Installation calculation report1 Full Page 2/28 Project: 1 28/12/2014 ..................................................................................................10 Generic load circuits............. 27 3...............1 Project general settings.........................................1 Source circuits.....................................6 2..............2 Generator circuits.............................................................................................................. 24 3............................................................................................... 4 1................................ 4 Installation general design............................ 24 3..2 Settings for wiring device calculation................................................................................... 4 1................................................................................................................................................................................................................................................................................. 29 3......... 28 3................................................................................................................5 Surge Arrester circuits.............................................................7 Feeder circuits..........................................................11 Lighting load circuits....................................................................4 UPS circuits................................ 14 3.........................................17 Lighting Busbar trunking system circuits............................ 14 3.....3 LV Source circuits............................................................................................................................................................................ 25 3............8 LV Transformer circuits................................................................. 29 3..................................................Page 3/28 Content 1 2 Project description......................................................... 24 3................................................................................. 27 3................................................................................................... 6 Calculation notes...............................12 Power socket load circuits............................................6 Capacitor bank circuits.....................................29 Project: 1 28/12/2014 .............15 Busbar trunking system circuits........................................................................................................ 4 1................. 23 3....................................14 Busbar circuits...............9 Couplers circuits............................13 Motor starter combination................................................................................................ 24 3.........................................................................................................................................................................................1 3 List of devices........................................... 23 3................3 List of loads.................................. 29 3................................................................................................................................... 27 3......................................................... 28 3................16 Busbar trunking system circuits........................................... 