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8/10/2019 ecodial report
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Installation calculation report
1Full
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Project: 1 28/12/2014
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Content
1 Project description.................................................................................................................. 4
1.1 Project general settings...................................................................................................................4
1.2 Settings for wiring device calculation............................................................................................4
1.3 List of loads...................................................................................................................................... 4
2 Installation general design.....................................................................................................6
2.1 List of devices..................................................................................................................................6
3 Calculation notes.................................................................................................................. 14
3.1 Source circuits...............................................................................................................................14
3.2 Generator circuits..........................................................................................................................23
3.3 L Source circuits..........................................................................................................................23
3.4 !PS circuits....................................................................................................................................24
3." Surge #rrester circuits...................................................................................................................24
3.6 Capacitor $an% circuits..................................................................................................................24
3.& 'eeder circuits................................................................................................................................ 24
3.( L )ransfor*er circuits.................................................................................................................2"
3.+ Couplers circuits............................................................................................................................2&
3.1, Generic load circuits.................................................................................................................2&
3.11 Lig-ting load circuits................................................................................................................2&
3.12 Power soc%et load circuits.......................................................................................................2(
3.13 otor starter co*$ination........................................................................................................2(
3.14 /us$ar circuits.......................................................................................................................... 2+
3.1" /us$ar trun%ing s0ste* circuits.............................................................................................2+
3.16 /us$ar trun%ing s0ste* circuits.............................................................................................2+
3.1& Lig-ting /us$ar trun%ing s0ste* circuits..............................................................................2+
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1 Project description
1.1 Project general settings
Installation standard IEC60364
Calculation standard TR50480Circuit $rea%er standard IEC 60947-2'reuenc0 50 !
1.2 Settings for wiring device calculationai*al CS# 300 ""#
1.3 List of loads
1.3.1 Generic loads
a*e Sr %#5 Pr %5 Ir #5 Cos $r Polarit0 on linear load )78i 3 95
$$ 16 69%3 58%9 100 0%85 1 3P&'( (o 0 $$ 13 165 140 238 0%85 1 3P&'( (o 0
1.3.2 Lig-ting distri$ution
a*e )0pe of la*p P La*p 5 P $allast 5 $ of la*p:lig-t $ of lig-tE$ 15 )ta*+ar+
,*ca*+ece*tla".
150 0 2 10
1.3.3 otor loads
a*e Sr %#5 Pr %5 Ir #5 Cos $r Polarit0 on linear load )78i 3 95$ 14 135 118 195 0%87 1 3P& (o 0$ 17 24%2 20%9 35 0%86 1 3P& (o 0
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2 Installation general design
2.1 List of devices
2.1.1 :L transfor*er
a*e$r ;ange Insulation Sr %#5 u%r) 95 Connection !2 5 S<# ;$
