A Ip 2691 A K amp sum 1 70 K Aspm 1 50 Ik2 Min 7968 A Ike Min 1035 4 Ik1 Min 8314 A Ik1 Min 151 4 IF Min 8314 A IF Min 151 4 Voltage drop Voltage drop dL O34 x dL p 32 z ise For a description of all these fields see the Board window paragraph in the Distributions section 5 14 3 Currents Kid Cur
73. FP E a i CU glor p n eng reams lane Hamal Laer EE REEL Dish dass wn LAH GAAP Dither aden ora 4 8 Maintenance toolbar The Maintenance tool bar offers the following functions Conversion of the symbol library for the project 5 Export of the symbol library for the project 6 Archiving a project 1 Verifying the integrity of a project 2 Busbar check 4 Redraw the single line diagram 8 Verify the index list links between circuits and distributions 3 Compare the calculation results with those obtained in version V 5 3 7 Display Supplies Distribution Circuits Tools Windows la eu eo 89 i Tr ez Reference manual Caneco BT O Maintenance toolbar 27 Caneco BT O 4 9 Diagram toolbar La barre d outils Sch matique permet de e The Diagrams toolbar allows you to Display text associated with symbols 4 MSB V Not disconnectable 4 10 A project with Caneco BT Draw the ground bar on single line diagram for the board 1 Put terminals on the power circuits the PE and the associated circuits 2 Specify the terminal technology switchable or not 3 Comply with the EN 60082 marking standard 5 Display the single line diagram for the board in simplified or print preview mode 6 Allocate the same generic symbol to all the equipment 7 ALPI 2012 In Caneco BT a project is done from Upstream source supply to Downstream end user circui
74. J Project folder E Fipleat Folios list network graphic Network single line 44 Normal Network single line 44 Standby Network single line amp 3 Normal Network single line amp 2 Network single line 41 Network single line AQ Network single line 40 Supply sheet 4 n m E Print one folder by distribution Title page List of folios C Cer e m Caneco BT General 149 Caneco BT O 17 1 1 Print setup Caneco BT enables various document editing modes Global editing of given folder content see Folders models Distribution to print All Select Folders and documents Preliminary study Folder Studies folder Control falder m Legal Documentation detailled bord folder Project folder Flyleaf Folios list network graphic Network single line 44 Normalt Network single line 44 Standby Network single line 43 Normal Network single line amp 2 Network single line 41 Network single line 40 Network single line 40 Supply sheet faepe aggere O OOO OD m b _ 17 1 2 Editing a folder for selected distributions A opa te 1999 Page setup Paper Folders and documents Size A4 210 x 297 mm Source S lection magasin auto Preview Margins Top Bottom Left Right 150 General Distributions to print E SOURCE B iv MSB A pa s Pa Pel D D D D Preliminare study folder Studies Folder
75. M16D 100 00 Magneto thermal epum NS100Sx TM16G 100 00 j Magneto thermal Low NS1605x TM16D 160 00 i Magneto thermal NS1605x TM16G 160 00 Magneto thermal Low NS2505X TM18D 250 00 Magneto thermal N5250S5x TM16G 250 00 Magneto thermal Low v Thermal Characteristics Short Circuit Protection xv otio In B reaking 100 device Ir Min A 12 8 Ir Min 4 190 Tf Min mS Release rating 16 Ir Max A 16 Ir Max 4 190 TF Max mS Icu kA Phases Simulation v Choice out of catalogue Protection of circuit MSB Probection Name THIRD wesload probection Shor circust prolecison Pang IEA Mg 190 A IN AITEAILF 1284 Des rra Conscty The user enters the name of the breaking device release and RCD as well as the protection data Rating thermal setting magnetic setting magnetic delay for short circuit protection short magnetic or protection delay of the electronic circuit breakers differential setting differential delay Breaking capacity is not taken into account Caneco BT does not check if the data are consistent Calculation is done taking into account entered data not taking into account breaking capacity 92 Downstream Board Tab Reference manual ALPI 2012 Caneco BT O 10 11 Results Window To display this window choose Display Results in the Display menu Results mn 2 x Results Cocut C_1 Circuit Ok Label value Cable 341X185 Heure 1x185 PE or PEN IXH Crienum IMI
76. MSB 2 Transformer LV Lv Standard Upstream Circuit Additional Additional results Conformity Texts Curve discrimination ll Coordination Cable Protection Downstream Transformer Ik dU Impedances Current Schematic Temperature EN El Ik2 3 Max 457 F Ip 7004 K Asym 1 50 Ik1 2 Min 407A El If 407 Ip 6114 K Asym 1 50 Voltage drop du 000 ise For the description of all these fields see paragraph Board window from Distributions chapter 6 4 5 Impedances Tab Upstream Circuit Additional Additional results Conformity Texts Curve discrimination l Coordination Cable Protection Downstream Transformer Ik dU Impedances Current Schematic Temperature Copy E Phaseto phase RO 0 4461 R1 0 5098 2 z xd 0 3372 Q a xb 0 5743 Q Phase Neutral EJ Phase PE R1 0 5038 xb 0 6743 Q ise For the description of all these fields see paragraph Board window from Distributions chapter 6 4 6 Currents Tab Upstream Circuit Additional Additional results Conformity Texts Curve discrimination Coordination Cable Protection Downstream Transformer Ik dU Impedances Current Schematic Temperature allowed 18 00 4 Available 18 00 A 5 Currents 0 00 A Mean Cos Phi 0 00 R E IZ cables ith board 0 00 2g For the description of all these fields see paragraph Board window from Distributions chapter 60 LV LV transformer window Refe
77. Max length 200 m IC IB 300 0 4 STH 190 1 mnm IZ 294 7 A IB Hadra 00 0 4 SIH Netra 190 1 mnm IE Neural 294 7 A dU Creat 3 74 95 dU tol 4 10 BAS Max 8233 A Ei Max 4507 4 EZ Min 5977 4 k1 Mn 35 3 A H 1906 4 Iri Max 1588 A k UpStvOwnStr 43 0 kKAI8 3 kA Magnetic Electronic L track 245 ni Limit results are shown in a different colour orange limit value red incorrect value 10 11 1 Circuit Circuit ref mark State State Description Circuit OK means that the circuit complies with standard To recalculate means that the circuit must be calculated again Due to some changes results may be wrong Cable not correct means a circuit with fixed cable and whose cross section is not sufficient to satisfy standard conditions Protection not means a circuit which protection type or characteristics have been forced correct and which doesn t satisfy standard conditions 10 11 2 Cable Multi core cable conventional writing or phase conductors if the link is of single core type e Examples 4G1 5 means 4 conductors out of which 1 vert jaune G ground 3X50 N35 signifie 3 means 3 phase conductors 1 N conductor of 35 mm 10 11 3 Neutral Neutral conductors conventional writing if the link is of single core type 10 11 4 PE or PEN PE conductors conventional writing if the link is of single core type Reference manual Results Window 93 Caneco BT O ALPI 2012 10 11 5 Criterion This is the crit
78. Transfa Ukr transfo 402 Supplies Mb I Caract fram File eee 1 min 1 max File Transfo Huile 1335 MFC 52 112 Ps Standard CIS100 2002 m os Frequency 50 Hz Harmonics HR 15 Earthing TN Conductors 3PSPEN v Sk Min 125 MV system LW Voltage AD vim 420 HY Prot Funct T 200 me SKO Mas 433 MMA E EE EE ES z BBtrk5 ust manufacturer 1 i Length m Tyne LBB Trunk Syst Schneider 2070 Layout Normal Ret FEMA Factors Conductors Temperature 1 00 Loaded Neutral K loaded neut 1 00 Additional 1 00 54 Busbar Trunking System Window Reference manual ALPI 2012 In the Busbar trunking system style circuit window by clicking on the Downstream Upstream Tab Circuit sheet seo CEP001 on MSB Busbar Trunking System Standard Upstream Circuit Curve discrimination File Schneider 2010 Upstream circu CEPOUI Designation Length 10m Temperature 1 00 Diversity Earthing system TN Voltage Additionaldata Additional results Conformity Coordination Cable Protection Y on Ref mark CEP_001 1 00 230 400 V Busbar trunking system k dU Impedances Currents Schematic ptions Ref Mark KNA160 v Distribution Transport Distribution Y Layout Standard Content Layout 1 00 K loaded neutral 1 00 No load 420 V voltage Downstream Texts This same window is d
79. a standby source is possible and recommended to include in Caneco BT folder the two diagrams Normal AND Standby Reference manual Representation of a project with a Standby source 67 Caneco BT O ALPI 2012 68 Representation of a project with a Standby source Reference manual ALPI 2012 Caneco BT O 8 Board Single line Tool 8 1 Board Single line Tool This entry tool is especially suitable for circuit schematic data entering Circuits displayed are those with an active distribution only To enable the board single line diagram you must to enable the Board Single Line Tool Ga ii irf e e Select the distribution you want to display You can do it by clicking on this distribution in the project tree situated at left side of the screen Project Distribution TD 001 Praec Eiers x ads fum d Pree Docueeed sh Al Sybo ary d Manubactaen hier r3 Jao documents lor poring E amp Fou unge ires iiir pect aa MS cot a C Prset a g MSB e Step 1 Click on the board you want to edit 1 e Step 2 Caneco BT displays the diagram 2 Create a circuit To create one or more circuits use the command New from Circuit menu You can create also these circuits without leave the network single line diagram First select the point from which you want to insert the circuit Caneco BT inserts any new circuit at left side from the active circuit You must click on the point situated at right from the last created circu
80. ad Tibe aci EE Actree Borde LL Morey Green re aiaia Fees Seber hed aide Prot D nce Consumpbon Length Cabin Type Neh 54 PEPEN Ciguli vw Dupi a ihai under the bordei Ang Reference manual Labai vendi Representation of the network single line diagram 65 Caneco BT O ALPI 2012 7 4 Representation of a project with a Standby source If there is no standby source diagram has only one possible representation Otherwise when there is a standby source diagram may be different according to supply source If you choose normal source default reference mark SOURCE you represent the diagram of circuits which may be supplied from this source Represented circuits are all circuits supplied by normal source i e the circuits with a N Normal i e not backed up circuits or N S Normal and Standby If you choose standby source default reference mark STANDBY you represent the diagram of circuits which may be supplied from this source Represented circuits are all backed up circuits i e the circuits with S Standby supply or N S Normal and Standby See the example below Diagram is differenced according to active source Normal or Standby On the contrary of version 4 version 5 represents all sources supplying each board Example of diagram in configuration on circuits normal source supplied from normal source Normal or Normal Standby circuits 7 4 1 Board with N amp S supplies The short cir
81. agnetic Standard L Track O m 5 15 1 Cable Multi core cable conventional writing or phase conductors if the link is of single core type Examples 4G1 5 means 4 conductors out of which 1 is earth yellow green G ground 2x3x 1x185 means a single pole connection made up of two conductors per phase Reference manual Results 45 Caneco BT O ALPI 2012 5 15 2 Neutral Conventional writing of neutral conductors if the connection is a single pole one PE or PEN Neutral conductors conventional writing if the link is of single core type 5 15 3 IB Source on load nominal current in the phase conductors Transfo MSB link design current is considered equal to that value 5 15 4 IB Neutral Source on load nominal current in the neutral conductor Transfo MSB link design current is considered equal to that value 5 15 5 STH Theoretical cross section of phase conductor in mm according to overload condition 5 15 6 STH Neutral Theoretical cross section of neutral conductor in mm according to overload condition 5 15 7 dU 96 Voltage drop at the end of the sources cable at MSB level 5 15 8 Ik3 Max This is the max symmetrical 3 phase short circuit current at the MSB used for determining the breaking capacity of the equipment and for calculating the thermal stresses for 3 phase circuits This value is calculated according to the maximum number of sources in parallel and to maximum power of HV network short circuit
82. agram fit in the project window E Center oom indo Zoom With the Window zoom you can zoom on the zone selected by the cursor With the centre zoom centre you can make a zoom In or Out centred on the cursor position Press Shift key to zoom out 7 1 4 I available available on the selected Board MSB in the example This value is determined by a local power requirement calculation taking into account the currents of circuits which are fed coincidence factor and design current of feeding circuit 7 1 5 Consumption Consumption of circuits supplied by the distribution taking into account coincidence simultaneity and use factors 7 2 Create one or more circuits Create a circuit To create one or more circuits use the command New from Circuit menu You can create also these circuits without leave the network single line diagram First select board supplying this circuit For this you can e either click on the project tree or on the distribution icon e either click on the network single line diagram from the board horizontal bar or at right side from this bar if you want to insert a circuit at right of this bar Then click on button New circuit at left top from the network single line diagram A menu appears displaying the different circuit styles Distribution MiS e Step 1 Click on the New circuit button A and select the style of circuit you want to create e Step 2 Click to the right of the board bar
83. ard windows Reference manual ALPI 2012 Ik2Min Minimum 2 phase Phase Phase short circuits current if there is no neutral Ik1Min Minimum short circuit current single phase if there is a neutral If Phase PE fault short circuit current Minimum of Normal and Standby values if there is a Standby du Cumulated voltage drop in at board level from source of installation 6 2 5 Impedances Tab Upstream Circuit Additional data Additional results Conformity Tests Curve discrimination Coordination Cable Protection Downstream Board UPS Ik dU Impedances Currents Schematic Options Specifications Normal Es EjPhasetophase O O all z lPhasetophase RO 0 0995 Q RO 0 0020 Q R1 0 1037 Q R1 0 0026 Q Xd 0 1358 Q xd 0 2408 Q xb 0 27150 xb 0 4816 Q El Phase Neutral El Phase Neutral RO 0 0572 Q RO 0 0020 Q R1 0 0614 Q R1 0 0026 Q i xb 0 1353 xb 0 17750 E Phase PE EJ Phase PE RO 0 0572 Q RO 0 0020 Q R1 0 0614 Q R1 xb 0 1353 xb 0 1776 Q Phase Phase H0 Phase Phase Caneco BT O Loop resistance Phase to Phase equals to 2 times one phase resistance calculated at ambient temperature This value is used to determine the tree phase maximum short circuit currents Ik Max Three H1 Phase Phase Loop resistance Phase to Phase equals to 2 times one phase resistance calculated at operating temperature This value is used to determine the minimum short circuit currents Ik Min Xm Mea
84. are conventional designations 1 58 W 2 36 W etc of fluorescent lights 2 36W means a light having 2 fluo lights of 36W e if the circuit style is based on Socket style standard powers are conventional designations 2 16 A 3 32 A etc for sockets 3 32A means three phase socket 32 Amps 82 Circuit Tab Reference manual ALPI 2012 Caneco BT O Standard power list can be extended It is saved in a file with extension std The file can be selected for the project and modified by means of Manufacturer files command from Options menu The default file is Caneco std Do not put blanks in consumption Correct examples 120 50KVA 30KW Consumption given in KW has a meaning depending on the equipment type for a motor it is the available mechanical power on the axle and not the electrical power Default unit is the one indicated and which can be modified in Calculation action from Option menu In all cases consumption is transformed in design current IB in the results window Geographic location Enter this data with the equipment nearest geographical location Rate of harmonics 4 The level of 3rd order harmonics and multiple of 3 is applicable to circuit Calculation takes into account the standard rules for neutral cross section calculation Attention Neutral is considered as loaded at a rate of harmonics between 15 and 33 so that a reduction factor is applied on the withstand currents Calculated cross sections
85. are increased about 2596 287 See paragraph affected by standard Attention When a rate of harmonics is gt 33 the neutral is calculated to get a withstand current at least equal to 1 45 times the design current on the phase The protection device must have in neutral an assigned current al least equal to this value 287 See paragraph affected by standard Use factor Circuit use factor which can be specified Default proposed value is e that of chosen standard power if consumption is got from standard power table e or that of the circuit style This value has no incidence on cable and protection dimensioning It affects only the power requirement Diversity factor When a circuit has several equipments sockets lighting etc it is possible to apply a Diversity simultaneity factor kSimult for equipments amongst themselves Circuit total power number_of_equiment consumptio KSimult Permanent Cosinus Phi Circuit Power Factor which can be specified Default proposed value is e that of chosen standard power if consumption is got from standard power table e or that of the circuit style dU max Indicates maximum admissible voltage drop in from the beginning of the installation to the cable end Default proposed values by Caneco BT depends on the style and takes into account source supply private supply or LV distribution and of equipment kind Cos Phi Start Cosinus phi at start to calculate voltage drop during motor start
86. are met Differential Discrimination 123 ALPI 2012 Caneco BT O 15 Circuit breaker switch co ordination To enable co ordination between circuit breaker and switch check Fuse circuit breaker and Fuse switch Calculation Protection Cables Price Tracks Automatic calculation Protechion choice Manual Automatic Discrimination calculation Method From Tables with Curves Curve discrimination with limited Ik Thermal and electrodynamic stresses and Association v Limitation effect considered For Circuit Breakers v Limitation effect considered for Fuses Breaking capacity calculated with Backup Coordination association v InTLa m In IT earthing system v Fuse circuit breaker amp fuse interruptor 15 1 General rule Where possible Caneco uses the circuit breakers Tom limit curves for selecting the switch nd MEB Hence when a fault appears in 1 switch Q2 is selected using Q2 Icm gt Ip peak fault in 1 limited by Q1 3 n1 TED Lastly if the fault appears at point 2 Switch Q3 is selected using Q3 Icm gt Ip peak fault in 2 limited by Q1 Reference manual General rule 125 Caneco BT O 15 2 Application in Caneco BT Calculation method If switch Q2 lcm is n Ik Max at the point considered 1 Calculation of Ip peak limited by the circuit breaker Q1 at point 1 The value of Ip peak limited is displayed in the Additional results window of the circuit concerned I
87. as printed large display In this representation the diagrams circuits associated circuits inserted images are displayed as at printing The choice is made in the Board single line diagram tab from the Preferences window Preferences Automatic Ref Marks Fint Colors Default Values Direct Save Display Circuit Spreadsheet Board SingleIne Diagram Circuit representation as at printing Display the line number Display Grid Reference manual Functions of the schematics 131 Caneco BT O ALPI 2012 16 3 Insertion of associated circuits in incoming feeders Create the associated circuit using symbols from the library and store it with the circuit blocks The drag drop command allows it to be inserted in the feed Pes Litem ur P TEST f i E rubis EJ Adiera iocis 1 8 Cae darks Liari Prot prei r La M CE i P cc 0 Gr id 5 cti Ti c ar 16 4 Enrich the symbol text Defining texts associated with symbols is possible in Caneco BT Text insertion window is used to enter a symbol with circuit parameters sm Choose the parameters you want to display nearby the symbol lili Text insertion Selected parameter Is validated in this case circuit ref mark Then set the field alignment 132 Insertion of associated circuits in incoming feeders Reference manual ALPI 2012 Caneco BT O 16 5 Paramet
88. attributes are usually correlated with the attributes of the symbols used in the Caneco single line diagram of the circuit including any associated circuits there may be They may give a form of synthesis of it Example of a star delta motor feed attribute 1 star delta attribute 2 Local control remote manual disconnect Example of an instrumentation circuit associated circuit alone attribute 1 instrumentation attribute 2 datalogger These attributes may be initialized by Caneco BT in accordance with information defined by their style They may be modified by the user at will El Circuit equipment characteristics Internal Circuit Attribute 1 MA Attribute 2 Attribute 3 10 6 7 Calculation criterion section The user can choose not to verify one calculation criterion for a very specific reason If the Overload criterion is deselected the following message will appear A virtually identical message will appear depending on which criterion is deselected e Attention This section is intended for experienced users only In the event of a reservation expressed by a technical inspection service the Caneco BT user will be obliged to provide justification El Calculation criteria Overloads Voltage drop qa 4 4a Indirect contact Short circuits 86 Additional Tab Reference manual ALPI 2012 Caneco BT O 10 7 Additional results Tab Curve discrimination Coordination Cable Protection Downstream Upstream Circui
89. ayout equals 1 in this case e Perpendicular horizontal layout perpendicular to the one recommended by the manufacturer In this case K layout is given by the manufacturer When this value is unknown Caneco BT proposes 0 8 for K layout e Vertical In this case K layout is given by the manufacturer When this value is unknown Caneco BT proposes 0 8 Content Presence of N PE or PEN in the busbar trunking system This value must be compatible with the feeding circuit content but can be different For ex circuit can be TNC 3P PEN when busbar trunking system is TNS 3P N PE 56 Busbar Trunking System Window Reference manual ALPI 2012 Caneco BT O 6 3 5 Factors Section Temperature Temperature factor this factor given by the manufacturer reduces the admissible current of the busbar trunking system Its value is 1 for 30 C Simultaneity Simultaneity factor for circuits fed by the considered board simultaneity between them Layout Layout factor it reduces the admissible current of the busbar trunking system It depends on chosen layout see above You must modify the values proposed by Caneco BT according to the special conditions e g confined air the manufacturer s information or the standard K Loaded Neutral Just as for cable a derating factor may be applied in the event of harmonics 6 3 6 Network Section Diagram Busbar trunking system Earthing system TT TN IT Voltage Voltage in V e between boa