3 Motor loads Sr (kVA) Pr (kW) Ir (A) 135 118 195 24.2 Lighting distribution Type of lamp P Lamp (W) P ballast (W) Standard 150 0 incandescent lamp 1.87 0.3 58.1 Project general settings Installation standard IEC60364 Calculation standard Circuit breaker standard Frequency TR50480 IEC 60947-2 50 Hz 1.85 0.9 35 Cos 0.1 Generic loads Sr (kVA) Pr (kW) Ir (A) 69.Page 4/28 1 Project description 1.3.3.3.2 Settings for wiring device calculation Maximal CSA 300 mm² 1.2 20.86 Nbr 1 1 Polarity 3Ph+N 3Ph+N Non linear load THDi 3 (%) No 0 No 0 Nb of lamp/light 2 Polarity 3Ph 3Ph Nb of light 10 Non linear load THDi 3 (%) No 0 No 0 28/12/2014 .3 List of loads Name AA 16 AA 13 Name EA 15 Name MA 14 MA 17 Project: 1 1.85 Nbr 1 1 1.9 100 165 140 238 Cos 0. 6 iC60H Compact 160 NSX NSX160B x0 (%) U (V) SEA 30 6 400 TN-S Rating (A) 0.2 M 4P4d B 4P4d Micrologic 2.1.4 Nbr QA 14 1 QA 9 1 QA 17 1 QA 16 1 QA 13 1 QA 15 1 QA 12 1 Circuit breaker Range Rating (A) Designation Compact 250 NSX NSX250F Compact 630 NSX NSX630F Compact 100 NSX NSX100F Acti9 C120 .1 List of devices Name 2.1.2 LV backup generator Nbr Sr (kVA) x”d (%) G 12 1 100 20 D Switchboard name UC 11 WC 10 Name 2.3 A 3P3d Micrologic 2.2 A 2.2 4P4d C 4P4d Micrologic 5.Page 5/28 2 Installation general design 2.1.1.1 MV/LV transformer Nbr Range Insulation TA 9 Name 1 Trihal Dry-type Sr (kVA) ukrT (%) Connection U2 (V) SEA 400 6 2.5 Cable schedule Name Nbr Incomer Feeder Type WD 17 1 QA 17 MA 17 Multi-core Insulation L (m) XLPE 75 WD 14 1 QA 14 MA 14 Multi-core XLPE 39 WD 16 1 QA 16 AA 16 Multi-core XLPE 36 WD 13 1 QA 13 AA 13 Multi-core XLPE 35 WD 15 1 QA 15 EA 15 Multi-core XLPE 15 Project: 1 TN-S x’d (%) 2.5 N 1x25 Copper 1x70 Copper 1x1.3 LV switchboards and busbar Switchboard name Range UC 11 No preference Busbar name 420 Rb (m) 10000 RCD L1/L2/L3 1x16 Copper 1x70 Copper 1x25 Copper 1x70 Copper 1x1.5 RCD class PE/PEN 1x16 Copper 1x35 Copper 1x16 Copper 1x35 Copper 1x4 Copper 28/12/2014 .100 C120H Compact 250 NSX NSX250B Acti9 iC60 .00 Rb (m) 10000 IP Undefined Ks Polarity SEA Equipotential bounding 1 3Ph+N TN-S With Poles Trip unit/Curve 3P3d MA 4P4d Micrologic 5.1. 1.3 9 Project: 1 In (A) 418 Copper 1x35 Copper 1x300 Copper Copper 1x35 Copper 1x300 Copper 1x16 Copper 1x150 Copper Un (kV) 24 28/12/2014 .Page 6/28 WD 12 1 G 12 QA 12 Multi-core XLPE 5 WD 9 TA 9 QA 9 Multi-core XLPE 5 1 2.6 MV Cable Name Nbr Designation CSA (mm²) Icc (A) MVWD 1 NA 1 x 240 Al 21. 3 kA Assigned voltage 20 kV Insulation voltage 24 kV MV/LV transformer Range Technology Rated power ukrT Type of losses PkrT System earthing arrangement MV Connection LV Connection No load secondary voltage Ur0 Ur LV Rb (neutral grounding) Ra (mass grounding) Sizing information Cable Parameters Length Max length Installation method TA 9 Trihal Dry-type 400 kVA 6% Normal 4. upstream short circuit power 250 MVA MV Cable MVWD 9 Parameters Length 10 m Type of cable Single core Ib 12 A Nb of conductor per phase 1 Cross section area 1 x 240 Al mm² Core Aluminium Short circuit withstand 21.1 Circuit Source 9 MV power supply W9 Max.Page 7/28 3 Calculation notes 3.1 Source circuits 3.1.8 kW TN-S D yn 420V 400V NA NA UkrT and PkrT calculated by system WD 9 5m NA 31 E Multi-core cables on horizontal perforated tray Type of cable Multi-core Nb of additional touching circuits 0 Insulation XLPE Ambient temperature 30 °C Level of third harmonic THDI 0% Ib 577 A Sizing constraint Iz Sizing Information Sized with Ir Correction factors Temperature factor 1 Project: 1 28/12/2014 . upstream short circuit power 500 MVA Min. 31 6.48 8.48 NA NA NA