90. ble for any special consequential incidental or direct or indirect damages including without limitation loss of profit arising out of the licensee s use or inability to use the SOFTWARE or printed information accompanying it whether or not ALPI and or any of its licensors have been advised of the possibility of such loss however caused and on any theory of liability This exclusion also includes any liability that may arise out of third party claims against the licensee 4 RIGHTS OF REPRODUCTION LICENSE Caneco BT is protected by the laws concerning copyright and by all International treaties related to copyright as well as international intellectual property treaties and laws Caneco BT is not sold but granted under license In consideration of your agreement to comply with the terms and conditions of this License Agreement ALPI grants you the LICENSEE a non exclusive license to use the SOFTWARE and to view the documentation on a single computer system It is also agreed that the License granted to the LICENSEE concerning Caneco BT is non transferable The LICENSEE may not use the SOFTWARE on a network server or on more than one computer terminal at the same time except in case of a commercial agreement previously provided by ALPI This Agreement does not grant the LICENSEE any rights to patents copyrights trade secrets trade names trademarks whether registered or unregistered or any other rights functions or licenses in respe
91. bution Downstream Modification index 1 c1 MSB Circuit C Normal DB 1 sam EPOR am 4 5 3 Searching for circuits on the basis of a condition Example search for all circuits of which the length is 100m Search in Project In Circuits v Search 100 OK amp Search fields Length Differentiate CAP small Complete words C Add new elements to selection Le Modification Designation Downstream Distribution Downstr Upstream Distribution Upstream State Normal Standby Mode Ref Mark IC 1 MSB Circuit C Mormal DB 1 2 Ic 3 MSB Circuit C Mormal DB 3 3 Ic 2 MSB Circuit C Normal DB2 4 zil C3 MSB Circuit C Normal B jc11 DB Circuit C Normal 5 1 C712 DB 1 Circuit C Normal 7 c4 DB 1 Circuit C Normal 8 c5 DB 1 Circuit C Normal 9 jcs pB1 Circuit C Normal 10 C 7 DB 1 Circuit C Normal E 24 The search function ALPI 2012 Reference manual ALPI 2012 4 6 Organising the list of styles The style list 2 contents can be defined using the style filter 1 TAr Newcincut All styles 1 Standard Motor Motor Socket Socket 3 Lighting Lighting Heating Healing 3 Misc Misc Board Board z BbTrkSyst Busbar Trunking System 5 Capacitor Capacitor Transf LV ZLV Transformer LV LV B Busbar Sub Busbar Associated Associated circuit 7 Meter F MOT DIS C NT Mol protected by C B contactor MOT DIS Mol pro
92. ce type opecify here the device type B Device 2 Associated control Device 2 present v Marker Device 2 Device manufacturer Device type Contactor Y Control device name Contactor a Rating Off peak contactor Number of poles cut El Device 3 Relay Relay Ref Marl Thermal relay EJ Cable Ref Mark Emergency stop contactor Load shedding contactor Heating contactor Time switch Light intensity switch Control device name Allows enter reference mark of control device Rating Allows enter device rating These data will be displayed at right of device symbol in Board network single line tool Number of tripped poles Allows enter number of tripped poles These data will be displayed at right of device symbol in Board network single line tool 10 6 3 Topic Device 3 Thermal relay Thermal relay Thermal relay associated with a power contactor as per stipulations in manufacturers catalogues 10 6 4 Cable topics E Cable Ref Mark Minimum cross section 2 5 mme Nature of separated PE Isolated PE number of conductors Number of additional conductors 0 Minimum cross section User may modify this value For example minimum cross section for sockets can be reduced to 1 5mm2 instead of 2 5 mm2 It is incumbent on user must to enforce standard rules Reference manual Additional Tab 85 Caneco BT O ALPI 2012 Nature of separated PE User may set here the nature of separated PE conductor Isolated Bare Nu
93. circuit 10 3 4 Previous circuit arrow Validates active circuit and display previous circuit 76 Detailed display ALPI 2012 Reference manual ALPI 2012 Caneco BT O 10 4 Circuit Tab 10 4 1 Circuit topic Circuit Specify the circuit identification on maximum 15 characters Upstream Board ref mark from which the circuit is issued This ref mark is automatically completed by Caneco BT when you have created a circuit You can modify it so as to shift one circuit from one board to another one Supply There are three possibilities e Normal the circuit issued from board is supplied only by Normal source not essential circuit e Standby the circuit issued from board is supplied only by Standby source essential circuit e Normal Standby the circuit issued from board is supplied by Normal and Standby source essential circuit Indicating that a circuit is supplied in Normal Standby implies that it is calculated taking into account the two possible sources which sometimes may be very unfavourable in case of the standby supply is provided by small low power gensets Content Indicates the content of the circuit for example 3 phases N and PE e PE means equipotential bonding conductor In TN diagram the 3P PEN content allows to make TNC 3P N PE from TNS Content Meaning 1 0 0 0 0 0 0 3PXPE Three phased circuit with PE 3P N PE Three phased circuit with Neutral and PE Three phased circui
94. circuit current at A Circuit maximum single phase short circuit current at A Circuit maximum fault short circuit current at A Minimum 2 phase short circuit current at far end of connection at A Minimum single phase short circuit current at far end of connection at A Multi core cable conventional writing or phase conductors if the link is of single core type Examples 4G1 5 means 4 conductors out of which 1 is earth yellow green G ground 3 50 N35 means 3 phase conductors 1 N conductor of 35 mm Neutral conductors conventional writing if the link is of single core type PE PEN conductors conventional writing if the link is of single core type Criterion for the phase cross section calculation MINI Minimal cross section ex 1 5mm2 for Light 2 5mm2 for Socket motors IN overload condition DU Voltage drop IC Indirect contacts Human protection against electrical shocks SC Thermal stress after Short Circuit FIXED Fixed value by user Cable maximal length to keep protection and circuit design conditions Circuit design current directly deducted from consumption in A Manuel de R f rence ALPI 2012 20 5 Board Glossary Ref mark Designation Coincidence factor t Geographical location Earthing system Voltage No load voltage Upstream circuit ref mark Breaking device IC Protection Allowed available S Intensities Mean cos phi R S IZ cables Irth board Board Downstream Ref mark Board
95. connectable the Terminal number field Manually from the associated circuits sheet T erminal blacks Terminals M 11 Terminale type Not disconnectable From version 5 4 onwards you have the possibility of assigning several different Terminal Block Names within the same cabinet Terminal name for lighting Terminal name for socket outlets etc EJ Terminals Wiring on terminals v Terminal fixing Terminal block name bb x Terminal numbers Number of additional terminals ban MNA New terminal block Terminals type Automatically using the Marking command in the Options menu Windows Global balancing Apply again naming rules for Power requirement Ctrl B Circuits ref marks Modification indexes Busbars ref marks Lack project Associated circuits ref marks Distributions ref marks Equipment ref marks g Manufacturers Files Ctrl J xs Cables ref marks fy Database Protective devices ref marks if Styles Ctrl Terminals ref marks Edit library d Select all Unselect all sl Caneco Dessin Extended p Calculation kool k 5 For active distribution Far all distributions xj Preferences CErl d G Do not rename the locked elements Automatic Ref Marks Field categories red Calculation Options CErl K Printing documents models Eie Language choice d The position of the terminal numbers can be defined from the Board sin
96. cs tab of the Distribution sheet Circuit terminals with cross sections greater than the maximum are not drawn The incoming feeder can also be brought to terminals and terminal numbers allocated to it Busbar trunking system Ik dU Impedances Currents Schematic Temperature DIM Drawing N for the actual wiring system printing Terminals on power circuits v Draw the earth bar on single line diagram v Terminals on no calculated circuits associated Max cables cross section on terminals 35 Terminals on PE y Type of default terminal Not disconnectat Y ini Disconnectable Terminals type Not disconnectat Y Terminal name 1 Terminals N 1 2 3 4 ERE 6 4 amp 4P3D as 4P3D T 4P3D 160A 63A 63A 2 aP3D 1250 A 5 TN 6 400 50 mm 16 mm 16 mm J 8 LE T eA i i an gI a Mi lil gt For this circuit the terminals are not drawn since the cross section is gt 35 mm2 Caneco BT Reference manual Management of ground bar and terminals 135 Caneco BT O ALPI 2012 16 7 Numbering terminals 16 7 1 Numbering power circuit terminals Manually from the Additional data tab on the power circuits sheet El Terminals Select the number of the terminal Wiring on terminals v block in the Terminal block name Terminal fixing fiel d Terminal block name bb Terminal numbers 5 8 Specify here the terminal numbers in eae anes E erminals type Not dis
97. ct of the SOFTWARE Reference Manual Table of contents 7 Caneco BT O ALPI 2012 9 COPYRIGHT AND RESTRICTIONS ON USE The SOFTWARE and its Manual contain copyrighted material and in their humanly readable form contain trade secrets and proprietary information owned by or licensed to ALPI Title to and ownership of the SOFTWARE and the documentation that accompanies the SOFTWARE and all intellectual property rights in the SOFTWARE and said documentation are and shall remain the sole property of ALPI and or its licensors The LICENSEE may not de compile reverse engineer disassemble or otherwise reduce the SOFTWARE to humanly readable form The LICENSEE may not modify rent lease lend the SOFTWARE or distribute copies of it The LICENSEE may not electronically transfer the SOFTWARE over a network a telephone circuit or the Internet The LICENSEE may make one copy of the SOFTWARE for backup or archival purposes provided that the LICENSEE duplicates the copyright notice and other identifying information on the disk s label and affixes such notice to the backup copy The LICENSEE may print a copy of the documentation from the disk only for the LICENSEE s use for the sole purpose of operating the SOFTWARE All rights which are not expressly granted under this Contract are the sole property of ALPI and its licensors 6 TERMINATION This License shall remain in full force and effect unless and until terminated This License will terminate imme
98. ction Reference manual ALPI 2012 Caneco BT O 5 5 Network section 5 5 1 Standard This field specifies recommended default electrical installation standard Only users having multi standard version can get access to this field They have the following choices C1510002 2002 VDE 2010 CEI64 8 HD384 IEC364 09 BS7671 08 RGIE AREIO8 NIBT NIN10 NP NEN1010 96 NBR5410 04 AS30068 5 5 2 Earthing system Source earthing system TN TT IT with or without Neutral It is possible within one project to change earthing system downstream LV LV transformer Apart from this specific case no other change is possible Distinction between TNC and TNS is done by selecting the conductors used in source or in a circuit see section circuit TNC is selected by a 3P PEN link TNS by a 3P N PE link 5 5 3 Installation LV operation voltage This is the source operating voltage between phases on load default 400V 5 5 4 No load voltage This value cannot be entered but can be calculated from standard operating voltage Par convention it is equal to 1 05 times the design voltage and can not be modified This is the no load voltage as reference used to calculate all maximum short circuit currents It must not be confused with transformers dimensioning no load voltage 410V for transformers 400V In IEC or CENELEC standard this voltage equals C x operating voltage C is specified by IEC 909 standard 5 5 5 Frequency Frequency of the
99. cuit currents are automatically calculated on the N and on the S branches This makes it possible to determine the Ik values for the downstream circuits in an appropriate manner according to their powering mode N S or N S Example of the same diagram in configuration normal Source Circuits supplied from the normal source Standby or Normal Standby circuits 7 dddnona doris Boe panim a Dowd oie Boral pact ap SSSA roma Cj Papa EE m CEP On wd CEP E Frac paca gU I To improve legibility all supplies are shown even ones that are not active Example of the same diagram in configuration Standby Source Circuits supplied from the Standby source Standby or Normal Standby circuits 66 Representation of a project with a Standby source Reference manual ALPI 2012 Caneco BT O Ci Mermal Supply P m z EXC hl 45i Vt v 4 Q Net drizonnectatl Distribution TD O01 Project folder x gk Pusect Documenit ate mJ symbol library gf Manalactupen lie DJ amp ddhonal document lor panting B Board angie tre sions pictas x Modhcahon ridet al CJ Prei a E se x TD On Layout Front panel Cont Conventionally in Caneco diagram of circuits represented with Standby source corresponds to this source at left Normal sources in this case 1 transformer are shifted to right At printing diagram may be represented either as Normal or as Standby according to parameters chosen For a project with
100. d by the option section of options menu Loaded neutral When Neutral is loaded a downgrading factor of 0 84 must be applied to current carrying capacities K loaded neut Corresponds to the loaded neutral factor 0 84 or 1 depending on the harmonic level 5 8 Board Source by Ik The LV supply by Ik applies in the following cases Two part tariff supply in this case enter the Ikmax value at the delivery point 5 8 4 Installation extension Copy all the short circuit values at the existing switchboard Multiple supply configuration The supplies are different and are not coupled the design study will then be performed in several design calculations The design calculations will be linked together by copying the Ik values at the intermediate switchboard Coupling of supplies of the same type but with different powers this sort of configuration can be modelled by a Board supply by Ik adding together the Ik values from each supply n Supply SUPPLY Board supplied MSB Supply Additional Downstr board E surPrLY Typ i Board with Ik Y Standard C15100 2002 Frequency 50 Hz v Harmonics HR 215Z v Earthing TN Conductors 3P4 PEN dU origin 0 00 x system LV Voltage 400 Vw 420V Not standardised ini IK Available 909 A Ik curren t Ik3 Max au tableau 20996 Ik1 Max on Board 19477 A Ik2 Min on Board 151634 Ik1 Min on Board 15240 4 If Max on board 13477
101. d supplied MSB Supply Impedances Downstream board Board Protection UPS Ik dlJ Currents Schematic Temperature File File Merlin G rn 2005 EN 60947 2 EdiElec Protection Protection M5B53U0M STRZ38E 6304 3P3T En E NS630N STAZ3SE 6304 3P3T E Rating Rating ITh Ith Ado A Irdg Irdg 1435 4 Magnetic Magnetic Electronic Delayed Delayed File Protection manufacturer file Protection Protective device commercial name Rating Circuit breakers rating Irth Circuit breaker thermal relay setting or fuses rating value IrMg In Circuit breaker magnetic setting or fuses rating value Magnetic Type of magnetic used Standard or C curve for modular CrBrk Low or B curve Electronic or D K curve Delay Circuit breakers short circuit delay RCD setting Circuit breakers residual current differential delay setting RCD delay Circuit breakers residual current differential delay Reference manual Board windows 49 Caneco BT O ALPI 2012 6 2 0 UPS tab If necessary default values must be replaced by manufacturers ones Bead UPS kid irmpedancas umeris Schemalic Up cona Specdhcaboni Poeni amp OD KA vw Plac nr i Fil rad z pa abel Ma pemiied Fi a k 1446 F IEA ii 144 lI THA 1 Thermal stress permitted by inverter A UPS can be connected either on a Normal or Standby distribution A comparison between Ik is done to keep the least favou
102. d the loop impedances of the transformer MSB connection In the event that you have to override these values make sure you enter loop impedances and not line impedances R0 Phase Phase Resistance of the Phase Phase loop equals twice the resistance of one phase calculated at ambient temperature This value is used for determining maximum 3 phase short circuit currents Ik Max Tri H1 Phase Phase Resistance of the Phase Phase loop equals twice the resistance of one phase calculated at operating temperature This value is used for determining minimum short circuit currents Ik Min X Phase Phase Reactance of the Phase Phase loop equals twice the reactance of one phase in the case of a cable connection This value is used for determining maximum 3 phase short circuit currents Ik Max Tri Max X Ph Phase Maximum reactance of Phase Phase loop This value is used for determining minimum 2 or 3 phase short circuit currents In the case of a cable connection it is equal to X Ph Phase Reference manual Additional tabs 41 Caneco BT O 5 14 Downstream board Clicking on the Downstr board tab opens the following window e SUPPLY Board supplied MSB Supply Additional Downstr board Board UPS Ik dU Currents Schematic Options Specifications Board Data Ref mark MSB Designation Diversity f Geographic factor L location Content 3P PEN Network
103. d window In the Source Window by clicking on the Downstream Board Tab G STANBY Board supplied MSB Supply Impedances Downstream board In the Board style circuit window by clicking on the Downstream Upstream Tab fs GC lon MSB Board Standard Curve discrimination Coordination Lable Protection Downstream Upstream Circuit Additional Additional results Conformity Texts 6 2 1 Downstream board tab Supply Impedances Downstream board Board Protection UPS IkKfdU Currents Schematic Temperature Board Data Ref mark MSB Designation Simultaneity 100 Geographic factor location Network E arthing E Tul l uu Mo load apsk i TN Voltage ewe id voltage Upstream supply Normal Upstream circuit ref STANBY mark E Breaking device MCLE 420 Indirect contact protection Basis Prot Y Reference manual General 47 Caneco BT O ALPI 2012 Hef mark Board Downstream Ref mark Designation Board name data recommended for ease of identification Diversity factor Diversity factor for circuits fed by the considered board simultaneity between them Example a distribution feeds 10 circuits of 10 Amps each A Simultaneity factor of 0 8 means that the total real consumption is 10 x 10 x 0 8 to say 80 Amps Geographic location Equipment geographical location This data cannot be entered in this window To modify it you must change
104. ded case general purpose circuit breaker moulded case according to EN 60947 2 and IEC 947 standards Open circuit breaker general purpose circuit breaker Open according to EN 60947 2 and IEC 947 standards CrBrk C modular circuit breaker C and U curves according to standard EN 60947 2 or EN 60898 CrBrk B modular circuit breaker B and L curves according to standard EN 60947 2 or EN 60898 CrBrk D modular circuit breaker D or K curves according to standard EN 60947 2 or EN 60898 CrBrk Mot motor circuit breaker according to standard EN 60947 2 and IEC 947 ensuring motor protection CrBrk Th motor start protection realized by a coordination contactor circuit breaker thermal relay type 1 or type 2 fuse g1 or gG type Ultra fast fuse Ultra fast fuse Ultra fast fuse association fused switch contactor thermal relay with fuse of g1 gG type This type of protection is suitable for distribution circuits Contactor is determined in category AC1 fuse g1 or aM type association fused switch contactor thermal relay with fuse of aM gM type This type of protection is suitable for motors Contactor is determined in category AC3 AC4 CrBrk without thermal r circuit without overload protection which is allowed by the standard for some circuits not supposed to produce overload Caneco BT will ask you for the type of protection against short circuits The overload condition is checked taking into account the design current IB Withou
105. diately automatically and without notice if the LICENSEE fails to comply with any provision of this Agreement Upon termination the LICENSEE must immediately stop using the SOFTWARE erase or destroy all copies of the SOFTWARE and destroy all printed information provided with the SOFTWARE 7 GOVERNING LAW This Agreement shall be governed and be construed in accordance with the laws of France ALPI S A Applications Logiciels Pour l Electricit 1 Bd Charles de Gaulle F 92707 Colombes Cedex France 8 Table of contents Reference Manual ALPI 2012 Caneco BT O 2 Installation 2 1 Goal of this manual This manual introduces the main functions of Caneco BT version 5 4 and gives you a detailed breakdown of new features This manual allows you to learn Caneco BT Nevertheless to familiarize fully with this software we recommend going through a training course 2 2 Prerequisites This manual and the program were prepared for qualified electricians and engineers Also a good knowledge of Windows system and procedures is required 2 3 Minimum system requirements Caneco BT for Windows requires the following system configuration as a minimum Processor Intel Pentium IV recommended RAM 1 Gb Screen 17 Graphic resolution 1024x768 System Windows NT SP6 2000 XP Vista or Windows 7 Espace disque requis environ 500 m ga octets The Windows environment requires significant disk space for temporary files sto
106. ds see paragraph in Schematic section Reference manual ak Cine nm Board windows 53 Caneco BT O ALPI 2012 6 3 Busbar Trunking System Window 6 3 1 Definition When you create a circuit with a busbar trunking system style Caneco creates e the circuit made up of a protection device a link and an equipment e the busbar trunking system which makes up a particular equipment because it has its characteristics length equipment type etc This busbar trunking system is a distribution because it can supply itself others circuits If busbar trunking system circuit does not include a supply cable you must specify that this circuit has a null length link On the contrary the busbar trunking system length is necessarily longer than 0 meters When Caneco calculates a busbar trunking system circuit it calculates simultaneously e the protection taking into account the busbar trunking system e the circuit cable connection e the busbar trunking system A circuit of busbar trunking system style includes C 1 Circuit C 1 feeding busbar E trunking system K 1 Busbar trunking system K 1 equipment of circuit C_1 6 3 2 Information on the busbar trunking system It is possible to display the window of a busbar trunking system In the Source Window if this source supplies MSB by clicking on the Downstream Board Tab Supply Additional D ownstr board EE surety Power 315 kVA Type
107. e Board sheet Upstream Circuit Additional Additional results Conformit Texts Curve discrimination Coordination Cable Protection d Downstream Board UPS Ik dU Impedances Currents Schematic Temperature Specifications Eqipnenttand 1o cce EJ Cabinet metal sheets Colour According to CCTP Enclosure type According to CCTP Material According to CCTP Position Mural Sizes H Ww D By selection 0 mm 0 mm D mm Transport separation 0 mm Aspect IEC 60439 1 EN 60439 1 2b El Indexes Index IP 1 Index IK 1 Service coefficient 313 Plinth Cables sheath No El Door v Hinge Left Lock Standard El Engraving Label Engraved Outgoing ref Mark Label colour v Conduit ref Mark v bs Default options a The user can then print a manufacturing form for each cabinet The choice to print the manufacturing form is made from the Board single line diagram parameters which is opened by clicking the Details button associated with the single line diagram in the Document tab of the Print manager window Printing manager Dl _ Documents Folders Translation Documents Th o Composition MERE Definition M Calculation sheet Distribution XH Calculation sheet 3 cil TET STI TE LOTH EST EE LER E DS LT ESTE Conformity sheet Ey Conformity sheet 4c So Parametrers sheet Board single line contr Io Board Single Line Site Replace equipm
108. e Terminals bar 4 d 4 O Not disconnectabl Croat shert cien fat Asspcated Croat bmn v TD001 on MSE Board gan Darrenia Cil U prire pa daa deiir Conia eats Thon Lares hie aire OE anh bia C abe ia erste ttm Toad Feste WPS od umeris chere Cictergi Cabe come j LL s iraialacinc martio Deg H Ion Eran dtd ho apex ban riri Coie Past Meo a een cei ce Coca Dima fus uri bas cn sang ine sg bul ALPEN ei oni coke eects acre Ms eee cx echon on arii Ew T Aa Dri emis on PE Toten oi chet emn Mo hki T Witney cn bearna b c F Drit a n i Terral bici Te Sd Fae Termal Type Mop aoe Taea yee a yon Henn di Teun rien Addie characrgruartesn Tamra N Tani i 3 Til 2 Tawi i Caren The terminals will be drawn if options are checked 1 The earth bar will be drawn if the option is checked 2 The terminals on the associated circuits will be drawn if options are checked 3 Associated circuit wired on terminal block Terminals earth 5 The circuit does not include a PE conductor only the terminals are shown not the earth 6 134 Management of ground bar and terminals Reference manual ALPI 2012 16 6 2 Terminal block management A terminal block is assumed to be infinite The following technologies are available Switchable or non switchable terminals The default terminal type and the maximum cross sections on terminals can be defined in the Schemati
109. e Choice out of catalogue The user can choose a protection out of catalogue The choice out of catalogue is indicated by the icon H amp J Caneco BT uses the protection data entry given by the user to calculate Rating IrTh IrMag e User s technical choice The user can choose in the Equipment technical choice window another protection and its accessories the user s technical choice is then indicated by the icon 90 Text Tab Reference manual ALPI 2012 Caneco BT O Economical automatic choice Circuit breaker choice in catalogue Catalogue 2004 2005 Electricien 2006 Choice Informations Sheet Protection of circuit MSB C 001 Model name In Break A Rating IrTh Min Icu kA Release NS100N TM16D 100 00 6 00 2 50 36 Magneto thermal NS100N TM16G i i Magneto thermal Low NS160N TM16D 160 00 Jj Magneto thermal NS160N TM16G 160 00 i Magneto thermal Low NS250N TM16D 250 00 A j Magneto thermal NS250N TM16G 250 00 i i Magneto thermal Low N51005x TM16D 100 00 i j Magneto thermal NS1005x TM16G 100 00 j i Magneto thermal Low NS18605x TM16D 160 00 j i Magneto thermal N51805x TM16G 160 00 A Magneto thermal Low NS250S TM16D 250 00 i j Magneto thermal N52505x TM16G 250 00 A i Magneto thermal Low v Thermal Characteristics A Short Circuit Protection Krvi oisi In Breaki Vite 100 IrMin A 128 Ir Min A 190 TF Min mS Release rating 16 Ir Max A 16 Ir Max A 190 Tf Max mS Icu kA Phases S
110. e PE can be reduced using this choice of equipment C36 In order to reduce the SPE select and over rated C B with a low magnetic trip value SPE is the cross section of the PE The program has selected a low magnetic trip for the general purpose circuit breaker If you don t want the automatic choice of a low magnetic trip in order to reduce this cross section change the Choice of low magnetic trip parameter Protective devices command from Options menu C37 In order to avoid increasing the cross section we have adopted a low magnetic trip value See Standard calculations Indirect contact protection section Reference manual List of warnings and remarks and suggested remedies 165 Caneco BT O ALPI 2012 C38 Supplementary Protective Equipotential Bonding obligatory Your cable does not have a PE Select SPEB or introduce a separate earth select Multi E C39 In order to reduce the phase cross section select a circult breaker with a low magnetic trip A low magnetic trip exists in this range of circuit breakers and will make it possible to reduce the cross section of the phase C40 The cross section or type of cable requires the neutral to be separated Above 10 mm the PEN must be replaced by a separate neutral and PE C41 It is forbidden to protect or disconnect the PEN In a TNC earthing system select a 3P3D trip unit C42 In IT the neutral must be protected if there is no differential device Delete the neut
111. e an extension af your installation in version 5 4 by keeping the ancient circuits ok to Caneco BT O E d 5 Project is still under study Project is already made sd EISE RESET Modification of specific processing thermal constraint on Ik Max Upstream discrimination thermal management single pole breaking capacity of 2P2D protective devices protecting single pole circuits etc may result in changes in the calculations performed with version 5 4 If you do not wish to interfere with the calculations made in version V5 3 completing the design note in that same version is recommended Reference manual Calculation reference 13 ALPI 2012 Caneco BT O 3 Database in EDIELEC format 3 1 EDIELEC format Caneco BT version 5 uses a new data format for manufacturer files the EDIELEC format This format contains more information than earlier Caneco version format called Caneco4 format Additional information of EDIELEC format allows to paste more information in the manufacturer s catalogue enabling a more efficiently equipment choice As the information workload in EDIELEC format is considerable ALPI commits to provide with information on an EDIELEC format ONLY the main manufacturers or those who has an agreement with ALPI The CTM software is offered either as separate tools Tools menu for determining equipment part numbers unconnected with the equipment calculated within a Caneco
112. e cables or override the number of phase conductors C61 Override phase conductor cross section first C62 Cables coming from a busbar trunking system do not accept help with bill of quantities The geographic location entered for your circuit does not enable Caneco to deduce how long it is The cable trays feeding this circuit will not take this length into account either Reference manual List of warnings and remarks and suggested remedies 167 Caneco BT O ALPI 2012 C63 Protection is obligatory for cables coming from a busbar trunking system Caneco s calculation module does not let you design a case where there is no protective device on a circuit feeding a busbar trunking system C64 Check that the max C B operating time Is less than 20 ms The cable selected by the program will only carry the maximum short circuit current thermal stress at the far end of the circuit if it lasts less than the time shown The operating time for the circuit breaker indicated by Caneco is longer than this value This exceptional case usually corresponds to short low cross section circuits connected to a switchboard with a high short circuit current capacity In this case you can override the phase conductor cross section to the suggested figure opt for a fuse increase the length of the cable to reduce the Ik values In certain rare cases the personnel protection condition may be the reason for this message In this instance the problem ca
113. e est gt 1 Default options Cancel Help 13 2 1 Cables sections Multicore cables up to Orn Allows to define the cross section from which Caneco will choose single core cables if the Multi Uni option is selected in the Pole field of the circuit sheet Cable NN Length 12m Type ALPE Core Copper Y Instal 31 On perforated Y Pole Single 5 Max Y Multi Single 5 Max Single Trefoil Consumption Location Single Touching Single Spaced Aluminium cables from Al Allows to define the cross section from which Caneco will choose aluminium cables if the Cu Al option is selected in the Core field of the circuit sheet 114 Cables Tab Reference manual ALPI 2012 Caneco BT O Cable Length d m Type ALPE Core Copper Instal Copper Pole Alu Equipment ead Alu PECu 4k Allowance for cross section calculation 5 v Apply allowance to Supply MSB link This option enables cross sections to be calculated applying a tolerance of 5 max in Iz Unselect the box if the specifications say that this tolerance is not to be applied to the Source MSB link Max cables cross section on terminals 35 rane Terminal numbering will be performed for all cable cross sections lt 35 mm 13 2 2 Authorization to reduce conductors PE cross section vw Main circuits Min PE cross section as per w Final circuits By calculation t 2
114. e window allows automatic marking of e Circuits e Equipment e Protection devices e Terminals Various options allow the user to define the operation of the Rename function Caneco BT O Apply again naming rules Far C Circuits ref marks Busbars ref marks Associated circuits ref marks Distributions ref marks Equipment ref marks C Cables ref marks Protective devices ref marks Terminals ref marks Select all Unselect all Extended For active distribution For all distributions Do not rename the lacked elements Automatic Ref Marks TEE The Automatic ref marks button activates the automatic prefix definition window Preferences Save Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks Automatic Ref Marks Print Colours Default Values Directores Warnings and remarks Objects ref mark S Number of caracters for the suffix Boards and transformers Busbar Trunking Systemes me Enter after the active Circuits distribution name Busbar Enter after the active Associated circuits Tenhin rime Styles Identical to Cables V Circuit rel Mark Identical to circuit ref Mark Equipments ref mark Circuit breaker Currently used method Contactor and others remote N according to the line of the circuit control switch time delay switch Fuse di tor Fi S pad um iiij Change marking method
115. ections this time is by convention 5000 ms but it is not significant Tmax Ne Max operating time in ms for a circuit breaker protective device so as not to exceed the thermal stress of the cable neutral This time is calculated taking into account a max single phase short circuit at the start of the circuit Ik1 Max upstream For fused protections this time is by convention 5000 ms but it is not significant Tmax PE Max functioning time in ms for a circuit breaker protection not to exceed cable PE thermal stress This time is calculated taking into account a min phase PE short circuit at the far end of the circuit If min For fused protections this time is by convention 5000 ms but it is not significant 10 7 3 Link topic F Poles distribution Phase distribution for single phase circuits fixed or not Link width This is the width of the link on cable track If cables are single core they are supposed to be in trefoil configuration if there are several cables separated N or PE for example they are touching This value is used to calculate useful height on cable track sections Link height This is the link height If cables are single core they are supposed to be in trefoil configuration if there are several cables separated N or PE for example height is the height of the bigger cable This value is used to calculate useful height on cable track sections Weight Link weight for one metre in kg cable neutral and PE eventuall
116. egulator motor output The regulator motor output calculation method adopted in Caneco BT is described in an on line document accessible via the Documentation command from the Help menu The motor output will be regarded as being protected against over current and indirect contact by the regulator The cross section of the motor supply connection will be calculated in accordance with the permitted current Iz The latter depends directly on the motor operating current The voltage drop at the regulator terminals shall be taken as 0 V Entering the regulator from the style list Representation of the regulator in the Board single line diagram ug ar 3 4 8 Motos Motor 1 1 Sockel Suckel Lighting Lighting 1 Heating Heating Misc Misc Bod Board a BbTrkSyst Busbar Trunking System Capaci Capacitor Trans LVALV Transformer LV LY Busbar Sub usbar 3 Assecsoled Assocsaled cucud Meter MOT OISsOUNT Mot gedeceduyC gt contada 4 MOT DISJ Mot protected by circuit breaker MOT INVERS Moto bor deectont MUT TH AVAL Motor wth downell ther protector 5 MDT FT TRI Motor stating st dedta MOT BLOC Motot with ne Qiece cricut tees et M T DESENFUM Smoke extinct Lightang 5 ECL VALEURS Example of Lighting values ECL TEL CDE Lighting Remote integri contol ECL TELE Lighting Remote Separate control ELL TELER Lighting na remote swich ECL BAFS Lighting BASI ECLeBAES TELE Lig
117. ent symbols by default symbol ANCE T uh c Board Single Line Site Associated documents A Ee Print a production sheet for the cabinet before each distribution Board Single Line Mai Board Single Line ind Board Single Line ind Board Single Line Cab Prink settings When there are not outlets in the distribution Print a page Cabinet production sheet General drawing Hew 142 Specifying the distribution enclosure ALPI 2012 Reference manual ALPI 2012 Caneco BT O The following illustration shows the cabinet manufacturing form as it will be printed CABINET PRODUCTION SHEET Ref mark MSB Designation Localisation Project Num Froject Hetwork N TE k3Max N 21021 A KIMI NASSAR A ant Voltage 400 wv I3Max lki Min 5 Equipment brand Imposed ta CCTP M zc Cab metal sheets Type According ta CCTP hse According ta CCTP Mise Position At gound lewel Transport separation 0 Size By selection H O Ww D D 0 Sspect 2b Additionals with Base Cables sheath Mo with Door Hinge Lett lock Standard Mise IDENTIFICATION Engraved vuith Canduit E Outgoing Tab Calor Outgoing Tab Location with Plastrans with Cell Mi zc without Envelope carries plan Power break F rental by AU and transported on terminals Connection By the tap According ta CO TP erminals Without Positiongyith out Layout Ebr horizontalT op UE ru miu alie i a m Ls circu
118. er management for associated circuits You can enter parameters corresponding to the circuit associated with a power circuit Ref mark consumption trunking characteristics terminal wiring terminal numbers etc The window allowing these different values to be entered is displayed by double clicking on the associated circuit e Example Lighting BASL Associated Circuit The characteristics of the associated circuit will be defined in the window opposite displayed C_12 by double clicking on the associated circuit Connecting circuit Pet Mark _ Designation Equipments number Consumption Device 1 Ref Mark Device 1 Device 1 rating Device 1 Poles Nb Device Ret Mark Device 2 Device 2 rating Device z Poles Mb Device 3 Ref Mark _ Device 3 Cable Ret Mark _ Cable type Cable core _ Length Instal methad x Reference manual Parameter management for associated circuits 133 Caneco BT O ALPI 2012 16 6 Management of ground bar and terminals 16 6 1 Representation of ground bar and circuit terminals Caneco BT offers the ability to draw the ground bar and circuit terminals power circuits and associated circuits It is also possible to number the circuit terminals power circuits and associated circuits Insertion of the ground bar and the circuit terminals is done from the Schematics option of the Downstream tab of a distribution sheet Where e s Click on the buttons on th
119. erion for the phase cross section calculation Criterion Minimum section overload condition Voltage drop Indirect contacts Human protection against electrical shocks Thermal stress after Short Circuit Overridden Values have been imposed One or two exclamation marks can be added after these criteria e f gap corresponds to a cross section a is added i e CI means Human protection criterion with a cross section gap according to the more unfavourable of other criteria e f gap is two cross sections or more a is added When the cross section is determined simultaneously by two or more criteria the last two criteria kept are displayed ex IN DU means Overload condition and Voltage drop criterion 10 11 6 Max protected L Cable maximal length to keep protection and circuit design conditions This length is preceded by a 2 letter prefix DU It means that with the maximum indicated length the maximum voltage drop entered in cable data is reached IC It means that over the maximum indicated length the human protection condition is no more fulfilled CC It means that over the maximum indicated length the cable short circuit protection condition is no more fulfilled 10 11 7 Circuit dU Circuit voltage drop in 9o on the cable length This value does not include upstream voltage drop 10 11 8 dU 96 start Voltage drop at start motors or when switching on lights calculated by Caneco BT This value is calcu
120. et too high The short circuit currents are too low to operate the magnetic trip on the circuit breaker protecting your circuit Reduce this setting or increase the conductor cross sections C3 This ref mark is already in use for another circuit Change this ref mark as Caneco does not allow two identical ref marks C4 Operating current too high impossible to calculate the cross section The program only calculates cable connections if there are no more than 6 conductors per phase and if the cross section does not exceed 800 mm Check your data then correct if necessary by Changing to a busbar trunking system Changing the parameters affecting the cable conductivity factors installation method etc C5 Situation not handled modify or override values where necessary C6 Override values contradict data Cancel the overridden conductors neutral or PE that are not included in your connection or modify the contents of your circuit C7 The upstream switchboard conductors do not allow this choice Check and correct if necessary that the upstream circuit of the upstream distribution switchboard or busbar trunking system does indeed have the necessary conductors Neutral PE or 3 phase or modify the conductors for the circuit you are working on C8 Upstream circuit not identified cannot calculate Check the existence or validity of the circuit powering the active distribution C9 Upstream board not identified impossible to
121. exposed conductive parts If your protective device is a general purpose circuit breaker By selecting a circuit breaker with a low magnetic trip setting If your protective device is a curve C or D circuit breaker By selecting a curve B circuit breaker C17 Override obligatory C18 The data entered is contradictory Override values are present that contradict the options selected C19 The cable insulation cannot withstand the ambient temperature you have selected Modify the temperature factor C20 Delete use of neutral override or revert to 3 phase C21 Protective device terminal equipment combination inadvisable Change the type of protective device taking account of the type of terminal equipment in your circuit C22 Add the PE or select protective equipotential bonding of exposed conductive parts Absence of a PE is only acceptable if the ground of the terminal equipment you are powering is connected independently of the cable connection to an overall equipotential system 164 List of warnings and remarks and suggested remedies Reference manual ALPI 2012 Caneco BT O C23 Provision to be made for additional mechanical cable protection This remark concerns A05 VV U cables when installed underground Change the cable type installation method or make provision for additional mechanical protection C24 Neutral free IT earthing system appears to contradict the presence of the neutral Delete the neutral or correct the ea
122. f the resulting Ip peak limited lt Icm for switch Q2 this protective device is accepted Icm associated Max rms non limited Ip in A In this case Caneco displays cascading WITH Max rms non limited Ip in the results window Results Circuit C_001 Circuit compliant Label Cable Neutral PE or PEN Criterion IN Max length IB 63 0 A STH 7 6 mm IZ 747A dU circuit 0 00 du total 0 30 Ik3 Max 20996 A Ik Max 18183 A Iki Max 19477 A If Max Tk Min 15163 A Ik1Min 15233 A If IrMg Max 15153 A Ik Am Av 21 0 kA 21 0 kA Discrimination Type Discrimnation on Ik Not calculated ermal discrimination Mot Calc ential discrimination Not Applicable Association With 25 kA 4 TT H Icm Making capacity of the switch or switch fuse Ip pk Peak current limited by the protective device or non limited n crest factor 126 Application in Caneco BT ALPI 2012 01 Reference manual ALPI 2012 Manufacturer s tables method If switch Q2 lcm is n Ik Max at the point considered 1 Calculation of Ip peak limited or non limited at point 1 The value of Ip peak limited or non limited is displayed in Additional results window of the circuit concerned If the resulting Ip peak limited lt Icm for switch Q2 this device is not valid It can only be accepted using co ordination with Q1 Icm or Icw Associated in kA co ordination value given by manufacturer In this case Caneco
123. fficient with Caneco BT depending on the given temperature it is assumed that you have correctly chosen your cable type before If you change the cable type and if your cable insulation has changed it is necessary to recalculate this factor depending on the desired temperature Group factor K prox This factor is known in standards as cables or circuits group correction factor It downgrades the current carrying capacity depending of the proximity of other cables The value proposed by Caneco BT depends on the style It is usually 0 72 which corresponds to perforated cable track installation method on one layer touching unlimited number of cables This factor has a significant impact on the cable calculated cross section you must study carefully among all parameters the most important one e Proximity of cables between themselves According to standard installation methods and according to their spacing cables distant from each other do not mutually heat each other e Cables load compared to their current carrying capacity a circuit with IB lt 0 7 Iz is supposed not to heat neighbouring cables e Global load of cables laid on same cable track This global load can be reduced by the thermal setting of the circuit feeding the distribution See section Distributions Board window information on boards cables S IZ Board IrTh To facilitate estimation of this coefficient in the window you can press button J on the right to get help on
124. for example Default proposed value is e that of chosen standard power if consumption is got from standard power table e or that of the circuit style You can modify this default value IDAN ID IN factor The same remarks as above Reference manual Circuit Tab 83 Caneco BT O ALPI 2012 10 5 Upstream tab ise For the description of all these fields see paragraph Board window from Distributions chapter 10 6 Additional Tab cran hari c i TDM on MSH 8 DEL DT Loos Ua oma T ban io c Lom rwr Une an Lacus LFF LE khna recu i Locrioeirg Ma s rmn ol hor r Mas pe PU fide Mgr oer eae B aum I E reme A iciinisiend iiidid 1 TORO P TIER im 10 6 1 Topic Device 1 Protection Command 1 Ref mark Enter here the reference mark for the protective device this reference will be displayed to the right of the protective device in the Board Single line tool Protection manufacturer Allows you to choose a protection breaking device from a circuit specific catalogue file Protection minimum rating Minimum rating is defined in circuit style e Light Style 10A e Socket Style 16A User may modify this value For example minimum rating for sockets can be reduced to 10A instead of 16A It is incumbent on user must to enforce standard rules K fuse TC derating The line fuse derating factor This factor may depend on the type of fuse holder It is mandatory to always enter this as the nominal rating of UR