Synthesis for all operating mode (kA) 10.00 Operating mode emergency (kA) 9.31 8.00 Ief2min NA Calculation results in accordance with CENELEC technical report TR50480.87 7.92 10. All assumptions and device choices are the user's responsibility.79 7.Page 8/28 A-52-14 1 A-52-16 1 D-52-1 1 A-52-20 1 1 Standard table reference Soil thermal resistivity factor Standard table reference Loaded neutral factor Standard table reference Touching conductor factor Standard table reference User correction factor Overall factor Selected phase Cross section area Core Iz under real conditions Selected neutral Cross section area Core Iz under real conditions Selected PE Cross section area Core 1x300 mm² Copper 621 A 1x300 mm² Copper 621 A 1x150 mm² Copper Short circuit current Ik3max Ik2max Ik1max Ik2min Ik1min Ief Operating mode Normal (kA) 10.87 7.93 0.79 7.31 6. Circuit breaker Ib Distance from origin QA 9 577 A NA Sizing Information Range Designation Circuit breaker rating Breaking capacity TNS One pole breaking capacity IT One pole breaking capacity Reinforced breaking capacity Pole & protected pole Trip unit designation Trip unit rating Long delay settings Ir Tr Sized by system Compact NSX NSX630F 630 A 36 kA NA NA NA 4P4d Micrologic 5.3 A 630 A Project: 1 578 A 16 s 28/12/2014 .31 8.92 10.93 0.21 9. 000 UL1L2 (%) 0.000 UL2N (%) 0.Page 9/28 Short delay settings Isd current Tsd Instantaneous tripping Ii current 5780 A 0s 6930 A Discrimination Results UpStream Discrimination Limit Operating mode Normal NA Discrimination can't be determinated : no upstream Lv Breaker Operating mode emergency NA Design current IL1 Discrimination can't be determinated : no upstream Lv Breaker IL2 IL3 IN Operating mode Normal (A) 458.157 0.518 457.136 0.000 Project: 1 28/12/2014 .000 0.157 UL1L2 (%) 0.157 0.518 1.136 Operating mode emergency 0.04 Circuit Operating mode Normal 0.000 0.000 UL1N (%) 0.136 UL1N (%) 0.557 457.000 0 Synthesis for all operating mode (A) 458.000 0.157 UL2L3 (%) 0.157 UL3L1 (%) 0.136 UL3N (%) 0.557 457.518 457.000 UL3N (%) 0.000 0.136 0.000 UL2L3 (%) 0.04 Operating mode emergency (A) 0.136 U3L (%) 0.000 0.136 UL2N (%) 0.000 UL3L1 (%) 0.000 0.136 0.518 Voltage drop Cumulated from upstream 1.000 U3L (%) 0.000 0.000 0.157 0. 2 Generator circuits 3.Page 10/28 3.2.1 Circuit Source 12 LV generator G 12 Rated power 100 kVA Subtransient reactance x”d 20 % Transient reactance x’d 30 % Zero sequence reactance x0 6% System earthing arrangement TN-S Ur 400 V Rb (neutral grounding) NA Ra (mass grounding) NA Cable WD 12 Parameters Length 5m Max length NA Installation method 31 E Multi-core cables on horizontal perforated tray Type of cable Multi-core Nb of additional touching circuits 0 Insulation XLPE Ambient temperature 30 °C Level of third harmonic THDI 0% Ib 144 A Sizing constraint Iz Sizing Information Sized with Ir Correction factors Temperature factor 1 Standard table reference A-52-14 Soil thermal resistivity factor 1 Standard table reference A-52-16 Loaded neutral factor 1 Standard table reference D-52-1 Touching conductor factor 1 Standard table reference A-52-20 User correction factor 1 Overall factor 1 Selected phase Cross section area Core Iz under real conditions Selected neutral Cross section area Core Iz under real conditions Selected PE Cross section area Core Short circuit current Ik3max Ik2max Project: 1 1x35 mm² Copper 158 A 1x35 mm² Copper 158 A 1x16 mm² Copper Ik1max Ik2min Ik1min Ief Ief2min 28/12/2014 . 72 0.40 0.79 0.40 0.Page 11/28 Operating mode Normal (kA) 0.62 0.00 Synthesis for all operating mode (kA) 0.86 0.00 Calculation results in accordance with CENELEC technical report TR50480. All assumptions and device choices are the user's responsibility.79 0.62 0.000 Project: 1 IL3 0.75 0.78 NA NA NA NA Operating mode emergency (kA) 0.62 0. Circuit breaker Ib Distance from origin QA 12 144 A NA Sizing Information Range Designation Circuit breaker rating Breaking capacity TNS One pole breaking capacity IT One pole breaking capacity Reinforced breaking capacity Pole & protected pole Trip unit designation Trip unit rating Long delay settings Ir Tr Short delay settings Isd current Tsd Instantaneous tripping Ii current Sized by system Compact NSX NSX160B 160 A 25 kA NA NA NA 4P4d Micrologic 5.000 0.000 IN 0 28/12/2014 .72 0.2 A 160 A Discrimination Results UpStream 145 A 16 s 435 A 0s 720 A Discrimination Limit Operating mode Normal NA Discrimination can't be determinated : no upstream Lv Breaker Operating mode emergency NA Design current IL1 Discrimination can't be determinated : no upstream Lv Breaker IL2 Operating mode Normal (A) 0.69 0.69 0.62 0. 223 0.000 Operating mode emergency 0.193 Project: 1 28/12/2014 .000 0.500 121.500 121.223 UL1L2 (%) 0.000 0.Page 12/28 Operating mode emergency (A) 121.000 UL1N (%) 0.193 UL2N (%) 0.193 UL3N (%) 0.000 0.000 UL3N (%) 0.000 UL1L2 (%) 0.000 0.500 Synthesis for all operating mode (A) 121.223 0.500 Voltage drop Cumulated from upstream 0 0 Circuit Operating mode Normal 0.193 0.000 U3L (%) 0.223 0.223 UL3L1 (%) 0.500 121.193 0.193 UL1N (%) 0.000 UL3L1 (%) 0.000 0.000 UL2N (%) 0.000 0.000 UL2L3 (%) 0.500 121.193 U3L (%) 0.223 UL2L3 (%) 0.193 0. Page 13/28 3.3.2 A 160 A / 4P4d Full Discrimination Cable Parameters Length Max length Installation method WD 16 Project: 1 36 m 110 m 31 E Multi-core cables on horizontal perforated tray 28/12/2014 .3 A 630 A / 4P4d Full Discrimination Operating mode emergency QA 12 NSX160B Micrologic 5.1 Circuit Load 16 Circuit breaker QA 16 Ib 100 A Distance from origin NA Sizing Information Range Designation Circuit breaker rating Breaking capacity TNS One pole breaking capacity IT One pole breaking capacity Reinforced breaking capacity Pole & protected pole Trip unit designation Trip unit rating Long delay settings Ir Tr Short delay settings Isd current Tsd Instantaneous tripping Ii current Discrimination Results UpStream Sized by system Acti9 C120 C120H 100 A 15 kA NA NA NA 4P4d B 100 A 100 A NA 400 A NA NA Discrimination Limit Operating mode Normal QA 9 NSX630F Micrologic 5.3 Generic load circuits 3. 69 0.78 9.69 2.22 0.13 8.60 0. All assumptions and device choices are the user's responsibility.60 0.00 Synthesis for all operating mode (kA) 10.81 2.59 0.Page 14/28 Type of cable Nb of additional touching circuits Insulation Ambient temperature Level of third harmonic THDI Ib Sizing constraint Sizing Information Correction factors Temperature factor Standard table reference Soil thermal resistivity factor Standard table reference Loaded neutral factor Standard table reference Touching conductor factor Standard table reference User correction factor Overall factor Selected phase Cross section area Core Iz under real conditions Selected neutral Cross section area Core Iz under real conditions Selected PE Cross section area Core Multi-core 0 XLPE 30 °C 0% 100 A Voltage drop The CSA of cable WD 16 has been increased from 16 to 25 to comply with the voltage drop in the circuit.78 9.13 8. Charge U Project: 1 AA 16 400 V 28/12/2014 .39 0.97 0. Sized with Ir 1 A-52-14 1 A-52-16 1 D-52-1 1 A-52-20 1 1 1x25 mm² Copper 127 A 1x25 mm² Copper 127 A 1x16 mm² Copper Short circuit current Ik3max Ik2max Ik1max Ik2min Ik1min Ief Operating mode Normal (kA) 10.72 0.97 3.00 Ief2min Calculation results in accordance with CENELEC technical report TR50480.79 0.00 Operating mode emergency (kA) 0.59 0.39 0. 