125. fuses is given at a Tamp of 20 C and hence this factor is rarely 1 No check on short circuits thermal stress for conductors When this option is ticked protection against short circuit may be provided by protection against overload according to conditions specified in the standard The following table shows the protective devices for which the No check on conductor short circuit capacity option can be used Max permitted Ft A7 s The max permitted l t for the electronic equipment to be protected on the line This value should be given by the manufacturer of the equipment to be protected 84 Upstream tab Reference manual ALPI 2012 Caneco BT O Fuse size It is necessary to add this parameter necessary in order to limit the number of UR fuse files to one per family There are several sizes in each family and the same rating is found in several sizes but with different T C t lim and Ip lim characteristics Type of protective device Instantaneous thermal magnetic circuit breaker Electronic circuit breaker with long delay incorporated and short instantaneous delay Modular circuit breakers All delayed protective devices 10 6 2 Topic Device 2 Associated control 2 This item allows you to enter the type of associated control device on a circuit Topic Device 2 Enter here the reference mark for the device this reference will be displayed to the right of the device symbol in the Board Single Line tool Devi
126. ghting via remote switch ECL BAES Lighting BASL Circuits Styles ECL BAES TELE Lighting BASL Rem Sepa control ECL BA4ES TL CDI Lighting BASL Rem integ control ECL MINUT Lighting Timer ECL VAR Lighting with dimmer ECL TELEVAR Lighting with remote control dimmer Heating CHAU FIL PILOT1 CHAU FIL PILOT2 Heating with pilot wire Heating with pilot wire 2 Misc TR SON SON Bell transformer with sounder TR AUX Auwiliary transformers TR SON SEUL Bell transformer on its own TBS Remote control for BASL REG CHAUFF Heating regulation CDE FIL PILOTE CDE FIL PILOT 1 PARAFOUDRE 1 PARAFOUDRE 2 Control by pilot wire Heating control via PAW N O cont Surge Arrester 1 Surge Arrester 2 m Reference manual RES EQUIP Spare capacity equipped RES N EQUIP Spare capacity not equipped PARASURTENSELUR Over Voltage Protector Board TAB BORNES Switchboard terminals earth bar TABL OND Switchboard with inverter supply ONDUL2 Inverter N1 amp N2 together GRILLE Splitter arid GRILLE SEC Secondary grid Transformer TRANSFO INT Internal LV LV transformer TRANSFOASI Transformer with back up supply Bod E Circuits blocks x Additional diagrams Uninterruptible power supplies UPS 97 Caneco BT O ALPI 2012 Representation of the UPS in the Board Representation of the UPS in the network single line diagram single line diagram So gg S E M ERO
127. gle line diagram tab of the Preferences window 136 Numbering terminals Reference manual ALPI 2012 Caneco BT O Display reference marks according ta EN 60082 standard Terminal black Ref Mark position Terminal Ret Mark position gt not visible 9 not visible Underneath the Ref Marks terminals 9 on the left of the symbol Coupled to the Ref Marks terminals on the left of the symbol on the right of the symbol on the right of the symbol The prefix of the terminal block 1 ref marks can be defined from the Board single line diagram tab of the Preferences window Preferences Documenti L i Save Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks Automatic Ref Marks Print Colours DefaulValues Directores Wamings and remarks Objects ref mark Number of caracters for E the suffix 4 Boards and transformers TD Busbar Trunking Systems TM Enter after the active Circuits Keegan Advanced Busbar Enter after the active Associated circuits SPERA Styles v Identical to Cables circuit ref Mark Identical to circuit ref Mark Equipments ref mark Circuit breaker Currently used method Contactor and others remote N according to the line of the circuit control switch time delay switch Fuse disconnector Fuse switch fuse Equipments
128. h the upstream circuit breaker gt INS63 is compliant Icw 25 kA 2 Ik Av 20 99 kA Coast sheet E C 01 on TD Owi Su Boat Porcia EDI arial aor y t E Results Circuit C_001 Circuit compliant Label Value Neutral PE or PEN Criterion IN Max length IB 63 0A STH 7 6 mm IZ 74 7 A dU circuit 0 00 dU total 0 30 Ik3 Max 20996 A Ik2 Max 18183 A Iki Max 19477 A If Max Ik2 Min 15163 A Iki Min 15239 A If IrMg Max 15163 A Ik Am Av 21 0 kA 21 0 kA Discrimination Type Discrimnation on Ik Not calculated discrimination Not Calc tial discrimination Not Applicable Association With 25 kA L chemin 0 m x La 128 Application in Caneco BT Reference manual ALPI 2012 Caneco BT O 15 2 1 Result Without the limitation of the circuit breaker with co ordination taken into account Type Switch Manufacturer mgl 1fr1 itr Family INS 53 Overrating Factor 1 00 Mlcm gt Ip upstream 15 0 kA gt 441 kA ay cw E gt Fllnct ft 3 0 k 1 0 3 LB kA 1 0 s acm with Backup gt lk Max 25 0 k r 21 0 kA 15 2 2 Result With the circuit breaker limitation with co ordination taken into account Type Switch Manufacturer mag 1 Fr itr Family INS63 Overrating factor 1 00 aulcm gt p upstream limited 15 0 kA Bg kA s cw E Flinct E 15 0 kA 1 0 s L5 k 1 0 s acm with Backup gt Ik Max 25 0 k 21 0 k The Icw short term short circuit current
129. he central zone of the Caneco BT screen 4 7 1 Entry spreadsheet circuits from the active board T Dm Dude jone hri Geos e mia f i dH uaaaiuu Mrccg geee smi Bl a 6 Hered ope lage Ha ZE reumaa oe Lr na n i iT n n Ri at UN BERT RRR ERS Rae oe OLOUerumard ara oie in Bey al raria ample T Menai banir Da m heck dome on IDOLE 11 13 ED uu 5 ee ee d Titidushuntsi woken orcas x P Adah mb asirecasd Cel armed 4 7 2 Board single line Circuits from the active board a a e e i eh er tt e e S ERE M M os Gjo UM Om jue QuMbus Qus De we Xx d 419 21234u157 2 8 75 oF wrd aph A OR UI ii krimpen FP Feet Crow CI Cort Uh aed v am ua rimum ity Ma Li 768 n P x w 2 7 ami Sher 1T ee wur FeRFELSES EFE gt wie LIN TI ee LOA Dicrmnbor Tota Acn ntf 0 LA Magee aimi wat Om C Mosca amd Semp n a ans ado eme ncmpe ec Naana Slade DO AR al Check dene on 08 19 2007 11 12 10 Anaga cl co und o memos Oettedadaness roba ardyti Auvakyuss si an itm cated ins sb rmm 1 adngekelaye i O MM 26 Circuit entry tools Reference manual ALPI 2012 4 7 3 General Single line Diagram all project circuits re Lm Gee joes fetus Goa Tum gras f Ei of licer __ ape ee hal itera a NH 1M x x A e eanes D dm Ea mna 301 m it BEE
130. he currents from the most heavily loaded phases taking phase imbalance into account In terms of the power requirement the adjustment is automatically performed using the average currents as in the earlier versions The adjustment for the on the distributions most heavily loaded phases is carried out in the phase balancing after the power requirement has been validated The sub busbar power requirement is automatically produced during phase balancing after the power requirement has been validated regardless of the calculation option selected under the power requirement The move on to phase balancing is user transparent As in the earlier versions if no adjustment is requested and the power requirement is validated the consumptions of the distribution circuits and sub busbars that are at O are replaced by the consumptions calculated using the Calculation option under power requirement e Note 1 The desired availability value and the option Including sub busbars are specific to each distribution and its sub busbars if the For the selected distribution option is enabled and Adjust is clicked e Note 2 As at present the desired availability is taken into account for the per phase power requirement but not for carrying out the actual balancing itself 22 Power requirement Reference manual ALPI 2012 4 5 The search function The search function offers various options to search for the distribution s in
131. he tables are not met if the discrimination option is By Tables e The manufacturers and or the catalogue years of the upstream and downstream protections are not identical In this case the diagnosis is established by a graphical analysis of short circuits according to superimposition of the upstream and downstream curves See example 2 With a view to optimising discrimination it is possible to make use of the limitation capability of the downstream protection by ticking Discrimination by curves with Iks limited See Example 3 Discrimination calculation Method C3 From Tables 9 with Curves Curve discrimination with limited Ik e Example 2 T s 10000 5000 TGBT NS1250NMicrologic 5 0 91 d 1000 DU e NNGXTBOFMierlogic 2 2 1608 0 005 kat IkMas Av T6kA 0 001 Ik kA 0 1 05 1 5 10 50 Analysis of the curves shows that discrimination is total because of the protection settings and the specified time on the upstream protection difference 40 ms Caneco diagnosis Total Ik2 3 Max 26325 A Iki Max 167414 Tk Min 19716 4 Iki Min 14244 A If 9192 4 rig Max 7660 4 Ik LipStr DwnStr 26 3 kA 26 3 kA Discrimination on Ik Tatal hermal discrimination ith RCD discrimination Not Applicable Reference manual Discrimination by Curves 119 Caneco BT O ALPI 2012 T s 10000 5000 e mnia 5o91 Ik3 Max 15952 A E E Tk Max
132. hting BASL Fem Sepa control a ELL BAES TLSCDI Late BASL Rem rico contol ECL MINLIT Lighting Tener ECL VAR Lighting with dente ECL TELEVAR Latte with omemckheconiiol dene g Heating CHAU FIL PILOTI Hesry wth oda rue CHAU FIL PLOT Heating with plot wee 2 1 0 Me IR SDN SON Bed hianlormer vali scuanxdet TR ALE Akay banstoeness TR SON SEUL Bed naruformer on s own IAEA Lamb comin Loa BASS x Enter the motor downstream of the Representation of the regulator motor combination regulator and dont forget to select in the Board single line diagram Without Prot for the protective device type 1 and to select the overload protective device as Upstream 2 A M lonMSB 5 a Motor Standard Upstream Cicut Additional data Additional results Co 2 Mout vs l 3 630A Lipertres am MSE Supply Lonductort 5 Protection Control gt 6 400 V Type 7 Protection 8 Overload protection E 10 Thama Dowstieam e Note The regulator motor output is available as a block 1 in the graphics library under the Circuit blocks tab 102 Regulator motor output Reference manual ALPI 2012 Caneco BT O H Hemd Lee eri Reference manual Regulator motor output 103 ALPI 2012 Caneco BT O 12 Preferences 12 1 Generalities on Preferences The Preferences tool enables to set the default preferences parameters classified by items To each
133. imulation Model name According to catalogue the model name may include the name of the breaking device release relay and Residual current Device In Break Nominal current of the breaking device Rating Rating of the release relay Icu A Breaking capacity of the protection eventually with association coordination in kA D clencheur Release Release type Thermal with Magnetic 5 to 10 In Thermal with Low Magnetic 3 to 5 In Electronic Th Discr Displays the Thermal discrimination with the upstream circuit breaker when selecting the circuit protective device Ik Discr Displays the short circuit discrimination with the upstream circuit breaker when selecting the circuit protective device Poles Configuration at the protective circuit breaker number of poles of the protection number of protected poles RCD Residual current Device without separated Ir Min Ir Max Reference manual Downstream Board Tab 91 Caneco BT O ALPI 2012 User s choice by model Circuit breaker choice in catalogue Catalogue 2004 2005 Electricien 2006 Choice Informations Sheet Protection of circuit MSB C 001 Model name In Break A amp Rating IrTh Min Icu kA Release NS100N TM16D 16 00 2 80 36 NS100N TM16G 100 00 NS160N TM16D 160 00 NS160N TM16G 160 00 NS250N TM16D 250 00 NS250N TM16G 250 00 Magneto thermal Magneto thermal Low Magneto thermal Magneto thermal Low Magneto thermal Magneto thermal Low NS1005 T
134. ion This screen is different depending on the chapter selected in the project tree If the active chapter is one of the switchboards the screen lets you enter the circuits with the help of the 3 data entry tools network single line switchboard single line or table 5 Details of the active circuit 6 Results for the active circuit 7 Calculation report 4 2 Menus 4 2 1 Menus bar Whatever is the used entry tool the software has always at top screen zone the same tool bar EE File Edit Display Supplies Distributions Circuits Tools Windows It shows the nine Caneco BT menus Each menu contains commands described in this manual To display a menu click on its title in the action bar The different options will appear Reference manual Caneco BT interface overview 19 Caneco BT O The menus are File Available commands concern create edit save and print a project The commands which are accessible relate to the creation recovery recording and printing of a project Edition Circuit editing commands Cut Copy Paste Delete Display Display the different parts of the screen Sources To reach Sources windows Normal and Standby Distribution Searching of boards or LV LV transformer feeding circuits Circuits Commands on circuits Tools Circuits calculation parameters or default values Windows Windows standard menu to display project windows Help Help options 4 2 2 Local menus Pop up
135. isplayed by clicking on Upstream board tab in a window of any circuit supplied by a busbar trunking system 6 3 3 Manufacturer Section File Name of the busbar trunking system manufacturer file Reference Name of the busbar trunking system model 6 3 4 Busbar Trunking System Data Section Upstream circuit Ref mark of the circuit supplying the busbar trunking system Ref mark Busbar trunking system ref mark Designation Name of the busbar trunking system Distribution Caneco BT Kind of distribution made up by busbar trunking system This data has an effect on voltage drop calculation in this busbar trunking system Transport distribution the busbar trunking system carries electricity This busbar trunking system allows to supply only an equipment at the end a board or a busbar trunking system or any other circuit The mean current carried by the BB trunking system on its length is IB Example of a busbar trunking system transport K_1 with a load at ending Busbar trunking system K_1 supplies another busbar trunking system K_2 K 1 Reference manual Busbar Trunking System Window 55 Caneco BT O ALPI 2012 e Comb Distribution the busbar trunking system feeds circuits distributed along its length The mean current carried by the BB trunking system on its length is IB 2 Example of a busbar trunking system comb K 1 with an evenly spread load Busbartrunking system K 1 su
136. istribution Downstream Modification index oc 1 MSB Cieout C Normal DB 1 2 C3 MSB Edik CNormal DB 3 3 C2 MSB Reach CNormal DB2 4 C3 MSB Remove from selection CNorrmal 5 CTh DB Clear selection C Normal 6 C12 DB1 Print selection C Normal 7 C4 DB 1 C Normal 8 C 5 DB 1 C Normal g c6 DB1 Move down CNormal DUC 7 DB 1 Circuit C Normal E The Edit command activates the circuit sheet The Reach command returns to the entry editor selects the circuit and opens its sheet Reference manual Caneco BT O The search function 23 Caneco BT O 4 5 2 Searching for circuits on the basis of their status Select the Status option in Search Field Search in Project Advanced search In Circuits d Search Circuit to recalculate Search fields State Differentiate CAP small Complete words C Add new elements to selection Ref Mark Upstream Distribution Upstream State Normal Standby Mode Downstream Distribution Downstream Modification index Select the status of circuits in Search Field Search in Project In Circuits T Search T OK amp Circuit OK 14 Circuit to recalculate Search fields Cables not correct Differential Protection not Correct Complete v ircuit not correct C Add new elements to selection Ref Mark Upstream Distribution Upstream State Normal StandbyMode Downstream Distri
137. it s protective device to trip before the current circuit s protective device trips The probability of this type of failure is very low To correct this increase the upstream circuit s thermal trip setting or over rate its protective device C83 Zero differential discrimination In the event of a Phase PE fault there is a risk that the upstream circuits protective device will trip before the current circuits protective device trips To correct this you can modify the upstream circuit protection increase the setting of its differential protective device or eliminate its differential protective device or add a time delay to its differential protective device type S differential or time delay differential relay You can also take action on the current circuit s protective device reduce the setting of its differential protective device or add a differential protective device if it doesn t already have one C84 Attention the starting voltage drop is greater than 15 This case concerns motors A voltage drop greater than 15 risks causing the motor to fail to start Override the phase conductor cross section to a higher value Possibly select a type of starter that limits the starting current C85 Do you want to select a single core cable C86 Selected cross section within a tolerance of X lower than the calculated cross section The standard you are using allows you to select a cross section with a permitted current X
138. it to put a new circuit at left from this one Then click on New circuit button at top left from the network single line diagram bution MSB Available 863 00 A 377 00 All Styles vv Om s RI To create simultaneously several circuits proceed as above but before you choose the circuit style press and hold the Shift key After you has chosen the circuit style Caneco BT ask you for the number of identical circuits you want to create Reference manual Board Single line Tool 69 Caneco BT O ALPI 2012 8 2 Modifying the diagram of a circuit H Himi Lisa E urbe a P I j sal 16 5 iB POPE i S s P o PHI PO aul a8 amp 4 I mum Jel Discus i Eben Loa block Aer dex aca You want to modify the diagram of a circuit through the symbol library Enable it by clicking on Library tab in the screen zone reserved to results Choose the Protections tab of this library To add a symbol choose it from the library and put it using drag release control Caneco BT does not allow you to modify a circuit diagram if this modification is contrary to data used to its calculation In this case Caneco BT opens the circuit sheet and you must modify the data so that they will be in accordance with diagram meaning 8 2 1 Delete a symbol To delete a symbol replace it with the first continuity symbol from connections zone of the library
139. itional results Conformity Tests Curve discrimination Coordination Cable Protection Downstream L Board UPS Ik dU Impedances Currents Schematic Options Specifications Drawing N Drawing N for the actual board printing Terminal blocks earthbar Terminals on power circuits Draw the earth bar on single line diagram v Terminals on no calculated circuits associated Max cables cross section on terminals 35 v Terminals on PE Type of default terminal Not disconnectable Y Normal Terminals type Terminal name Terminals N ise For a description of all these fields see paragraph in Schematic section 52 Board windows Reference manual ALPI 2012 6 2 8 Options tab TD001 on MSB Board Standard n Wl A A P Z2Z SGAA Upstream Circuit Additional data Additional results Conformity Tests Curve discrimination Coordination Cable Protection Downstream Ambient temperature of Circuit breakers General purpose Circuit breaker Distribution Circuit breakers Switches Downgrading due to temperature Factor on fuse Cables Overload Voltage drop Indirect contact Short circuit Board UPS Ik dU Impedances Currents Schematic Options Specifications Factor on thermal r for gd Th and gG Th 40 C v ci 30 C
140. ity In this case it is necessary that its breaking capacity in coordination with the upstream protective device is higher than Ik max 10 11 23 Magnetic Standard low or electronic according to chosen device Reference manual Results Window 95 ALPI 2012 Caneco BT O 11 Entering and calculating complex circuits 11 1 Uninterruptible power supplies UPS UPS operating principles and the calculation method adopted in Caneco BT are described in an on line document accessible via the Documentation command from the Help menu ag Help Items Search Help on About ALPI Distributor License borrowing Today s trick About Caneco BT This paragraph sets out the procedure for entering data for the various configurations of UPSs in Caneco BT and how to use the results obtained where these are present 11 1 1 Single supply UPS This is a UPS supplied via a single feed The protective device and cross section of the latter will be calculated according to the inverter power In order to allow for the battery charging and optimizing the inverter efficiency it is recommended to over rate the protective device by 25 Data for the UPS circuit can be entered by Selecting UPS BOARD in the style list Dragging and dropping the block available in the circuit block library Ix ECL TEL CDE Lighting Remote Integrat control S vanne ECL TELE Lighting Remote Separate control ECL TELER Li
141. late the connection to it Try a connection using a busbar trunking system G5 Override the number of conductors first G6 Override values contradict data Identify and correct the inconsistency between the override values and the data G7 only the TT earthing system makes it possible to accept this data You are entering data that is contradictory with the earthing system being used G8 Override cross section too small The override cross section you have entered will not carry the permanent current of your supply Modify your override value or correct your supply G9 Override neutral cross section too small or calculation not programmed Modify your override values for the number of neutral conductor and their cross sections G10 Non standardized cross section Modify the cross section you have entered as it does not appear in the file of standardized cross sections G12 Cable not in catalogue price 0 in the price standard The cable selected by Caneco has a zero price in the PRX price file in the manufacturers file selection window first command on the Options menu This may indicate that the cable is not listed in the supplier s catalogue G13 Current too high for the busbar trunking systems on file Check in the busbar trunking system file if there are any busbar trunking systems with a rated current higher than the load current of your supply Where applicable add the missing item to this file or try with another ma
142. lated only when ID IN ratio is gt 1 10 11 9 dU Total Total Voltage drop in 9o from source 10 11 10 Ik3 Max Maximum 3 phase short circuit current at far end of the circuit 10 11 11 Ik2 Max Maximum 2 phase short circuit current at far end of the circuit 10 11 12 Ik1 Max This is the max short circuit current single phase at circuit ending if neutral is present 10 11 13 If Max Maximum fault short circuit current at far end of the circuit if there is a PE 10 11 14 Ik2 Min Min 2 phase short circuit current at far end of the circuit if there is no neutral 10 11 15 Ik1 Min Min single phase short circuit current at far end of the circuit if there is a neutral 10 11 16 If This is the default short circuit current phase PE at the end of the circuit 94 Results Window Reference manual ALPI 2012 Caneco BT O 10 11 17 IrMg max Maximum setting for protection magnetic general purpose circuit breaker This value is calculated from IkMini Ik1 or Ik2 or If 10 11 18 Ik Am Av IK Max Upstream Downstream the link in kA 10 11 19 Discrimination on IK Short circuit discrimination with upstream It can be Discrimination Description Nil No discrimination Total There is a selectivity for all short circuits situated on the circuit even on protection terminals Functional there is discrimination for all downstream short circuits most common situation but not for a short circuit at protection terminals very low p
143. lculated V Magnetic discrimination Total V Thermal Discrimination With In or Ir gt Ib k oversizing 12 84 gt 12 004 wn or Ir Ne gt b Ne x k oversizing 12 80 gt 12 00 El Cable Poles 3P N PE _ lengh em a Care Tanner v 10 8 1 Standard conditions The Conformity sheet is used to indicate all standard conditions which must be satisfied by a circuit to determine corresponding values and indicate if they are satisfied or not These conditions are Protection determination of thermal relay rating or setting depending on IB Thermal relay Ir or IN gt IB breaking capacity Icu with or without association with upstream gt IkMax Cables Voltage drop Overload Protection against indirect contacts Thermal stress for phases neutral and PE PEN All of the conditions indicated are e those directly expressed in the standard e g kS gt l t for the thermal stress condition e or the corollary conditions For example the condition Ik Mini gt IrMagn x 1 2 magnetic release on IkMini which is one of the conditions to get the standard condition above These conditions translated by formulae can be completed by graphical representations Compliant non compliant conditions With the conformity sheet one can see immediately if conditions are not correct In such case with Caneco BT one can see in Fault tab of the conformity sheet all standard conditions which are not correct e The condition
144. le a complex project multiple supplies in the form of several afr files Supplies Distribution Circuits S Normal supply F2 D Standby supply Fs Standby connection Delete standby New project from Existing project 1 2 3 4 5 6 7 8 8 Implantation Face avant Sch ma de commande ul o a 7 SOURCE SECOURS TD001 TD002 TD003 Creating a new project from circuit TDOO1 38 Battery set source direct current Reference manual ALPI 2012 Caneco BT O Creating a project pS Creation of a project from a point Originating switchboard for narmal supply MSE Type of supply For new project Board by lk Create project Cancel Help Select the switchboard from which you want to continue your installation To take the switchboard s N amp S characteristics into account check Merge data for incoming N supply with those for S supply to form an N S switchboard in the new project Creating a project bd E Y es Creation of a project from a point i Originating switchboard for normal supply T Merge data for incoming N supply with those for B supply to form ian AB switchboard in the new project Originating switchboard for backup supply Mana E Type of supply for new project Board by Ik Create project Result of creating the project 3 4 5 6 xl Results Libraries Distribution SUPPLY Circuit c
145. lies Jd Hee DT NEC NNI ddp Poorest Docunmenit ah pg Standard phos Lem Forme i Pra LEE TIT a Stoh Rear i COO Montis Molin 8 dies Dr Shen Maramures lier 3 Biol ockel nocet I 8 C Breuer C Baas Pr 11 FE ddhonal decumert or zerfriz 3 PCIE Lighting i sgir c Bn L Hara Prot 1 1 ua Bond ieee ihn euch g PIX cris co 8 c Drawasr C Fa Prog it STEAN rent E Pete ne ani c Braut Baa Prot ii 4 eee mrs Bh laksa luabas Trade pibem uc Griki C Bira Ore 1 amp rj MGB P ic ind Capta 1 C Bra C Baa Prot 1 1 dad TE UI ne Tien LLY Tiani oie LPL Jc Orewiar C lana Pree T Burbar iuh Mie hia 4 C Beater C Boas Pre d eer _ C Bii Biia Pros Ho EELS MOT DAT Fun ek ye ee d cr Bees Boa Peor ma ud HoT De Ud peohiss paw daoias c Bras E Baa Pros 1 Pea BOT iHVEHS Viste deux sarc de nat TE Grier C Bos Mi Wii cL MEDI Dia Eua LT TE m a c Gromer L Daan Prot 3 EL J C Srewier C Bann Mra 1a CLO ECL SnAIT I JE freer C Tian Frat IF ELO CL AA eT Pelji 1 o c Goma C Bara Pron I FCLOSE Ci MALAT 3 5 Drawer Tian Pret i3 oLar CCS DAT Eg Beim i Gc Dewar E Vana Fror Pi mm To create simultaneously several circuits proceed as above but before you choose the circuit style press and hold the Shift key After you has chosen the circuit style Caneco BT ask you for the number of identical circuits you want to create Reference manual Creation of a new circuit 73 Caneco BT O ALPI 2012 9 2 Edition Commands 9 2 1 Selection of one or more
146. mber of PE conductors User may set here the number of PE conductors allows reduce phase cross section The default value for Number of PE conductors is set as 1 In situations where this option would lead to over sizing of the cross sections for the phase conductors or even prevent calculation indirect contact criterion a message will be displayed to suggest checking the Number of PE conductors no of phases option in the Calculation options window under the Cables tab Handling PE thermal stress This is handled by automatically taking into account the Breaking Time Rule or BTR This may affect BBTS sizing PE cross section reduction Magnetic trip settings The calculation criterion and compliance Number of additional conductors User may set here the number of additional conductors for example pilot wire on a heating circuit 10 6 5 Terminals section The user can set terminal marking define a terminal block name enter the number and type of terminals E Terminals Wiring an terminals v Terminal fing Terminal block name Terminal numbers Number af additional terminals Terminals type Mat discannectable 10 6 6 Circuit characteristics section Creating circuit attributes attributes 1 2 and 3 makes it possible to describe the nature and diagram of a circuit These attributes can make it possible to automatically generate multi line block diagrams in electrical wiring diagram applications These
147. me of the protection model Breaking device Release RCD References Rating and number of poles Protection Lock Unlocking Locking of the protection is reported by the ticked or not ticked state of the box planned with this end in view Protection NS400N STR23SE Wigi MB 4004 4P3D ae During a calculation a locked protection is not modified The user can modify the values in the catalogue value limits Rating Rating of the smallest protection which can satisfy standard conditions if your protection choice is automatic or the rating you have selected if your protection choice is manual If you want to impose this value the button ill or the user s choice by model situated at right from this field allows you to choose the protection amongst all ones included in the manufacturer file you has chosen and according to standards Type MCCE Indirect contacts Basis Prot Protection FO400M SMAI ADJ 3504 4P3T f ECT 7 Overload protection Short circuit protection El Automatic choice R ating Ir g 1588 A T User choice by model INIT hlLA 300 4 Delayed f User technical choice CTM Delay 4 Choice out of catalog T T2 T IN Irth IrLR R glage du thermique du disjoncteur ou calibre du fusible assurant la protection contre les surcharges Pour un disjoncteur le r glage du thermique est param trable commande protection du menu Option ll peut tre r gl au minimum IB courant d emploi au maximum calibre de la
148. ment value of the thermal trip unit is not modified Mo check af thermal stress Far Ik on conductors If unselected this option allows to be free from release condition on Ikmin Ikmin gt 1 2 x IrMg Attention for more information see the related standard paragraph Reference manual Calculation Tab 113 13 1 2 Sizing criterion The user can choose not to verify one calculation criterion for a very specific reason If the Overload criterion is unchecked the following message will appear A virtually identical message will appear depending on which criterion is deselected e Attention This section is intended for experienced users only In the event of a reservation expressed by a technical inspection service the Caneco BT user will be obliged to provide justification 13 2 Cables Tab Calculation Protection Cables Price Tracks Multicore cables up to 70 mnt v Aluminium cables from 25 mint v Allowance for cross section calculation 5 Apply allowance to Supply MSB link Max cables cross section on terminals 35 mnt Y Q Isolated Bare _PE number of conductors Phase nb 1 Reduction of conductors allowed Neutral cross section Main circuits Final circuits PE cross section v Main circuits Section mini PE suivant v Final circuits Par calcul Par tables normatives Phase dimensioning for overloads v Afficher un message d alerte si le nombre de conducteurs par phas
149. menus speed up certain operations These are specific menus adapted to the dialog box window in which you are These menus are activated by clicking the mouse right button Example of a local menu activated in the circuit calculation window db cut Copy Fa Paste A Delete Edit afc Automatic Calculation Data entry options Symbol properties CErI4 X Cri C Ctrl V Del Fa w Toolsbar For network diagram 20 Menus ALPI 2012 Reference manual ALPI 2012 Caneco BT O 4 3 Buttons Under the menu bar you find the tool bar Each button of this tool bar gives direct access to actions also existing in menus Sj me fda a wu X 3 Normal Supply F3 ft MSB b QHotdisconmectabl lt 2 a e Cut Copy Paste Search Print preview Print Page setup Circuit entry sheet Board single line diagram General single line diagram Full calculation F8 OCOCNOOARWN gt These buttons may be customised in two different ways clicking on menu bar you get access to the following pop up menu allowing you to add or delete button groups Standard Display Spreadsheets Supplies Distributions Circuits ILI Network single line Tracks Calculation box E Maintenance tools Customize by clicking on down arrow situated at right from each button group you get access to a menu allowing you to modify this group Add or Remove Buttons
150. n Differential discrimination Limit A From m Ir Diff Diff delay Max operating Time IC Ph PE Ne Link width mm Link height mm Weight Kg m Ip limited or not Reference Manual Manufacturer s catalogue used for the protective device Protective device minimum rating also defined in circuit style Protection breaking capacity in kA Protection breaking capacity with backup coordination in kA Thermal discrimination with upstream Differential discrimination with upstream Current discrimination limit on short circuit in Amps Distance from which there is total discrimination on short circuit Differential Residual Current Device adjustable in mA Residual Current time delay in ms Max operating time for a circuit breaker protection not to exceed human protection against electrical shocks condition ms Max operating time for a circuit breaker protection not to exceed phase cable thermal stress ms Max operating time for a circuit breaker protection not to exceed PE cable thermal stress ms Max operating time in ms for a circuit breaker protection not to exceed Neutral cable thermal stress ms width of the link on cable track Link height on cable track Link weight for one metre in kg Maximum peak short circuit current limited or not in kA at beginning of circuit Circuit window Additional Tab 179 Caneco BT O ALPI 2012 20 4 Results window Cable Neutral PE or PEN Criterion Max Length
151. n be solved by choosing a differential device or an LES C65 The Poles information has been changed from Uni Multi to multi pole or single pole Your override and the Uni Multi information led to ambiguity as to the nature of the cable The program has resolved this ambiguity by changing the information to single pole or multi pole C66 The connection includes an unlisted cable One of the cables selected by the program is not listed in the catalogue its price is zero in the price standard Where applicable replace the zero price in the cable price file Where necessary modify the minimum or maximum cross sections in the cable cross section file C67 We have selected a COPPER cable and changed the conductor core information to COPPER Caneco has taken into account the minimum value for aluminium cables which is given in the window called up using the Cables command from the Options menu C68 No circuit breaker with adequate breaking capacity This case usually corresponds to a modular circuit breaker curves B C or D installed in a switchboard with a high short circuit current capacity Opt for a general purpose circuit breaker or a fuse C69 This data is not listed C70 The calculation does not take the imbalances between conductors into account The number of conductors per phase is greater than 3 In this event the current in each phase is not shared evenly between the different conductors In any one
152. n front of an object functional unit prefix for marking as per the EN 60082 standard A number of prefixes are also provided for automatic equipment marking The default ref marks are defined as per the EN 60082 standard sign in front of a device ref mark see Schematics section Preferences Documenti Save Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks Automatic Ref Marks Print Colours Default Values Directories Warnings and remarks Number of caracters for the suffix Boards and transformers BT_ Busbar Trunking Systems BTS_ hs d Enter after the active Circuits C distribution name f Busbar B_ i e Enter after the active Associated circuits AU disbulionname Styles STY_ Cables v Identical to circuit ref Mark l Identical to Equipments iv circuit ref Mark I Le Circuit breaker CB Currently used method Contactor and others remote N according to the line of the circuit co control switch time delay switch ie p is F Change marking method Switch disconnector SD Thermal relay TR Terminal TB Advanced block Default options OK Cancel Help Advanced prefixes for circuits Advanced prefixes Motor Busbar trunking Lighting Capacitor Socket Heating Transformer Misc Busbar Cancel 12 10
153. n loop reactance Phase to Phase Xd Loop reactance Phase to Phase Reference manual Board windows 51 Caneco BT O ALPI 2012 6 2 6 Currents tab Additional data Additional results Conformity Coordination Cable Pratection DONUM Ik dU Impedances Currents allowed allowed Available Available 5 Currents 5 Currents Mean Cos Phi l Mean Cos Phi R lZ cables R lZ cables ith board ith board Allowed Allowed current downstream board This value is equal to the current of the circuit feeding the board available Available current downstream board available design current for new circuits which can still be fed from the board S currents Design current IB sum of all circuits issued from the board multiplied by the board simultaneity factor Mean cos phi Mean cosinus phi at board level taking into account downstream circuits and eventual capacitors R S IZ cables Irth board Ratio between sum of Z of downstream circuits IZ calculated without taking into account group factor and the upstream thermal relay setting The use of this information figures in the standard It makes it possible to modify the proximity factors of the circuits located downstream provided that all these circuits are juxtaposed in the absence of any other circuits 6 2 7 Schematic tab cuutihee Co NN TD001 on MSB Board Standard Upstream mm Circuit Additional data Add
154. nderground 5 7 2 Group factor K prox The corresponding value is calculated considering the cables on cable trays issued from one single transformer with touching installation Links with other transformers are assumed separated by a distance such as their thermal influence can be neglected characterised by the group factor For installation methods other than on cable trays you must modify eventually this group factor as proposed by Caneco BT To do so use button J which displays installation methods tables according to standard used 5 7 3 Symmetrical factor fs Symmetrical factor fs 0 8 in the case of various cables in parallel 5 7 4 Additional factor Enter the additional permitted current derating factor in accordance with external influences This factor is not laid down by standards it is defined by the user 34 Link section Reference manual ALPI 2012 Caneco BT O 5 7 5 Conductors Number of conductors e Calculated value taking into account a maximum cross section of 300 mm up to 3 cables e f current requires a cross section bigger than 3X300 mm per phase the programme proposes different possible choices Forced value can go up to 10 conductors per phase Phases cross section Maximum calculated value 300 mm Commonly found size Maximum forced value 800 mm Neutral PEN characteristic Single phase Calculated values taking into account Neutral reduction parameters defined in dialog box opene
155. nking System Window 57 CanecoBT 0 0 y ALPI 2012 6 3 9 Schematic Tab fae For a description of the fields see the Board window paragraph in the Distributions chapter 6 3 10 Temperature Tab 2 For a description of the fields see the Board window paragraph in the Distributions chapter 6 4 LV LV transformer window 6 4 1 Definition When a circuit of LV LV transformer style has been created it creates automatically e LV LV transformer downstream circuit cable e Virtual board on LV LV transformer secondary terminals which makes it possible to feed other circuits Transformer LV LV circuit C_3 and its transfo LV LV its distribution board B 3 i io MSB Circuit C 3 C3 Board B_3 put at terminals downstream B 3 transfo LV LV 6 4 2 Transformer Tab C 4 on MSB 2 Transformer LV Lv Standard Upstream Circuit Additional Additional results Conformity Texts Curve discrimination Coordination Cable Protection Downstream Transformer k dU Impedances Current Schematic Temperature Ref mark DB4 Designation Upstream Simultaneity Geographic circuit C4 factor 1 00 location a Power 1250kV Ukr 5 4 Earthing Voltage No load syst IT without N Ph Ph 400 V voltage 420 V Content 2P PE v Ref Mark Board ref mark on transformer secondary Upstream Circuit Upstream circuit ref mark Power Transformer output power in kVA Designation Board designation on transformer secondary ta
156. nt but would not be so under the new standard to show the earlier compliance in the text fields which Caneco BT makes available for each circuit 2 9 7 Recovering a Caneco BT 5 3 project in BT 5 4 All the circuits of a Caneco BTT 5 3 project recovered in version 5 4 are locked The project file format in Caneco BT 5 4 is not the same as in version 5 3 When loading a project calculated with version 5 3 two different cases must be considered 12 Calculation reference Reference manual ALPI 2012 Convert praject format Caneco has detected a change in format 5 3 1 75 4 Convert project C Users din Documents Caneco Demos AFR FRA 5_3 T exemple6 schemas 5 3 AFR Two cases are to consider E Project is still under study All circuits of your affair CanecoBT 5 3 will be put ta re calculate Q Before making an automatic counting if you keep certain results lock circuits thanks to the Help function lock in the Menu Circuits Or Lock project thanks to the help function lack project in the Menu tools Q Make an automatic counting cables and protection not locked by your installation will be resized without keeping old results E Project is accomplished and you like to make an extension re counting of your installation will be performed to update news CanecoBT 5 4 All old circuits will be automatically locked no data will be changed and circuits will remain sized as the version 5 3 You will be able ta mak
157. nufacturer s file G14 The selected busbar trunking system will not withstand the electrodynamic forces Override the type of busbar trunking system chosen G15 No check fs performed for non standard busbar trunking systems The busbar trunking system you have imposed is not in the busbar trunking system file G17 The calculation does not take the imbalances between conductors into account You are advised to add a permitted current reduction factor for the cables in order to allow for the adverse current distribution between the different conductor on each phase See Standard calculations high current circuits parallel conductors section G18 Supply from electricity company You must specify this in the supply type G19 Supply file to be defined G20 Transformer Ukr to be defined G21 Selection impossible Ref mark reserved for the supply 162 List of warnings and remarks and suggested remedies Reference manual ALPI 2012 Caneco BT O G22 Check the proximity factor The proximity factor proposed by Caneco corresponds to the installation method on the cable tray Modify this factor in accordance with the indications given in the Warnings and comments about circuits help section G23 One or more supply parameters have been modified You must calculate the supply in order to be able to calculate the project circuits 19 3 3 Warnings concerning circuits cable and protective device C2 Upstream magnetic trip s
158. o either save it or erase it You may print the report at any time To do so put your cursor in the part reserved for report Click the mouse right button to see the following contextual menu X Delete file SUPPLY Check Group factor G22 e Click Reach circuit to see the circuit sheet Click Help on remark to see a help bubble corresponding to the message 19 3 List of warnings and remarks and suggested remedies 19 3 1 General warnings concerning the system or Caneco BT S51 Manufacturers directory not found Caneco cannot find the manufacturers directory where the manufacturers files are stored This directory is normally Caneco BT s BASE sub directory the Caneco installation directory Check it is there and if not re install Caneco 5S2 File format error saving no Project file write error S4 File read error The file is not recognized by CANECO Wrong format check that it is indeed a project file S6 Impossible to write changes File access is denied check it is not open in another application S7 Invalid manufacturers directory Attention it is imperative that the manufacturers file directory is located below your application S8 No manufacturer type file Check the contents of the CFG directory 59 Too many manufacturer type files You have reached the maximum number of manufacturers files of the same type 510 Impossible You do not have this module available Check in the
159. o set e Default cable type e Default installation method e Initial modification index Standard Cables file LET OCDOR zv Instal method 13 Sur chemin de c bles perfor s horizontal Modification index A 12 6 Directories Tab User can not modify the directories containing configuration files and database User may put project files sheet backgrounds and Caneco BIT type diagrams into directories chosen by him Caneco BT version 5 4 offers more possibilities logos and stamps user diagrams and documents can also be put into directories chosen by the user Display Circuit Spreadsheet Board Single line Diagram Network single line Automatic Ref Marks Default Values Directories warnings and remarks Database L Caneca 6 4B ase FRA Configuration L Caneco 5 ACFG ENG avec param trage fra Backgrounds L PragramD ata ALPIsCaneco BT 5 44 FOLIOS Logos and stamps L PragramD ata ALPI Caneco BT 5 TL SBELS Project SL sers din Documents Caneco Caneco diagrams L PragramD atat ALPI S Caneco BT 5 34FRSSCHEMAS User s diagrams CU sers sdlpesDaeumentssCaneco User documents AL I serssdlnsDiaeumentssCaneco Reference manual Default Values Tab 107 Caneco BT O ALPI 2012 12 7 Print Tab This window lets you select the company logo and to define a stamp indicating the progress state of the project Image with the logo must be in the FOLIOS direc
160. ompl Label Value Cable Neutral PE or PEN Critrrion IN In suply 150 0 A IB 150 0 A IB neutral STH STH neutral dU total 0 30 Ik3 Max 20996 A Ik2 Max 18183 A Iki Max 19477 A IfMax 19477 A Ik2 Min 2443 A Ik1 Min 3835 A If 3835 A Trigger device Connection price SUPPLY Layout Front panel Control diagram Reference manual Creating a new project from an existing project 39 Caneco BT O You can still create a 2 supply from the Supply menu Standby Supply New project from q 3 rx Creating a jt EN Creation of a project fram a point Originating switchboard For normal supply rp oni E Ij Menge data for incoming M supply with those Far B supply to Form i an M B switchboard in the new project Originating switchboard for backup supply v Menge data for incoming M supply with those far B supply to Farm an AB switchboard in the new project Type of supply for new projec Board by Ik E Create project 5 13 Additional tabs 5 13 1 Miscellaneous Spo Cross section of the PO conductor connecting the HV LV transformer to the MSB Ra Earth resistance value at the supply Ra is only displayed if the earthing system is TT C SUPPLY Board supplied MSB Supply it Downett board Misc i o ptions for connection sizing SPo 12 35mm v Copper Pate omen 454 7 Al In source Overload criterion Voltage d