515 U3L (%) 1.000 100.515 UL2N (%) 1.683 UL2L3 (%) 1.85 3Ph+N 1 1 No 0 NA IL3 IN Operating mode Normal (A) 100.000 0 Operating mode emergency (A) 100.526 1.749 UL2L3 (%) 1.515 U3L (%) 1.457 U3L (%) 1.000 100.515 UL3N (%) 1.526 1.526 1.457 UL3N (%) 1.749 UL1L2 (%) 1.321 1.683 UL1L2 (%) 1.3 kVA 58.321 1.526 1.321 Operating mode emergency 1.526 1.321 Synthesis for all operating mode 1.457 UL2N (%) 1.749 UL1L2 (%) 1.526 1.000 Voltage drop Cumulated from upstream 0 Circuit Operating mode Normal 1.000 100.Page 15/28 S P I cos Polarity Phase connection Number of circuit Ku (Normal) Harmonic generator THDI3 Sensitivity to over voltage Design current IL1 IL2 69.749 UL2L3 (%) 1.515 UL1N (%) 1.000 100.515 UL2N (%) 1.515 UL3N (%) Project: 1 28/12/2014 .000 100.9 kW 100 A 0.749 UL3L1 (%) 1.000 0 Synthesis for all operating mode (A) 100.321 1.457 UL1N (%) 1.515 UL1N (%) 1.321 1.749 UL3L1 (%) 1.321 1.000 100.683 UL3L1 (%) 1.321 1. 6 m 31 E Multi-core cables on horizontal perforated tray Type of cable Multi-core Nb of additional touching circuits 0 Insulation XLPE Ambient temperature 30 °C Level of third harmonic THDI 0% Ib 238 A Project: 1 28/12/2014 .Page 16/28 3.02 s 3000 A Discrimination Limit Operating mode Normal QA 9 NSX630F Micrologic 5.2 Circuit Load 13 Circuit breaker QA 13 Ib 238 A Distance from origin NA Sizing Information Range Designation Circuit breaker rating Breaking capacity TNS One pole breaking capacity IT One pole breaking capacity Reinforced breaking capacity Pole & protected pole Trip unit designation Trip unit rating Long delay settings Ir Tr Short delay settings Isd current Tsd Instantaneous tripping Ii current Discrimination Results UpStream Sized by system Compact NSX NSX250B 250 A 25 kA NA NA NA 4P4d Micrologic 2.3.3 A 630 A / 4P4d Full Discrimination Operating mode emergency NA Discrimination can't be determinated : no upstream Lv Breaker Cable Parameters Length Max length Installation method WD 13 35 m 60.2 250 A 240 A 16 s 2400 A 0. 97 5.93 3.82 0.78 9.00 Operating mode emergency (kA) NA NA NA NA NA NA Synthesis for all operating mode (kA) 10.13 8.Page 17/28 Sizing constraint Sizing Information Correction factors Temperature factor Standard table reference Soil thermal resistivity factor Standard table reference Loaded neutral factor Standard table reference Touching conductor factor Standard table reference User correction factor Overall factor Selected phase Cross section area Core Iz under real conditions Selected neutral Cross section area Core Iz under real conditions Selected PE Cross section area Core Iz Sized with Ir 1 A-52-14 1 A-52-16 1 D-52-1 1 A-52-20 1 1 1x70 mm² Copper 246 A 1x70 mm² Copper 246 A 1x35 mm² Copper Short circuit current Ik3max Ik2max Ik1max Ik2min Ik1min Ief Operating mode Normal (kA) 10.13 8.00 Ief2min NA Calculation results in accordance with CENELEC technical report TR50480.78 9. Charge U S P I cos Polarity Phase connection Number of circuit Ku (Normal) Harmonic generator THDI3 Sensitivity to over voltage Project: 1 AA 13 400 V 165 kVA 140 kW 238 A 0.49 4. All assumptions and device choices are the user's responsibility.82 0.93 3.49 4.97 5.85 3Ph+N 1 1 No 0 NA 28/12/2014 . 