161. on value C13 Non standardized override rating impossible to calculate Modify this rating or override the thermal and magnetic trip settings C14 No discrimination table with this choice of manufacturer The general purpose and modular circuit breaker filenames shown in the window called up by the Manufacturers files command from the Options menu do not have discrimination tables The manufacturers files must be from the same year C15 Short circuit protection override forbidden Case of a g1 fuse as the rating of the overload protective device is the same as that of the short circuit protective device by convention only the former is allowed Case of a modular circuit breaker curves B C and D As the magnetic trips for these devices are set by manufacture you are not allowed to override these values You are allowed to override only the thermal trip value rating in this case C16 Out of calculation personnel protection condition See Standard calculations Indirect contact protection section The fault current If phase PE at far end of your circuit is not high enough to trip your protective device within the time required by the standard You can correct this problem Whatever the protective device By choosing for protecting personnel against indirect contact a differential protective device protection by SPEB Supplementary Protective Equipotential Bonding or by overall protective equipotential bonding of
162. onsistency on downstream switchboard The Standby circuit feeding the switchboard has been deleted C116 Inconsistency on downstream switchboard Delete the Standby circuit feeding the switchboard C117 File not found for specified cable The cable type file is missing shown in the window called up by the Manufacturers files command from the Options menu By default this file is CANECO CBL and is located in the CFG sub directory of the directory where CANECO is installed C118 Unsuitable protective device C119 Risk of tripping when circuit is closed start up ignition The circuit breaker s magnetic trip setting is too low to avoid a risk of tripping when the circuit is powered up 172 List of warnings and remarks and suggested remedies Reference manual ALPI 2012 Caneco BT O C120 Switchboard prohibited in Standby mode You cannot connect your Standby supply to this switchboard because of an incompatibility in voltage earthing system contents Check and where necessary modify the values for your Standby supply or for the Normal feed circuit to the switchboard you want to back up It may be necessary to insert an LV LV transformer in order to modify the earthing system C121 Transformer prohibited in Standby mode It is not possible to connect a transformer in Standby alone C122 Busbar trunking system prohibited in Standby mode It is not possible to connect a busbar trunking system in Standby alone C123 Unau
163. opriate adjustment value This checking and this calculation cannot be made for the selected protections in a Caneco BT format file 3 3 2 Information about RCD protection Residual differential In the above example you can see that the model has not a RCD release In order to get a differential protection it is mandatory to make cores and separated differential relay If necessary Caneco BT indicates this by means of an after calculation warning With a Caneco BT format file this process in not possible 3 3 3 Information about tripped off protected poles In the above example you can see that the model does not exist in 2P2D i e in 2 tripped off poles presentation 2P 2 protected poles 2D P means number of tripped off poles D means Release so number of protected poles Caneco BT does not allow to choose this circuit breaker model in a 2P2D presentation On the contrary with a Caneco 4 format file you can suppose that all presentation possibilities are possible This can result in the impossibility of finding the wanted equipment in the manufacturer catalogue while it was selected by Caneco BT 16 Differences between Caneco 4 format and EDIELEC format Reference manual ALPI 2012 Caneco BT O 3 4 Manufacturer file Information The database of ultra fast fuses is now available in Caneco BT Version 5 4 incorporates ultra fast fuse curves into Caneco BT circuit design Manufacturers files Data base C sProgram
164. ot have cascading tables C91 Error in circuit to be deleted This circuit has not been saved correctly We advise you to delete it If there are any circuits connected downstream use copy paste to save them C92 Nonexistent circuit block Circuit block does not exist in the list C93 Enter new name for diagram template C94 This circuit block already exists in the list Modify circuit block name C95 Maximum number of circuit blocks reached You cannot create any more new circuit blocks C96 Impossible to insert associated circuits without a base circuit You can insert a maximum of nine circuits associated with a single main circuit An associated circuit has to be attached to a base circuit C97 Delete the circuits coming from this busbar Deleting this circuit feeding a sub busbar will lead to the circuits it feeds being deleted too If you do not want this to happen use the table to modify the busbar upstream of these circuits then delete the current circuit C98 Circuit XXXX already exists Modify the ref mark of your current circuit Ref marks are unique C99 The upstream voltage drop Is ignored from this transformer onwards Caneco s voltage drop calculations ignore the voltage drop upstream of the transformer C100 Protective conductor cross section to be checked Check that the Spo cross section is adequately sized C101 Style XXXX already exists Modify the ref of your current style C102 Problem with this
165. phase certain conductors carry a current greater than IB divided by the number of conductors per phase You must allow for this mutual inductance phenomenon by entering a reduction factor for the permitted current Caneco s KD miscellaneous factor For 4 conductors take KD as around 0 8 C71 For conductors gt 3 gt override the no of conductors and the Ph N and PE cross sections C72 Are you selecting a low magnetic trip value in order to reduce the phase cross section The choice of a low magnetic trip value should makes it possible to reduce the phase conductor cross section Do not select a low magnetic trip value for circuits subject to a high inrush current motor LV LV transformer capacitor 168 List of warnings and remarks and suggested remedies Reference manual ALPI 2012 Caneco BT O C73 Are you selecting a low magnetic trip value in order to reduce the PE cross section The choice of a low magnetic trip value should makes it possible to reduce the PE cross section Do not select a low magnetic trip value for circuits subject to a high inrush current motor LV LV transformer capacitor C74 Destination not found The geographic location you have entered for your circuit or for the switchboard feeding it is not in the list of geographic locations defined in the routings source and destination of the runs Modify the location entered or add it to the routing list C75 The calculation does not take the imbalances
166. port Export Pack 157 18 3 Text import Import Export Pack 158 Warnings and remarks 159 19 1 Generalities on warnings and remarks 159 19 2 Editing of calculation report 160 19 3 List of warnings and remarks and suggested remedies 160 Glossary 177 20 1 Source Glossary 177 20 2 Circuit Glossary 178 20 3 Circuit window Additional Tab 179 20 4 Results window 180 20 5 Board Glossary 181 20 6 UPS Glossary 181 Reference Manual Table of contents 5 ALPI 2012 Caneco BT O 1 Licence Contract Licence contract for final user of Caneco BT software 1 IMPORTANT PLEASE READ CAREFULLY Please read this License Agreement as well as the full version of the LICENCE CONTRACT presented in the SOFTWARE before installing or using this software Only the full version as shown when installing the software constitutes the entire agreement concluded between the LICENSEE and ALPI and replaces any other agreement or communication made prior the present one concerning this SOFTWARE When you install or use this SOFTWARE you agree to be bound by the terms of this License If you did not obtain this copy of the software legally please destroy the copy immediately If you do not accept these terms promptly cease all further installation or use of the software It is agreed that certain restrictions under this License apply only to Caneco BT software 2 DEFINITIONS In this Agreement ALPI means Applications Logiciels Pour l Ing nierie S A
167. pplies C 4 evenly spread motors e Transport terminal the busbar trunking system is a terminal circuit which feeds a terminal circuit fitted at the end of it e Comb terminal the busbar trunking system is regarded as a terminal circuit which feeds a number of regularly distributed terminal equipments e g luminaires e New A busbar trunking system configured as a comb terminal 1 may be regarded as feeding a number of identical evenly distributed terminal equipments e g lighting without intermediate connections In this case e define the number of items of equipment in the corresponding field on the circuit sheet 2 fill in the distance to the first equipment 3 under the Downstream Busbar trunking system tab CD cen onm Flint Permaneri Dioeiamplion I 1 50A Coa phi g Location HA 15 dima 88S T Bushes manking tytten Ik ARE impedances Cumerts Schemahc Oiphons Fie Schnesdes 2010 wis Upabeam cro LE FUCI Ae mak LEF n retineo Sharan F Larah 1a Dota a TI ad m Lonbeni Layout Arrangement of the busbar trunking system made in the site According to the above layout the busbar trunking system is more or less efficiently cooled by ambient air This layout defines the layout factor default value which reduces the admissible current of the busbar trunking system e Standard standard layout recommended by the manufacturer which determines nominal current carrying capacity K l
168. ps Downstream coincidence factor K Coincidence factor K simultaneity downstream transformer Ukr Short circuit current on the transformer secondary in 9o Geographic location Geographical location of the LV LV transformer 58 LV LV transformer window Reference manual ALPI 2012 Caneco BT O Earthing system Earthing system on the transformer secondary It is possible to change earthing system between primary and secondary Secondary voltage Transformer secondary on load voltage e voltage between phases for three phase or two phased circuits e voltage between phase and neutral for single phase circuits This on load voltage is followed by the reference no load voltage which is used to calculate short circuit and which is calculated by Caneco BT and cannot be entered Content Earthing system on the transformer secondary 6 4 3 UPS Tab From version 5 4 possibility of connecting an inverter Circuit sheet i gU c Lx TROO1 on MSB Transformer LV LV Standard Upstream Circuit iF Additional data Additional results Conformity Texts Curve discrimination Coordination Cable Protection Downstream Transformer UPS Ik dU Impedances Currents Schematic Options T Max number Av Ref mark 20 in parallel Max permitted Ft 0 0 A2 s Reference manual LV LV transformer window 59 Caneco BT O ALPI 2012 6 4 4 Ik dU Tab Circuit sheet C 4 on
169. quipments 152 Documents models Reference manual ALPI 2012 Caneco BT O 17 3 Print settings 17 3 1 Caneco BT offers the following printing possibilities The possibility of creating text document templates in enriched rtf rich text format format This is the exchange format for word processing applications Word lets you save document in rtf This format saves text enhancement features including in particular customization of fonts and colours 17 3 2 The possibility of creating image document templates in dxf format This format is the exchange format for AutoCAD as well as for vector drawing applications AutoCAD lets you save document in dxf which respects the idea of image blocks and layers Only users with the Import export Pack are able to save a Caneco BT document or folder in dxf 17 3 3 Printing one folder per distribution Define a number for each distribution Insert empty folios Insert page breaks Choose the folio numbering from a start value this lets you add documents in front of the Caneco folder 17 4 Folder templates This command of Tools menu Tools Print templates Folder templates allows to manage and customize the folder templates A folder template is a template which differentiates a printed folder It is set by the list of document templates making it up Printing manager Documents Folders Translation Folders list Folder composition Preliminary study folde
170. r Folders name V ap Documents included v 4p Available Documents Benny Sai a a ge Studies folder Folios list Folios list Control folder Network single line amp 4 Normal lt P Network Graph Legal Documentation Supply sheet Network single line amp 4 Normal Calculation sheet 4 circuits Tm Network single line amp 4 Standby Power requirement Network single line amp 3 Normal Network single line A2 Network single line 41 Network single line 40 Supply sheet Calculation sheet 1c Calculation sheet distribution Calculation sheet 3 circuits bey Dele j Calculation sheet 4 circuits i Gnome In the active window you can choose in the left side the folder template you want to modify You may also create or delete a template using the New or Delete command The content of a folder is set choosing the available document templates in the right side of the screen and putting them on the central zone using the slide release control To remove a document from the folder choose it and click on the trash can icon To change the order of a document in a folder select it and then use Up and Down arrows on the top central zone of the screen Reference manual Print settings 153 Caneco BT O 17 5 Printing language This function is operational if International Pack is present Printing manager a Documents Folders Translation Mew language Filter an fields v Al fields l
171. r the UPS tab in the BOARD window The Network 1 circuit is based on a Miscellaneous circuit and makes it possible to calculate the Network 1 cross section and protective device The protective device is over rated by 25 by default The Network 2 or By Pass circuit is based on a Board circuit and makes it possible to calculate the Network 2 or By Pass cross section and protective device and to enter the UPS data Date for the downstream circuits will be entered downstream of the board Network 2 and will be calculated as for the single supply UPS see above e Note In cases where the Normal and By pass supplies are not connected to the same busbars the representation in Caneco BT can be produced using two blocks Network 1 1 and Network 2 2 available in the graphics library Reference manual Uninterruptible power supplies UPS 99 Caneco BT O D E L E Fr ney bya i i de l ai mx 3 eH 3 Elm d is s k i E 1 a i Y f d g ET i a a i 1 i ra zu pa bee ait 4 sri be et 5 LT Le E 11 Ja us i T L 1 LII ig ee fallin Auf ma Graphical representation in Caneco BT ALPI 2012 The cross reference texts between one circuit and the other will be entered using the Modify symbol text command in the contextual menu xa A Y l New circuit All
172. rable one Ik max on the network Ik min on the UPS The process is inverted when Normal source Ik Min become less than UPS ones UPS are considered as current gensets Due to that Ik are unchanged along the network tree The UPS is always considered as connected in By Pass mode Functioning Time of the circuits protection downstream the UPS are compared with the sustaining time of the UPS on Ik 6 2 4 Ik dU Tab Normal and standby short circuit currents at board level Supply Impedances Downstream board Board Protection UPS IK dU Currents Schematic Temperature Normal _ Es El Ik2 3 Max 26837 A E Ik2 3 Max 2108 A Ip 55358 A Ip 3152 4 K Assum 2 10 K Assum 1 50 El Ik1 Max 25481 A El Ik1 Max 284 A Ip 53503 A Ip 4262 A K Assum 2 10 K Assum 1 50 I1 2 Min 111264 I1 7 2 Min 2570 A El If 11440 E If 2570 4 Ip 22080 A Ip 3856 4 K Asum 2 D K Assum 1 50 Vnltage drop Vnltage drop dL 32 x dL O32 X IK3 Max Maximum three phase short circuit current Maximum value between Normal and standby if it exists Ik2 Max Maximum 2 phase short circuits current if there is no neutral The higher of Normal and Standby values if there is a Standby Ik1 Max Maximum single phase short circuit current if there is a neutral The higher of Normal and Standby values if there is a Standby If Max Maximum Phase PE short circuit current if there is a PE The higher of Normal and Standby values if there is a Standby 50 Bo
173. rage Optimizing your disk space is recommended in order to operate the required disk space on a permanent basis about 30 of total disk space 2 4 System recommended Processor Intel 3 0 GHz or a more efficient processor RAM 2 Gb Screen 19 Graphic resolution 1280 x 1024 Windows 2000 XP Vista or windows 7 2 5 Protection of Caneco BT Caneco BT is protected by a soft Flexnet key or a dongle The soft key checks that you are authorised to use the software and its associated files on your PC within the license terms of use 2 6 Installation of Caneco BT To install Caneco BT for Windows you must operate as follows Quit all running applications Insert the CD Rom in your CD Rom drive The installation program starts Please answer to the questions Assess the limit of liability of the ALPI License Agreement Click on Yes to approve these conditions To take into account the access constraint to directories with Windows NT 2000 XP Vista and Windows 7 the software is installed in various directories Reference manual Goal of this manual 9 Caneco BT O ALPI 2012 C Program Files ALPI Caneco BT 5 4 This directory contains the main useful and essential files to run the software C Documents and Settings All Users Application Data ALPI Caneco BT 5 4 Installation is made also in three main sub directories LABELS contains the images and logos FOLIOS which includes folios Country Schema
174. ral use override you have carried out C43 PE cross section too small The PE conductor s thermal stress is exceeded Override the cross section of this conductor or make provision for an additional protective device C44 The override on the number of neutral conductors is in conflict with its use C45 To reduce the neutral change to single core or separate the PE C46 Out of calculation short circuit The conductor heating condition following a short circuit gives a cross section greater than 800 mm with a number of conductors greater than 6 See Standard calculations Indirect contact protection section If your protective device is a circuit breaker try to reduce the magnetic trip setting so it will trip on a min short circuit at far end of the circuit C47 30 mA differential device mandatory For power outlet circuits differential protection is mandatory Fit this differential device set to a maximum of 30 mA either in the circuit under consideration or in a circuit upstream sub busbars powering the power outlets C48 Override neutral cross section too small The neutral conductor s thermal stress is exceeded Override the cross section of this conductor C49 Override cross section too small The operating current is too high Check your data C51 Error unknown protective device Delete your override correct the name of this protective device or override the thermal and magnetic settings This protective device is
175. rd phase and neutral with single phase busbar trunking system Phase Neutral e between phases in other cases No load voltage No load voltage in V used to calculate Ik Max 6 3 7 Currents tab Board 9 F3 MSB Board supplied by SUPPLY STANDBY Board UPS Ik dU Currents Schematic Temperature Specifications Power requirement Normal Supply Samm Power requirement Standby _ allowed 721 71 allowed 288 68 A Available 572 00 4 Available 289 00 4 S Currents 150 00 4 S Currents 0 00 A Mean Cos Phi 0 80 Mean Cos Phi 0 00 R z IZ cables 0 00 R Z IZ cables 0 00 irth boar ith boar Allowed Allowed current downstream busbar trunking system This value is equal to the current of the circuit feeding the busbar trunking system Available Available current downstream busbar trunking system sum of the circuit design currents for new circuits which can still be fed from the busbar trunking system S Currents Sum of design current IB of all circuits issued from the busbar trunking system multiplied by its simultaneity factor Mean Cos phi Mean cosinus phi at busbar trunking system level taking into account downstream circuits and eventual capacitors 6 3 8 Ik DU Tab Information concerning short circuit currents a voltage drops in the busbar trunking system Se For a description of the fields see the Board window paragraph in the Distributions chapter Reference manual Busbar Tru
176. rence manual ALPI 2012 Caneco BT O 7 Network single line 7 1 Description of the network single line The Network single line is a graphical editor which represents each circuit by a vertical column made up of maximum 10 symbols Lamm v WEZ pH RN Ee E n m Pa pe Doky eme Dem g p qme rima m m CETE EES TE se EN Tai mp dace i re EDS TI LE Jp I EE g m in TOREM ag Circuits displayed in the window are those issued from the whole project or one distribution board Active supply Active distribution Project tree structure Zoom Consumption of active circuit Length of active circuit Network single line Calculation report Results for the active circuit e eo o o o o o o eO o0 0o00H0N 2 7 1 1 Active Source In Caneco BT network single line represents only the circuits supplied by active source This may be either the Standby Source The diagram is differenced according to the active Source se See 87 3 Reference manual Description of the network single line 61 Caneco BT O ALPI 2012 7 1 2 Active Distribution Choose board downstream from which you want to display the network diagram MSB in this example This command allows you to restrict the diagram range when you describe a large installation 7 1 3 Zoom Choose zooming in values above 100 96 or zooming out values below 100 96 to increase or decrease diagram view Choose screen size to get the whole di
177. rents allowed 454 BB A allowed 909 35 A Available 455 00 A Available 909 00 A 5 Currents 0 00 4 5 Currents D OO A Mean Cos Phi 0 00 Mean Cos Phi 0 00 R xd cables R lz cables ith board 0 00 ith board 0 00 ise For a description of all these fields see the Board window paragraph in the Distributions section Reference manual Downstream board 43 Caneco BT O ALPI 2012 5 14 4 Schematic e SUPPLY Board supplied MSB Additional Downstr board Board Protection UPS IK dU Currents Drawing N for the actual board printing Terminal blocks 7 earth bar Terminals on power circuits C Draw the earth bar on single line diagram Terminals on no calculated circuits associated Max cables cross section on terminals 35 v Terminals on PE C Type of default terminal Not disconnectable vi Ceu ise For a description of all these fields see paragraph in Schematic section 5 14 5 Options e SUPPLY Board supplied MSB Additional Downstr board Board equipment calculation options Ambient temperature of Circuit breakers General purpose Circuit breaker Distribution Circuit breakers Switches Downgrading due to temperature Factor on thermal r for gd Th and gG Th Factor on fuse Options for sizing and verifying the circuits in the switchboard Cables Overload Voltage drop Indirect contact Short