000 0.374 1.326 UL3N (%) Project: 1 28/12/2014 .531 UL1L2 (%) 1.000 0 Synthesis for all operating mode (A) 238.326 UL1N (%) 1.193 U3L (%) 0.223 UL1L2 (%) 0.374 1.326 UL2N (%) 1.531 UL3L1 (%) 1.190 1.000 Synthesis for all operating mode 1.193 UL2N (%) 0.190 1.000 0.223 UL3L1 (%) 0.000 0 Operating mode emergency (A) 0.193 UL1N (%) 0.531 UL2L3 (%) 1.531 UL3L1 (%) 1.374 1.000 238.326 U3L (%) 1.326 UL2N (%) 1.326 UL1N (%) 1.000 0.223 UL2L3 (%) 0.000 238.000 0.190 Operating mode emergency 0.531 UL2L3 (%) 1.190 1.000 238.Page 18/28 Design current IL1 IL2 IL3 IN Operating mode Normal (A) 238.000 0.326 UL3N (%) 1.000 0.193 UL3N (%) 0.531 UL1L2 (%) 1.000 0.000 238.000 0.326 U3L (%) 1.000 Voltage drop Cumulated from upstream 0 Circuit Operating mode Normal 1. 4 Lighting load circuits 3.1 Circuit Load 15 Circuit breaker QA 15 Ib 5.4.3 A 630 A / 4P4d Full Discrimination Operating mode emergency NA Discrimination can't be determinated : no upstream Lv Breaker Cable Parameters Length Max length Installation method WD 15 15 m 241 m 31 E Multi-core cables on horizontal perforated tray Type of cable Multi-core Nb of additional touching circuits 0 Project: 1 28/12/2014 .Page 19/28 3.2 A Distance from origin NA Sizing Information Range Designation Circuit breaker rating Breaking capacity TNS One pole breaking capacity IT One pole breaking capacity Reinforced breaking capacity Pole & protected pole Trip unit designation Trip unit rating Long delay settings Ir Tr Short delay settings Isd current Tsd Instantaneous tripping Ii current Discrimination Results UpStream Sized by system Acti9 iC60 iC60H 6A 15 kA NA NA NA 4P4d C 6A 6A NA 48 A NA NA Discrimination Limit Operating mode Normal QA 9 NSX630F Micrologic 5. Charge U S P I cos Ku (Normal) Number of circuit Project: 1 EA 15 400 V 3.66 0.78 0.97 0.78 9.78 9.78 0.2 A 1 1 1 28/12/2014 .6 kVA 3 kW 5.00 Ief2min NA Calculation results in accordance with CENELEC technical report TR50480.Page 20/28 Insulation Ambient temperature Level of third harmonic THDI Ib Sizing constraint Sizing Information Correction factors Temperature factor Standard table reference Soil thermal resistivity factor Standard table reference Loaded neutral factor Standard table reference Touching conductor factor Standard table reference User correction factor Overall factor Selected phase Cross section area Core Iz under real conditions Selected neutral Cross section area Core Iz under real conditions Selected PE Cross section area Core XLPE 30 °C 0% 5A Iz Sized with Ir 1 A-52-14 1 A-52-16 1 D-52-1 1 A-52-20 1 1 1x1.13 8.13 8.5 mm² Copper 23 A 1x4 mm² Copper Short circuit current Ik3max Ik2max Ik1max Ik2min Ik1min Ief Operating mode Normal (kA) 10. All assumptions and device choices are the user's responsibility.5 mm² Copper 23 A 1x1.46 0.00 Operating mode emergency (kA) NA NA NA NA NA NA Synthesis for all operating mode (kA) 10.97 0.46 0.66 0. 193 UL1N (%) 0.533 0.000 0.669 UL3N (%) 0.193 UL2N (%) 0.000 0 Synthesis for all operating mode (A) 5.533 0.193 UL3N (%) 0.619 UL2L3 (%) 0.000 0.196 3.696 UL1L2 (%) 0.223 UL2L3 (%) 0.196 3.Page 21/28 Polarity Phase connection Type of luminaries Nb of luminaries Nb of lights/luminaries Lights power Ballast power Ia Harmonic generator THDI3 Sensitivity to over voltage Design current IL1 IL2 3Ph+N Standard incandescent lamp 10 2 150 W 0W 5.897 3.669 U3L (%) 0.223 UL3L1 (%) 0.000 0.666 0.669 U3L (%) 0.533 Operating mode emergency 0.000 0.000 0.669 UL3N (%) Project: 1 28/12/2014 .619 UL2L3 (%) 0.696 UL1L2 (%) 0.539 0.802 UL1N (%) 0.802 UL1N (%) 0.897 Voltage drop Cumulated from upstream 1.897 3.000 0.696 UL3L1 (%) 0.669 UL2N (%) 0.223 UL1L2 (%) 0.696 UL3L1 (%) 0.000 0.193 U3L (%) 0.897 1.539 0.000 Synthesis for all operating mode 0.462 0.3 Circuit Operating mode Normal 0.3 Operating mode emergency (A) 0.669 UL2N (%) 0.2 A No 0 NA IL3 IN Operating mode Normal (A) 5.000 0. 1 Circuit Motor Load 14 Circuit breaker QA 14 Ib NA Distance from origin NA Sizing Information Range Designation Circuit breaker rating Breaking capacity TNS One pole breaking capacity IT One pole breaking capacity Reinforced breaking capacity Pole & protected pole Trip unit designation Trip unit rating Long delay settings Ir Tr Short delay settings Isd current Tsd Instantaneous tripping Ii current Discrimination Results UpStream Sized by system Compact NSX NSX250F 250 A 36 kA NA NA NA 3P3d MA 220 A 220 A NA 2420 A NA NA Discrimination Limit Operating mode Normal QA 9 NSX630F Micrologic 5.5 Motor starter combination 3.3 A 630 A / 4P4d Full Discrimination Operating mode emergency NA Discrimination can't be determinated : no upstream Lv Breaker Contactor Designation Type of coordination LC1F225 LC1F225 T1 Thermal relay Designation Ir LR9F5371 LR9F5371 195 Cable Parameters Length Max length Installation method WD 14 Project: 1 39 m 51.7 m 31 28/12/2014 .5.Page 22/28 3. 56 0.00 5.00 5.13 8.34 0.00 3.34 0.00 Ief2min NA Calculation results in accordance with CENELEC technical report TR50480.13 8.00 Operating mode emergency (kA) NA NA NA NA NA NA Synthesis for all operating mode (kA) 10.00 3.Page 23/28 E Multi-core cables on horizontal perforated tray Type of cable Multi-core Nb of additional touching circuits 0 Insulation XLPE Ambient temperature 30 °C Level of third harmonic THDI 0% Ib 195 A Sizing constraint Iz Sizing Information Sized with Ir Correction factors Temperature factor 1 Standard table reference A-52-14 Soil thermal resistivity factor 1 Standard table reference A-52-16 Loaded neutral factor 1 Standard table reference D-52-1 Touching conductor factor 1 Standard table reference A-52-20 User correction factor 1 Overall factor 1 Selected phase Cross section area Core Iz under real conditions Selected PE Cross section area Core 1x70 mm² Copper 246 A 1x35 mm² Copper Short circuit current Ik3max Ik2max Ik1max Ik2min Ik1min Ief Operating mode Normal (kA) 10. All assumptions and device choices are the user's responsibility.78 0.78 0.56 0. Asynchronous LV Motor Startup type U Mechanical power Startup current Id/Ir Transient current I’’d/Ir Ir for sizing Project: 1 MA 14 Direct 400 V 110 kW 7.2 <=19 195 A 28/12/2014 . Page 24/28 Sr for sizing Pr for sizing cos Polarity Number of circuit Ku (mode Normal) Harmonic generator THDI3 Sensitivity to over voltage Design current IL1 IL2 135 kVA 118 kW 0.136 UL1N (%) 0.193 U3L (%) 0.000 Operating mode emergency 0.5.000 0.000 0.000 0.000 0.270 0.193 UL1N (%) 0.000 195.223 UL3L1 (%) 0.270 1.000 0.000 0.000 0.236 U3L (%) 1.136 UL2N (%) 0.944 3.000 0.100 1.223 UL1L2 (%) 0.427 UL3L1 (%) 0.427 UL2L3 (%) 1.000 195.87 3Ph 1 1 No 0% NA IL3 IN Operating mode Normal (A) 195.193 UL2N (%) 0.000 0 Synthesis for all operating mode (A) 195.000 0.000 0.270 1.427 UL1L2 (%) 1.136 UL3N (%) 1.2 Circuit Motor Load 17 Circuit breaker QA 17 Ib NA Distance from origin NA Sizing Information Range Designation Circuit breaker rating Breaking capacity TNS One pole breaking capacity IT One pole breaking capacity Reinforced breaking capacity Pole & protected pole Project: 1 Sized by system Compact NSX NSX100F 100 A 36 kA NA NA NA 3P3d 28/12/2014 .000 195.223 UL2L3 (%) 0.000 Startup Voltage drop UStartUp 3.000 195.000 Voltage drop Cumulated from upstream 0 Circuit Operating mode Normal 1.193 UL3N (%) 0.000 0 Operating mode emergency (A) 0. 