178. ring numerous circuit data It is specially useful to entering information on designation length consumption and number of circuit devices To enable the spreadsheet you must Select the spreadsheet tool Tools Windows 7 TT TF p Project Distribution MSR ali AQUAE litot thes X Newent Shes TOL An D Pris xg Seb Retinatk Style Content Nh Consumpon Lang Protection IC Prot Busbar D Org Supply Location Designation CableTyne Material Poletype si yos lay enfe U fa PA 11 Catone cur r A E 3 oo o ou T3 D Hom PAE Copper Single S Max 13 A Modica ni Gp Pet RAR SUE Ba Pr D Moma PAC Copper Sing ax 13 3 L Proc zs tH OF 80 xa cx 3a ex r Select the distribution you want to display You can do it by clicking on this distribution in the project tree situated at left side of the screen 9 1 Creation of a new circuit To create one or more circuits in the spreadsheet select first the point from which you want to insert the circuit Caneco BT inserts any new circuit above the active circuit You must click on the point situated below the last created circuit 2 to put this new circuit below Then click on New circuit 2 button at top left from the network single line diagram Distribution TD 01 prec
179. rk single line 44 Normal Network single line 44 Standby Network single line 43 Normal Network single line 42 Network single line A Network single line A Supply sheet Calculation sheet 1c Calculation sheet distribution Calculation sheet 3 circuits Reference manual Composition Definition Mame Fipleat Type Flyleaf Orientation Landscape Folio d Pagedg inf Flyleaf Documents models 151 Caneco BT O ALPI 2012 17 2 1 Composition Configures the selected or created mode Definition topic Name Name of the document model used to select it for printing Type This is the document printing type The different types are N Document type ru Document type Flyleaf Nomenclature List of folios Power requirement Supply Distribution tree Circuits Tracks Boards Discrimination Transformers Compliance Busbar trunking 20 Curve lt system Sheets General single line diagram Board Single line Diagram Text File Image File Orientation Portrait or landscape Folio background Choice of the Folio background 17 2 2 Details button To choose the document setup Board composition Board composition based on Equipments Nomenclature type fields Nomenclature Fields Sheet Borders Nomenclature Total Cables 5 For the project Associated circuit cables TT By distribution Protections Associated circuit Devices Separator Busbar trunking systems v E
180. robability of SC Discrimination enhanced Caneco BT uses M G s Discrimination enhanced by cascading by cascading table This makes it possible to combine at least partial discrimination and cascading In this event Caneco BT puts a sign after the displayed discrimination value And the association value in square brackets e g Totalt association 30 kA Caneco BT gives you the discrimination limit Caneco displays values ex lt 10kA I lt I limit the discrimination limit is I limit at the end of the curve before the Reflex zone see Discrimination section No value means no value in the discrimination tables between circuit protection and upstream protection or Caneco BT doesn t know how to calculate the protection discrimination with upstream protection This result is completed by differential discrimination see below iS See also Additional Tab from Circuit window 10 11 20 Thermal discrimination This relates to discrimination on an overload fault The results are With or Without see Discrimination section 10 11 21 Discrimination differential See discrimination chapter 10 11 22 Backup Association It can be With or Without Backup coordination or association with the upstream protection There is backup when breaking capacity of the circuit protection alone is not sufficient hence lower than board Ik Max and manufacturers backup tables show a backup possibil
181. rom protective device to nearest equipment Temperature factor on IZ from 0 4 to 1 3 1 0 for 30 C Group factor on IZ from 0 2 to 1 3 according to installation method and number of cables Additional downgrading factor on IZ explosive atmosphere 0 85 unbalanced neutral 0 84 Symmetrical factor 0 8 for wiring systems with cables in parallel Total correction factor K Temp x K Group x K Addit x fs x Neutral factor Phase cross section Neutral cross section PE or PEN cross section apply an additional factor of 0 84 to current carrying capacity if Neutral is loaded Manuel de R f rence ALPI 2012 Equipment Nb Consumption Location TH lt 15 15 lt TH lt 33 Use factor Coincidence factor Cos phi Cos phi Start ID IN dU max Caneco BT Equipment number for final circuits Consumption for each equipment in A W kW VA kVA and kVAR Circuit Geographical location used in cable tracks module Level of 3rd order harmonics lt 15 Level of 3rd order harmonics between 15 and 33 Circuit use factor Coincidence factor Diversity simultaneity of equipments fed by same circuit Equipment Cosinus phi Circuit Power Factor Cosinus phi at start Starting current ratio between Starting current and steady current Maximum admissible voltage drop in from beginning of installation 20 3 Circuit window Additional Tab Manufacturer Minimal Protection Icu kA With backup Thermal discriminatio
182. rop criterion 5harl cireuit criterion Input fram motors 1 00 Fised impedances RO Phase Phase RO Phase PEN H1 Phase Phase H1 Phase PEN A Max Phase Phase 2 Mas Phase PEN amp Min Phase amp Min Phase PEN A Phase PE Fil Phase PE 5 Max Phase PE amp Min Phase PE LIHT supplies in parallel 40 Additional tabs ALPI 2012 Reference manual ALPI 2012 Cane BT 5 13 2 Options for connection sizing IB In ratio Makes it possible to define the power actually provided by the supply value expressed in of the nominal power This item of information will make it possible to calculate the cross section for the connection and the thermal trip setting in the MSB 5 13 3 Overloads check option If unchecked the overload criterion will not be checked 5 13 4 Short circuit check option If unchecked the short circuit criterion will not be checked These two options are useful in those cases where the supply MSB connection is imposed and does not have to be verified by Caneco BT 5 13 5 HV supplies in parallel Check option 1 if the HV circuit is common in parallel with the HV LV transformer In this case the Ik values calculated will be higher 5 13 6 Upstream Board Impedances This relates to the loop impedances upstream of the MSB and relating to a single transformer Hence these values are the sum of the upstream HV loop impedances transposed to the secondary the transformers loop impedances an
183. round Lfolio inf List of landscape pages Lfoliov inf List of portrait pages Pagedg inf Flyleaf Param inf Parameter sheet protesg eng Caneco BT secondary data file protspc eng Caneco BT secondary data file source inf Calculation sheet for sources Tab10 inf Board single line with 10 circuits per page 2 8 3 Files WMF Graphic files Windows MetaFile corresponding to folio backgrounds A0 w mf Network single line AO A3 w mf Network single line A3 fiche wmf Calculation sheet folio wmf Folio foliov wmf Portrait Folio background Param wmf Parameter sheet pdg wmf Flyleaf src wmf Sources N amp S calculation sheet Tab10 wmf Board single line with 10 circuits per page 2 8 4 BASE Directory This directory contains all manufacturer files that Caneco BT can use Fichier Description Files dug General purpose circuit breakers files EN 60947 Files dmi Modular circuit breaker files EN 947 2 Files dmd Modular circuit breaker files EN 60 898 Files dst Circuit breaker files without integrated thermal relays EN 60 947 Files dmt Motor circuit breaker files Files dth Circuit breaker coordination files with contactors EN 60947 4 1 Files amt Motor start coordination files protected by gM thermal relay Files g1t Files of fuses g1 thermal relays Files fsb Fuse files Files fsa aM fuse files Files far Ultra fast aR fuse files Files fgr Ultra fast gR fuse files Files fgs Ultra fast gS fuse files
184. rthing system of your supply C25 The PEN conductor may only be used with the TN earthing system Your connection has a PEN conductor which is prohibited in TT or IT earthing systems C26 Heplace the neutral by a PEN conductor or opt for separate neutral and earth Above 10 mn the PE and neutral must be separate C27 Consumption unit not allowed for this type of terminal equipment Choose a different consumption unit e g kW for indicating the mechanical power of a motor C28 Single core 1000 RVFV cables not allowed C29 Cable not in catalogue aluminium cross section too small Select copper as the conductor core C30 Cable not in catalogue max cross section for AO5VV U cables 25 mm This type of conductor does not exist in cross sections above 25 mm C31 Cable not in catalogue max cross section for multicore cables 240 mm Multicore cable become very hard to use above 120 mm Change to single core cables C32 Cable not in catalogue max cross section for HO7RN F cables 95 mm C33 Invalid override of number of neutral conductors Perform calculation releasing the override on the neutral conductors C34 Cables ex catalogue price calculated based on standard Your override corresponds to a non standard cable The price has been calculated anyway but corresponds to the calculated cable and not the override cable C35 n order to reduce the SPE we have adopted a lower magnetic trip value The cross section of th
185. s Reference manual ALPI 2012 Caneco BT O m Aeau Lora Sp buka Dije s d ret Cereus block 1meiantaten Facn avant e hen ce renim i m Reference manual Inserting additional diagrams associated with protections 147 ALPI 2012 17 Printing 17 1 General Caneco BT produces documents or folders according to standard or customizable models To customize printing content you must use the Printing Models Documents Models or Printing Models Folders commands from the Tools menu To run printing Vous devez vous servir des commandes figurant dans le menu Fichier e Page setup e Preview Button Setup e Print or from Tool Bar Buttons Preview 1 or Page Setup 2 or Configure 3 r El File Edit pplies Distribution m Caneco BT 34 0 SBTROL 202 Deg NN Circu Paper Size A4 210x 297 mm z Source S lection magasin auto Margins Top 4 24 Bottom 0 Left 424 Right 0 Parameters Printing language Anglais Royaume Uni Document date 01 12 2011 jv Plan or document Number Reference manual r Page setup e 2 Distribution to print AI Select Folders and documents 3 0 SUPPLY VG MSB 5 STANDBY H V MSB E CJ Preliminary study folder C Studies folder CJ Control folder CJ Legal Documentation C detailled bord folder C
186. s detected a change in format Convert the project You have saved your project using an older version of CANECO The program proposes converting the project to the new format recommended S18 The file is already open You are trying to open the same file twice sharing violation Warnings and comments about the supply 579 Standards file NRM The standards file does not contain the standard selected Check the project parameters and the installation of the application 19 3 2 Warnings concerning the supply G1 Calculation impossible power not in accordance with standard Change the power of your supply which does not correspond to the values of the selected file or opt to determine the characteristics of your supply by Ucc for transformers or by X and Xo for alternators G2 This length may possibly compromise the following calculation The magnitude of the length may require a protective device upstream of the cable instead of downstream Check that the voltage drop is not excessive if it is override the conductor cross sections to higher values G3 The connection cannot be calculated because of the overridden values Calculation is prevented by an inconsistency in the overridden values Reference manual List of warnings and remarks and suggested remedies 161 Caneco BT O ALPI 2012 G4 Working current too high the Cross section cannot be calculated The current of your supply is too great for Caneco to be able to calcu
187. s not met are identifiable by a red cross e Conditions met are identifiable by the green OK symbol Reference manual Conformity Tab 89 Caneco BT O ALPI 2012 10 9 Text Tab This window allows free entry of additional information concerning the circuits e Example text 8 is reserved for indicating in which sheet of the control diagram you can find the wiring details for additional diagrams associated with the protection devices See Schematics chapter Br NN Additional designation Text 1 Text 2 Text 3 Text4 Textb Text Text Texte 10 10 Downstream Board Tab ie For the description of all these fields see paragraph Board window from Distributions chapter 10 10 1 Protection choice The protection choice window is displayed for each circuit calculation The user can choose between three ways to get a protection Protection NS100M TMIED 164 4P3T 1 Overload protection Short circuit protection C 1 Automatic choice Rating 1 Ir dg T User choice by model INT RATHER 1284 Delayed qi User technical choice CTM Delay wf choice out of catalog e Economical automatic choice Caneco BT automatically selects in the list of protection the first one which satisfies all conditions according to circuit data The automatic choice made by Caneco BT is indicated by the icon Soe e User s choice by model The user can choose another protection in the list the User s choice by model is indicated by the icon Lie
188. s not provide adequate breaking to protect your Phase conductor K32 Out of calculation electrodynamic stress The peak current calculation exceeds the Ik value laid down by the manufacturer Check if the circuit breaker is limiting the energy limit curves 19 3 4 Warnings concerning switchboards T1 Error in switchboard to be deleted The switchboard has been saved incorrectly delete the circuit feeding it 72 Downstream switchboard incorrect as fed from two different earthing systems This switchboard is connected by 2 circuits with different earthing systems If this involves a transformer circuit create another circuit downstream if the earthing system is different 174 List of warnings and remarks and suggested remedies Reference manual ALPI 2012 Caneco BT 13 This ref mark is already in use for another switchboard Each ref mark is unique 14 The maximum number of switchboards or busbar trunking systems has been reached You can handle a maximum of 300 distributions in any one project T5 Error in distribution unable to calculate The distribution is unknown or incorrectly saved T6 The modification to the distribution is not taken into account in the diagram The distribution input diagram does not match the calculation 77 Downstream switchboard incorrect as fed from two different voltage levels There is too great a voltage difference between the Normal and Standby circuits for it to be calculated 78 Error
189. sbar trunking system Bus Bar Upstream sub busbar Ref Mark Supply Circuit supply Normal Standby N and S Content Wiring system distribution 3P N PE P N PE Designation Circuit designation 36 characters maximum Index Circuit modification index Protection Type Type of protective device used General purpose Breaker C curve breaker B Indirect Contacts Rating K on C Thermal relay In Irth IrLR IrMg In Cal gG Delay SC CC Differential protection setting Delay Prot Diff Cable Type Core Pole Install method Length m 1st Equip m K Temp K Group K Additional oymmetrical factor fs Total Correction Phase Neutral PE PEN Loaded Neutral 178 Circuit Glossary curve breaker Protection against indirect contacts Circuit breakers rating or support rating Switch disconnector or Disconnector switch or fuse rating Oversizing factor for overload setting Thermal relay reference Circuit breaker thermal setting or fuse rating insuring protection against overload Circuit breaker magnetic setting insuring protection against short circuits or fuses rating value Fuse rating Circuit breakers magnetic delay in ms Circuit breakers residual current differential setting in mA Time delay on RCD relay in ms Type of cable PVC XLPE PRC Core nature Copper or Aluminium Single core or multi core cables Installation method according to standard the cable length in meters Distance f
190. single line 44 Normall Network single line 44 Standby Network single line amp 3 Normal Network single line amp 2 Network single line 41 Network single line 40 Network single line 40 Supply sheet a Calculation sheet 1 circuit Calculation sheet Distribution File Metafiles vamf Y Export prefix Document1_ Folder CAU serssdlnDocumentssCaneco Distributions to be exported All O Selection a SUPPLY Oe MSB Export extent 9 All pages O Selected pages Documents parameters Anglais Royaume L v Date 03 02 2012 gv Drawing or Document Number Language R Cancel Wee The export format can be defined in the File field File E Autocad A14 OF det Reference manual The graphic export function enables Caneco BT documents to be exported in wmf or DXF format Various options are available for defining the export parameters The name of a document to be exported must be preceded by an Export prefix Documents will be exported to a folder defined in the Folder field The method for creating DXF files can be selected in the section named DXF file configuration Selection of distributions concerned by the export of documents Distributions to be exported 6 All Selection E SOURCE B r MSB E DB 1 SS DB 2 Itu 7 T 2 E DB 3 E STANDBY Alf fe DR 7 Graphic export Import Export Pack 1
191. ssage C55 appears You must then interpret the results so as to obtain if possible a reduction of the cross section due to this criterion C56 Check if the protective device is suitable for this type of terminal equipment In the case of an LV LV transformer or a capacitor the protective device rating has been chosen using an approximate over rating factor You must check this value in accordance with the exact characteristics of your terminal equipment C57 Error in indicating the location of one of the circuit destinations The geographic location you have entered for your circuit or for the switchboard feeding it is not in the list of geographic locations defined in the routings Source and destination of the runs C58 Non standard motor power Enter its consumption in amps Caneco accepts that the consumption for a motor circuit is entered in kW This consumption is deemed to be a mechanical power In order to deduce from this the corresponding operating current Caneco looks for this power in the standard powers file default CANECO STD If this power is not in the file Caneco refuses to calculate and obliges you to define the consumption in amps C59 Override the number of conductors first An overridden cross section can only be valid if the number of conductors is also overridden C60 Overriding the no of PE or neutral conductors is not allowed for multi unless the no of phase conductors is also overridden Change to single cor
192. st in the Caneco databases the method By Curves Discrimination calculation Method From Tables CO with Curves Curve discrimination with limited Ik 14 1 1 Possible discrimination results Nil no discrimination the upstream and downstream protections both trip Partial Total discrimination up to a maximum value of overcurrent Beyond this limit the discrimination becomes nil In which case the diagnosis will be Limit IrMg Max 1356 4 Ik LipstriDwnsStr 15 5 kA 5 9 k Discrimination on Ik E 2 005 Thermal discrimination vith RCD discrimination Mot Applicable Total Discrimination for all downstream circuit over currents obtained by offsetting the operating curves with respect to the current axis or by the limitation effect of the downstream protective device Functional Discrimination for overcurrents at end of the downstream trunking the most frequent faults In general to obtain discrimination other than Nil the ratio between the magnetic setting of the upstream protection and that of the downstream protection must be at least 1 5 Reference manual Discrimination on Ik 117 Caneco BT O ALPI 2012 14 2 Discrimination by Tables 14 2 1 Conditions to be met on the Upstream and Downstream e same manufacturer e same catalogue year e conditions of access to tables valid protections with electronic tripping The discrimination result will be that specified in the tables If the table specifies a
193. t Additional Additional results Conformity Texts Discrimination Association Backup Differential Discrimination 0 icu Icu Backup k k O Maximum breaking time ms IC max time O ms Phase Max Time O ms PE Max Time lo ms Neutral Max Time O ms uo 7 50V El Link F Phases affectation 123 Width mm Height mm Weight 0 00 Kg m El Ik at end of link Ip not limited 0 00 kA Ik2 3 Max End A kiMaxEnd A Ik2 Min End A A A Ik1 Min End If 10 7 1 Discrimination Association Backup Topic Thermal discrimination with upstream e Without means that in certain cases of overload faults discrimination with upstream may not be provided The upstream protective device is liable to trip before the downstream protective device e With means that in all cases of overload faults discrimination with upstream is provided Discrimination Limit Current discrimination limit on short circuit in Amps Discrimination from Distance from which there is total discrimination on short circuit The considered distance is the one separating protection from short circuit point With this distance one can appreciate functional discrimination conditions for circuits made up of several equipments lighting circuits sockets If the given distance is more than the first equipment distance most unfavourable place for short circuits risks discrimination becomes functional Ir Diff Differential Residual Current
194. t protection Protection is in fact a protection against Short circuits of the circuit feeding the upstream board This is the case with feeding lines with decreasing cross section No protection against overload is accepted only with the following standard conditions equipment not capable of producing an overload or protected at circuit ending 78 Circuit Tab Reference manual ALPI 2012 Caneco BT O Indirect contacts This is the mean to ensure human protection against indirect contacts Indirect Contacts Meaning Basic Prot Protection against electrical shocks is ensured by the protection defined in field Type protection against short circuits Dif 300mA residual differential protection of 300 mA rating Dif 30mA residual differential protection of 30 mA rating Dif 10mA residual differential protection of 300 mA rating Autres DDR Adjustable residual current protection AEB Additional Equipotential Bonding AEB Equipot Earth general equipotential bonding This is the case of installations in which chassis are connected to an earth general equipotential bonding network realised by bared underground earth cables or by bared earth cables laid on cable ways This device allows to not distribute the PE in each circuit cable cable content can be then a 3P without PE Equipment chassis for this circuit must be directly connected to this equipotential bonding network Protection Na
195. t without PE Three phased circuit with N and without PE Three phased circuit with PEN TNC system Single phase circuit with Neutral and PE Single phase circuit with Neutral and without PE Two phased circuit phase to phase without PE Two phased circuit phase to phase with PE Do not confuse 2P with P N In 230 400V installation P N means single phase 230V while 2P means two phase 400V Designation Circuit designation maximum 36 characters 10 4 2 Protection topics Type HECE Indirect contacts Ban Prot Protection NATO TMESD 634 4P 3T E Overload protection Shoit circuil protection Rating 1 Ing IH PITEZILR 50 4 A Delayed Delay 2 if manufacturer file has an EDIELEC format click on delayed to get a delayed protection on short circuit Reference manual Circuit Tab 77 Caneco BT O ALPI 2012 If human protection against indirect contacts is made by a Differential the window is completed with other information _Protection Control Pere sssuamaum Type MLLB Indirect contact Dif 3 m v Protection NSXTIB F Micrologic 2 2 1604 4P3T zd 0 0 Overload protection 5Short circuit protection ACD Protection Rating 1 iMg 1250A L Delayed Setting IN lrThlLA 150A Delay Delayed Thermal On creuit dris if manufacturer file has an EDIELEC format click on delayed to get a delayed differential protection Type Enter circuit protection CrBrk moul