2 A 160 A / 4P4d 392 A Contactor Designation Type of coordination LC1D40A LC1D40A T1 Cable Parameters Length Max length Installation method WD 17 75 m 252 m 31 E Multi-core cables on horizontal perforated tray Type of cable Multi-core Nb of additional touching circuits 0 Insulation XLPE Ambient temperature 30 °C Level of third harmonic THDI 0% Ib 35 A Sizing constraint Voltage drop Sizing Information The CSA of cable WD 17 has been increased from 4 to 16 to comply with the voltage drop in the circuit.3 A 630 A / 4P4d Full Discrimination Operating mode emergency QA 12 NSX160B Micrologic 5.Page 25/28 Trip unit designation Trip unit rating Long delay settings Ir Tr Short delay settings Isd current Tsd Instantaneous tripping Ii current Discrimination Results UpStream Micrologic 2.2 M 50 A 36 A 5s 252 A 0. Sized with Ir Correction factors Temperature factor 1 Standard table reference A-52-14 Project: 1 28/12/2014 .03 s 750 A Discrimination Limit Operating mode Normal QA 9 NSX630F Micrologic 5. 000 0 Operating mode emergency (A) 35.00 1.9 kW 0.000 35.69 0.38 0.79 0.2 kVA 20.000 35.Page 26/28 1 A-52-16 1 D-52-1 1 A-52-20 1 1 Soil thermal resistivity factor Standard table reference Loaded neutral factor Standard table reference Touching conductor factor Standard table reference User correction factor Overall factor Selected phase Cross section area Core Iz under real conditions Selected PE Cross section area Core 1x16 mm² Copper 100 A 1x16 mm² Copper Short circuit current Ik3max Ik2max Ik1max Ik2min Ik1min Ief Operating mode Normal (kA) 10.00 0.13 8.2 <=19 35 A 24.86 3Ph 1 1 No 0% NA IL3 IN Operating mode Normal (A) 35.00 Operating mode emergency (kA) 0.57 0. Asynchronous LV Motor Startup type U Mechanical power Startup current Id/Ir Transient current I’’d/Ir Ir for sizing Sr for sizing Pr for sizing cos Polarity Number of circuit Ku (mode Normal) Harmonic generator THDI3 Sensitivity to over voltage Design current IL1 IL2 MA 17 Direct 400 V 18.38 0.13 8.00 0.51 0. All assumptions and device choices are the user's responsibility.5 kW 7.00 0.78 0.00 Synthesis for all operating mode (kA) 10.000 0 Project: 1 28/12/2014 .00 0.95 0.00 Ief2min Calculation results in accordance with CENELEC technical report TR50480.78 0.000 35.000 35.51 0.00 0. 000 0.136 UL1N (%) 0.948 UL2L3 (%) 1.000 Operating mode emergency 1.6.193 UL1N (%) 0.882 UL1L2 (%) 1.882 UL3L1 (%) 0.687 U3L (%) 1.Page 27/28 Synthesis for all operating mode (A) 35.882 UL2L3 (%) 1.136 UL3N (%) 1.000 35.725 0.000 0.630 U3L (%) 1.494 1.000 Startup Voltage drop UStartUp 3.000 0.725 1.000 35.725 0.494 1.725 1.6 Busbar circuits 3.948 UL3L1 (%) 0.136 UL2N (%) 0.725 1.000 0.1 Busbar Parameters Switchboard Name Switchboard Range Rating (A) IP Feeder Circuit name Circuit WC 10 WC 10 UC 11 No preference 0 Undefined Protection name Protection type Load 13 QA 13 NSX250B Motor Load 14 QA 14 NSX250F Load 15 QA 15 iC60H Load 16 QA 16 C120H Motor Load 17 QA 17 NSX100F Short circuit current Ik3max Ik2max Ik1max Ik2min Ik1min Ief Ief2min Operating mode Normal Project: 1 28/12/2014 .000 Voltage drop Cumulated from upstream 0 Circuit Operating mode Normal 1.193 UL3N (%) 1.125 3.193 UL2N (%) 0.948 UL1L2 (%) 1.725 1. 79 0. Project: 1 28/12/2014 .81 7.72 0.00 Calculation results in accordance with CENELEC technical report TR50480.69 0.40 0.81 7.78 9.Page 28/28 (kA) 10.88 7.97 6. All assumptions and device choices are the user's responsibility.13 8.62 0.88 7.62 0.94 0.78 9.00 Synthesis for all operating mode (kA) 10.97 6.13 8.94 0.00 Operating mode emergency (kA) 0.