196. tected by circuit breaker 9 MOT INVERS Motor both directions MOT TH AVAL Motor wath downstr ther protection xl Docud MOT_ET_TRI Motor stating star dehka Calcul MOT BLOC Motor wath one peece creuit breaker SUPP MOT_DESENFUM Smoke extact Lighting LECL VALEURS Examele of Lighting value x Xx Several options are available Organize circuits styles From Caneco STY To CAN1C4D Documentl 5 T Switchboard terminals earth bar Pe Copy Switchboard terminals earth bar Switchboard with inverter supply 3 Switchboard with inverter supply E Inverter N1 amp N2 together Inverter N1 amp N2 together T Splitter grid Delete Splitter grid Secondary grid Dokto Secondary grid Internal LV LV transformer Internal LV LV transformer Bell transformer with sounder Bell transformer with sounder Display Display Description Board Content 3P N PE Supply N and S5 UL 50V Des Board Type MCCB UC Basis Prot Rating 15 K on C 1 L Om dU Max 5 Type U1000R2 Core Copper Pole Multi Single Instal 13 KT 1 KN 0 72 K 1 Cross section 2 5 mre Reference manual Caneco BT O Organising the list of styles 25 Caneco BT O 4 7 Circuit entry tools ALPI 2012 These buttons are enabled by 3 buttons allowing to choose the circuit entry tools This is a difference compared with t
197. the geographical location of the circuit feeding the board Earthing system Board Earthing system TT TN IT Voltage Voltage in V e between board phase and neutral in a single phase board Phase Neutral e between phases in other cases No load voltage No load voltage in V used to calculate Ik3 Max Upstream circuit ref mark Circuit Upstream ref mark In case of an installation with a standby the board can be fed by two different circuits An upstream circuit supplied from the normal supply and another one from the standby source supply Breaking device Board breaking device generally a switching device in distribution boards Case of a MSB in which the breaking device is a circuit breaker to get an efficient source protection MSB breaking device is a circuit breaker MSB Case of a distribution board in which the breaking device is a switch rT Board B 1 and its C 1 breaking device switch B 1 IC Protection Nature of the human protection against electrical shock realized by the breaking device for example differential residual current in TT earthing system 48 Board windows Reference manual ALPI 2012 Caneco BT O 6 2 2 Protection Tab Protection characteristics at the supply point of the board breaking device calculated by Caneco BT This protection must not be confused with the protection of the circuit feeding the board See previous examples of boards breaking devices e STANDBY Boar
198. the standard This error arises from an error importing data from an external application a change to the standard for the project In this event Caneco automatically replaces the incorrect installation method by the one shown in the window called up by the Preferences command in the Options menu Modify the latter in order to automatically replace any installation method not complying with the calculation standard with the one you want Before making any changes check that the calculation standard shown in the supply window is indeed the one you want Reference manual List of warnings and remarks and suggested remedies 169 Caneco BT O ALPI 2012 C81 Zero discrimination with the upstream There is a risk of tripping of the upstream device if a high short circuit current flows in the circuit in question For this situation not to exist IrMagnUpstream must gt 1 5 IrMagnDownstream You have 3 possibilities for correcting this anomaly Increase the upstream magnetic trip setting if necessary by overriding the type of protective device Carry out time dependent discrimination by adding a time delay to the magnetic trip or the short delay protective device Override the setting of the magnetic trip for the current circuit to a more reliable value C82 No thermal discrimination over and above the setting of the upstream thermal trip If your circuit carries an occasional overload this fault may cause the upstream circu
199. thorized type of protective device Your version or your licence does not allow you to use this type of protective device Please choose a different type of protective device for this circuit K1 The busbar trunking system requires the neutral and PE to be separated Change the busbar trunking system to 3P N PE K2 Error in busbar trunking system to be deleted Impossible to read the information about the trunking system Delete this circuit then create it again K3 This ref mark is already in use for another busbar trunking system Attention each ref mark is unique change the ref mark for this busbar trunking system K4 Busbar trunking system length is zero Fill in this length Click on the button downstream of the circuit feeding the busbar trunking system The default length is O m K5 Distance from origin gt length of busbar trunking system The value you have quoted is the length between the origin of the busbar trunking system and the point where your circuit fed by this busbar trunking system is connected Hence at most it is the same as the length of the busbar trunking system K6 Distance greater than the length of the busbar trunking system Check the connection distance from the origin or the length of the busbar trunking system K12 Operating current too high for the type of busbar trunking system Your current is too high or the file you are using does not include a busbar trunking system of a sufficient rating K15
200. tion from a subsidiary switchboard remote from the supply source e design study for an installation from an LV LV transformer e installation including a Standby generator located a long way from the MSB 5 9 2 available Available current for distribution 5 9 3 Ik Max on board Max short circuit current at switchboard Calculated from the impedances entered under the Additional tab If the existing installation was designed in a version of Caneco BT the Board supply by R and X configuration can be achieved by copying the impedances for the distribution from which the extension begins under the Impedances tab of the LV switchboard supply This makes it possible to calculate the voltage drop and short circuits more accurately m Supply l SUPPLY a Board supplied MSB Supply Additional Downstr board Ratio IB connect 100 454 7 A In source Overload criterion v Voltage drop crit v Short circuit criterio v Input from motors 1 00 RO Phase Phase RO Phase PEN R1 Phase Phase R1 Phase PEN X Max Phase Phase X Max Phase PEN X Min Phase 8 0000 X Min Phase PEN RO Phase PE R1 Phase PE X Max Phase PE X Min Phase PE 36 Board source by R and X Reference manual ALPI 2012 Caneco BT O 5 10 Power monitored supply Caneco BT 5 4 lets you configure a Power Monitored supply as per the standard Board supalied UTILITY BOARD Suppi Additional Doan board ea eet SUPPLY 1000 kVA T
201. tor circuit breaker CBrk Mot or a circuit breaker in coordination with a contactor CBrk Th e Maximum release value warranted on short circuit when protection is a modular circuit breaker CBrk C B D K e Fuse rating when protection is a fuse gG or aM th Delayed With the tab you can select protections with a delayed release Delay Magnetic delay in ms 10 4 3 Cable topics E NEN y Coefficients Conductors Length 200 m Temperature 1 0 Et 1 185 mr Type PYL Proximity 0 72 7 Neutra 12 1185 mn Y Core Copper Additional 1 00 PE 1 ED mm Instal 13 Perforated tra Y Pole single Trefail Y Total Correction 0 72 Neutral loaded Length In case of several equipments it is the distance of the far device In this case it appears an additional distance to the 1 equipment Conductors Length l2mi5 4 00 Ae EF 15mm Type XLPE v may fei Neural O 1 Vm v Core Copper Additional 1 00 pe 1E 1 5 mnt Install 31 On perforated E Pole Single S gt Max Y Total Comection 0 72 7er Equipment m Enter with circuits having several devices the distance between protection and nearest device This data is used in versions after 4 1B for voltage drop and discrimination calculation 80 Circuit Tab Reference manual ALPI 2012 Caneco BT O Cable type Enter the cable type used for the link between protection and device This type is chosen in the list of cable t
202. tored supply 37 5 11 Battery set source direct current 38 5 12 Creating a new project from an existing project 38 5 13 Additional tabs 40 5 14 Downstream board 42 5 15 Results 45 6 Distributions 47 6 1 General 47 6 2 Board windows 47 6 3 Busbar Trunking System Window o4 6 4 LV LV transformer window 58 7 Network single line 61 1 1 Description of the network single line 61 Reference Manual Table of contents 3 Caneco BT O ALPI 2012 100 7 2 Create one or more circuits 62 7 3 Representation of the network single line diagram 64 7 4 Representation of a project with a Standby source 66 Board Single line Tool 69 8 1 X Board Single line Tool 69 8 2 Modifying the diagram of a circuit 70 8 3 Edition Commands 72 Spreadsheet Tool 73 9 1 Creation of a new circuit T3 9 2 Edition Commands 14 Detailed circuit calculation window 75 10 1 Minimum display 195 10 2 Detailed display 76 10 3 Navigation arrows 76 10 4 Circuit Tab TT 10 5 Upstream tab 84 10 6 Additional Tab 84 10 7 Additional results Tab 87 10 8 Conformity Tab 89 10 9 Text Tab 90 10 10 Downstream Board Tab 90 10 11 Results Window 93 Entering and calculating complex circuits 97 11 1 Uninterruptible power supplies UPS 97 11 2 Regulator motor output 102 Preferences 105 12 1 Generalities on Preferences 105 12 2 Display tab 105 12 3 Save tab 106 12 4 Colours tab 106 12 5 Default Values Tab 107 12 6 Directories Tab 107 12 7 Print Tab 108 12 8 Warnings and Remarks
203. tory The user can define a generic default symbol to represent equipment The specified stamp text or image can be positioned and oriented and will appear on print out documents Preferences Save Display Circuit Spreadsheet Board Single line Diagram Network single line _ Automatic Ref Marks Colours Default values _Wamings and remarks _ LOGO ENT Wk n L O G Entreprise Personal Lago Replace equipment symbol Replacement symbol for the equipments v Colour printing Seal Seal type Seal text or image file Fant and text color sr Arial Black Shift on Shift on t Scale 12 8 Warnings and Remarks Tab This window allows you to set operating mode of warnings and reporting Preferences Display Circuit Spreadsheet Board Single line Diagram Network single line Tracks Automatic Ref Marks Print Colours Default Values Directories wW amings and remarks wv Edit warnings in the report Warnings validation 108 Print Tab Reference manual ALPI 2012 Caneco BT O 12 9 Automatic reference marks Tab Automatic circuit and equipment ref marks can be defined under the Automatic Ref Marks tab This window allows you to set default automatic reference marks The button Advanced actives the Advanced prefixes for circuits window So user may set a different prefix for each equipment An sign can be placed i
204. tributions to edit Reference manual ALPI 2012 17 1 4 Editing a folder by distribution Folders and documents Page setup Paper Size Ad 210 x 297 mm v Source S lection magasin auto v Preview Distributions to print O AI Select E SOURCE E lw MSB v 3 DBI Print one folder by distribution Margins Parameters Top 4 24 Printing language Anglais Roya w Bottom 0 Document date 30 1 2 1999 v Late 4 24 Plan or document C Preliminary study folder CJ Studies folder G Control folder C Legal Documentation E Flyleaf Folios list Network Graph m Network single line 44 Normal Network single line 44 Standby Network single line 43 Normal Network single line amp 2 Network single line 41 Network single line 40 Supply sheet Calculation sheet 1c Calculation sheet distribution Calculation sheet 3 circuits E Calculation sheet 4 circuits 17 2 Documents models This command of Option menu is used to work with documents models given personalise documents models Customisation Pack Caneco BT O Caneco BT enables to edit a folder by distribution Editing will have as many folders as selected distributions A document model is a model which characterizes a printed document presentation content The command opens the following window Printing manager I l Documente Folders Translation Documents vod E Folios list Network Graph Netwo
205. ts This method is used to determine the protective devices and cable cross sections You must first define the Source and the general characteristics of the project then the distribution circuits Board style circuits and finish by end user s circuits This suppose that distribution circuit currents has been set Otherwise you can do a power checking with Caneco BT this will determine the current for the distribution circuits depending on the circuits they supply and on possible capacitors In Caneco BT at any time you can change the main circuits then determine the protective devices and the size of the cables for the end circuits accordingly The automatic calculation command from Circuits menu allows you to redefine automatically the protection devices and the cable cross section size accordingly to upstream NORMAL SOURCE _ STANDBY MSB A circuit is made up of DISTRIBUTION a protective device CIRCUIT a wiring system an equipment style which can be Protection ien T Socket END USER Cable Miscelaneous CIRCUIT Distribution board Equipment Capacitor C Transformer LV LV A circuit is fed by a distribution Board Transformer LV LV 28 Diagram toolbar Reference manual ALPI 2012 Caneco BT O 4 11 Entry and analysis of distributions using a graph The distribution tree structure can be created using the Graph tool by selecting Design in the Network graph 1M F 4
206. urves Reference manual ALPI 2012 14 3 2 2 Option checked Discrimination calculation Meathad NSXI GU Microldgic 2 2 1608 values are used discrimination is total Caneco diagnosis Total Iks Ik2 3 Max Iki Max Ik Tk Min Reference manual na limits Tki Min IkMin im Ayl A If IrMig Max Ik Up5tr Dwn5tr Discrimination an Il eral discrimination RCD discrimination Caneco BT O From Tables CO with Curves In this case the limited short circuit eem The graphical analysis shows that 26325 A 16741 A 19716 4 14245 A 3197 A 26 3 kA 26 3 kA Total with Not Applic able v Discrimination by Curves 121 Caneco BT O 14 4 Discrimination by Curves on 3 levels Discrimination can be analysed on 3 levels by superimposition of curves The curve for the 3ra protection is obtained by copy paste in the Discrimination by curves tab of the circuit sheet ALPI 2012 The Copy curve command in the pop up menu of the Discrimination by Curves tab allows the insertion of the graph representing the superimposition of curves in a text document for example in order to produce a report on discrimination s C 10 on MSB d board tender d Upstream incu Aufditionod 2 N5258D0NTM UOOXCI ABA Curve docnmmahion Coordination Cable Protection T I Ik M Deve Ex
207. voltage Min short circuit Power default 500 MV High voltage Max short circuit Power default 500 MV Temperature factor downgrading Cable current carrying capacity Conductors group factor fs Symmetrical factor according to standard NFC 15 100 523 6 Phase conductor cross section Neutral PEN conductor cross section Protective conductor cross section Earth resistance Factor taken into account for calculating Ik Max values Value in allowing the Supply MSB connection to be calculated in accordance with the thermal setting of the supply circuit breaker Factor of 0 84 applied to the cable s Iz Transformer Nominal intensity calculated with on load voltage between phases Theoretical cross section calculated according to overload condition Voltage drop 9o at MSB level from transformer Maximum 3 phase short circuit current at far end of connection Maximum 2 phase short circuit current at far end of connection Maximum single phase short circuit current at far end of connection Minimum 2 phase short circuit current at far end of connection Minimum single phase short circuit current at far end of connection Default short circuit current phase PE at MSB level in A Source Glossary 177 Caneco BT O ALPI 2012 20 2 Circuit Glossary Upstream Distribution upstream reference mark Ref Mark Circuit reference mark 15 characters maximum otyle Circuit style template D Origin Connecting distance from the beginning of the Bu
208. with using Caneco 5 If the project started to be designed using version 4 4 it must be started again using version 5 and converted to the new standard Resizing of the cables and protective devices is required full recalculation from the source The circuits must previously be unlocked 2 9 6 Case 3 Extension to an existing installation dual calculation reference The existing circuits must not be able to be modified Protective devices and cables are in existence and were determined using an earlier calculation standard which is not in doubt no retroactive changes New circuits on the other hand must be determined using the new standard These extensions must be processed using Caneco BT 5 The existing circuits must be imported and locked In this way the protective devices and cables in these circuits will not be resized They must be recalculated to obtain IK values in accordance with the new standard Caneco BT 5 will indicate if necessary that these existing circuits do not meet the new calculation standard As for the new circuits they will be sized in accordance with the new standard This dual standard makes it necessary to conserve the information concerning compliance with the earlier standard It is highly advisable to archive the information in different formats Caneco V4 4 pdf and dxf files hard copies For greater clarity on the new Caneco BT V5 project it also advisable for circuits which previously were complia
209. y DK Cancel The Display ref marks in accordance with EN 60 082 option in the Board single line diagram tab of the Preferences window prefixes with a sign the equipment ref marks according to the EN 60 082 Standard Display reference marks according to EM 60082 standard Terminal black Ref Mark position Terminal Ref Mark position gt nat visible not visible Underneath the Ref Marks terminals on the left of the symbol Coupled to the Ref Marks terminals on the left of the symbol CO on the right of the symbol on the right of the symbol Example of automatic equipment marking 2 CE 5 5 140 Methods for marking equipment Reference manual ALPI 2012 Caneco BT O Equipment ref marks can be entered manually from the Additional data tab of the circuit sheet e 1 Ref mark device 1 e 2 Ref mark device 2 e 3 Ref mark device 3 Fel Mak 0 Pipers exco Pure chen Geada Elect UTEM BOM 2 E RE et Vossio hy ar aclu Mri gotten devo iar E kia TE deri rs Wiese ol tho papa Cele Baci cust E Demo Aseociated control fae Z preseni Eie Mey az Dwvem manui arctam n balah Lon dee Cuts harg imie of erie ca E Dera 2 Helay Hals Ma Mai Ebem mi Reference manual Methods for marking equipment 141 Caneco BT O 16 9 Specifying the distribution enclosure The characteristics of a distribution enclosure can be defined in the Specifications tab of th
210. y separated This value is used to calculate useful load of cable tracks sections 10 7 4 Ik Topic Ip not limited This is the peak value of three phase short circuit for three phase circuits Used to verify electrodynamic stress Ik3 Max This is the max three phase Ik for three phase circuits Ik1 Max This is the max short circuit current single phase if neutral is present If Max This is the maximum fault short circuit current if there is a PE Ik2Min This is the min short circuit current single phase if neutral is present two phase Phase to phase if neutral is absent 88 Additional results Tab Reference manual ALPI 2012 Caneco BT O Ik1Min This is the min short circuit current single phase if neutral is present two phase Phase to phase if neutral is absent If This is the default short circuit current If phase PE at the end of the link 10 8 Conformity Tab Curve discrimination Coordination Cable Protection Downstream Upstream Circuit Additional Additional results Conformity Texts All Defaults B Ref Mark MSB C_001 Modification index A Standard IEC364 01 Consumption 124 Coincidence factor 1 00 Voltage 420 V Circuit type Board El Protection device Type MCCB Manufacturer ma bfr1 dug Family NS100N Overrating factor 1 00 wlcu gt Ik Max 36 0 kA gt 21 1 k wIcu with Backup gt Ik Max 36 0 k gt 21 1 k v Differential Discrimination Not ca
211. ypa Suppl 2 Imedum Uks trareto 6 0 Canect Hom Standard Figquency Hi emmaricz syst LV Voltage H Length 15m Type Core Conductors Phase Tete 240 mm Neulrat 14 240 nn DN o ce Calculate E If the length of the connection leads to a voltage drop greater than O it is possible to decrement the DU origin field 1 to bring the calculated value back to O A template Tarif jaune mdl for a Power Monitored Supply project can be found in C Documents and Settings All Users Application Data ALPI Caneco 5 4 FR ENG YTemplate Reference manual Power monitored supply 37 Caneco BT O ALPI 2012 5 11 Battery set source direct current gt 9 Supply b 7 SUPPLY ce Board suppbed MSB Suppi Additional Downsi board ET surecy DUL aned T ELEA CI5100 DC 2002 v Df discharge ADM Dischaige curen Sra A TH Endolduchsge 30V Ik Max ZUGE A P Liport Ik Min 15240 A e Supply type 1 e DC calculation standard 2 e Supply characteristics 3 For further details concerning direct current calculations please refer to the document entitled NT 2009 Direct Current Module PDF which can be found in C Program Files Alpi Caneco 5 4 ENG Documents Or consult ALPI technical Support 5 12 Creating a new project from an existing project This technique is a new feature in version 5 4 it makes it possible to hand
212. ype This list is saved in a file with extension cb The file can be selected for the project and modified by means of Manufacturer files Cable topic from Options menu The default file is Caneco cbl Cable conductor core Copper copper conductor Alu aluminium conductor Cu or Alu copper conductor for small cross sections in aluminium for big cross sections The threshold between copper and Alu is defined in the Dialog box called by Cables command in Options menu Alu PE Alu copper conductor for phases and Neutral and PE in Alu This choice is possible only when link is of type Single core or Multi PE multi core Installation method Enter the cable installation method according to chosen the calculation standard Clicking the button on the right to get the list of the different methods of installation Pole Choose single core or multi core cables Uni Multi Automatic switching between single core or multi core cables from specified cross section Temperature factor K temp This coefficient is named in standard as Temperature correction factor It downgrades the current carrying capacity depending on the temperature Default value is 1 this factor is defined by the standard depending on the cable insulation and cable operating reference temperature It can be determined by Caneco BT depending on given temperature and the choice of cable type if you used the button E located immediately on the right To calculate the coe

Caneco BT Reference Manual

Contents

Download Pdf Manuals

Related Search

Related Contents