* 5
T$ 9 1 Tr,&al r-t.e 400 6 420 T(-) 10000
2.1.2 L $ac%up generator
a*e $r Sr %#5 =d 95 >d 95 , 95 ! 5 S<# ;$
* 5
12 1 100 20 30 6 400 T(-) 10000
2.1.3 L switc-$oards and $us$ar
Switc-$oard na*e ;ange ;ating #5 IP
C 11 (o .reere*ce 0%00 *+e,*e+
/us$ar na*e Switc-$oardna*e
?s Polarit0 S<# <uipotential $ounding
C 10 C 11 1 3P&'( T(-) ,t&
2.1.4 Circuit $rea%er
a*e $r ;ange @8esignation
;ating #5 Poles )rip unit:Curve ;C8 ;C8 class
$ 14 1 Co".act() -
()250F
250 3P3+ $
$ 9 1 Co".act() -()630F
630 4P4+ ,crolog,c 5%3 $
$ 17 1 Co".act() -()100F
100 3P3+ ,crolog,c 2%2
$ 16 1 $ct,9 C120 -C120
100 4P4+
$ 13 1 Co".act() -()250
250 4P4+ ,crolog,c 2%2
$ 15 1 $ct,9 ,C60 -
,C60
6 4P4+ C
$ 12 1 Co".act() -()160
160 4P4+ ,crolog,c 5%2 $
2.1." Ca$le sc-edule
a*e $r Inco*er 'eeder )0pe Insulation L *5 L1:L2:L3 P<:P< 17 1 $ 17 $ 17 ult,-core PE 75 116
Co..er 116Co..er
14 1 $ 14 $ 14 ult,-core PE 39 170Co..er
135Co..er
16 1 $ 16 $$ 16 ult,-core PE 36 125
Co..er
125
Co..er
116
Co..er 13 1 $ 13 $$ 13 ult,-core PE 35 170
Co..er 170Co..er
135Co..er
15 1 $ 15 E$ 15 ult,-core PE 15 11%5 11%5 14 Co..er
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Co..er Co..er 12 1 12 $ 12 ult,-core PE 5 135
Co..er 135Co..er
116Co..er
9 1 T$ 9 $ 9 ult,-core PE 5 1300Co..er
1300Co..er
1150Co..er
2.1.6 Ca$le
a*e $r 8esignation CS# **A5 Icc #5 In #5 !n %5;9
1 ($ 1 240 $l 21%3 418 24
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3 Calculation notes
3.1 Source circuits
3.1.1 Circuit Source +
power suppl0 +a% u.trea" &ort c,rcu,t .o<er 500 ;$,*% u.trea" &ort c,rcu,t .o<er 250 ;$ Ca$le 8 +Para*eterse*gt& 10 m
T.e o ca=le Single core
I= 12 $
(= o co*+uctor .er .&ae 1Cro ect,o* area 1 x 240 Al""#
Core Aluminium
)&ort c,rcu,t <,t&ta*+ 21.3>$
$,g*e+ ?oltage 20>;
I*ulat,o* ?oltage 24>;
:L transfor*er )# +Ra*ge Tr,&alTec&*olog r-t.eRate+ .o<er 400 >;$u>rT 6 @T.e o loe (or"alP>rT 4%8 >)te" eart&,*g arra*ge"e*t T(-); Co**ect,o* ; Co**ect,o* *(o loa+ eco*+ar ?oltage r0 420;r ; 400;R= A*eutral grou*+,*gB ($Ra A"a grou*+,*gB ($),!,*g ,*or"at,o* >rT a*+ P>rT calculate+ = te"
Ca$le 8 +Para*eterse*gt& 5 "a le*gt& ($I*tallat,o* "et&o+
31E
Multi-core cables on horizontal
perforated tray
T.e o ca=le ult,-core(= o a++,t,o*al touc&,*g c,rcu,t 0
I*ulat,o* XLPE
$"=,e*t te".erature 30C
e?el o t&,r+ &ar"o*,c TI 0@
I= 577 $),!,*g co*tra,*t Iz
),!,*g I*or"at,o* Sized with IrCorrection factorsTe".erature actor 1
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)ta*+ar+ ta=le reere*ce A-52-14
)o,l t&er"al re,t,?,t actor 1
)ta*+ar+ ta=le reere*ce A-52-16
oa+e+ *eutral actor 1
)ta*+ar+ ta=le reere*ce D-52-1
Touc&,*g co*+uctor actor 1
)ta*+ar+ ta=le reere*ce A-52-20er correct,o* actor 1D?erall actor 1
Selected p-aseCro ect,o* area 1300""#
Core Copper
I! u*+er real co*+,t,o* 621 $
Selected neutralCro ect,o* area 1300""#
Core Copper
I! u*+er real co*+,t,o* 621 $
Selected P<Cro ect,o* area 1150""#
Core Copper
S-ort circuit currentI%3*a I%2*a I%1*a I%2*in I%1*in Ief Ief2*in
Bperating *ode or*alA>$B 10%31 8%92 10%31 6%87 7%79 7%93 0%00
Bperating *ode e*ergenc0A>$B 9%48 8%21 9%48 ($ ($ ($ ($
S0nt-esis for all operating *odeA>$B 10%31 8%92 10%31 6%87 7%79 7%93 0%00
Calculat,o* reult ,* accor+a*ce <,t& CE(EEC tec&*,cal re.ort TR50480% $ll au".t,o* a*+ +e?,ce c&o,ce are t&e uer re.o*,=,l,t%
Circuit $rea%er # +I= 577 $
,ta*ce ro" or,g,* ($
),!,*g I*or"at,o* ),!e+ = te"Ra*ge Co".act ()e,g*at,o* ()630FC,rcu,t =rea>er rat,*g 630 $rea>,*g ca.ac,t 36 >$T() D*e .ole =rea>,*g ca.ac,t ($IT D*e .ole =rea>,*g ca.ac,t ($Re,*orce+ =rea>,*g ca.ac,t ($Pole .rotecte+ .ole 4P4+Tr,. u*,t +e,g*at,o* ,crolog,c 5%3 $Tr,. u*,t rat,*g 630 $Long dela0 settingsIr 578 $Tr 16
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S-ort dela0 settingsI+ curre*t 5780 $T+ 0 Instantaneous trippingI, curre*t 6930 $
8iscri*ination ;esults
!pStrea* 8iscri*ination Li*it
Bperating *ode or*al
($ ,cr,",*at,o* ca*t =e +eter",*ate+ : *ou.trea" ? rea>er
Bperating *ode e*ergenc0
($ ,cr,",*at,o* ca*t =e +eter",*ate+ : *ou.trea" ? rea>er
8esign currentIL1 IL2 IL3 I
Bperating *ode or*alA$B 458%557 457%518 457%518 1%04
Bperating *ode e*ergenc0A$B 0%000 0%000 0%000 0
S0nt-esis for all operating *odeA$B 458%557 457%518 457%518 1%04oltage drop
Cu*ulated fro* upstrea* Circuit
Bperating *ode or*al
∆3 A@B 0%136 0%136
∆12 A@B 0%157 0%157
∆23 A@B 0%157 0%157
∆31 A@B 0%157 0%157
∆1( A@B 0%136 0%136
∆2( A@B 0%136 0%136
∆3( A@B 0%136 0%136
Bperating *ode e*ergenc0
∆3 A@B 0%000 0%000
∆12 A@B 0%000 0%000
∆23 A@B 0%000 0%000
∆31 A@B 0%000 0%000
∆1( A@B 0%000 0%000
∆2( A@B 0%000 0%000
∆3( A@B 0%000 0%000
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3.2 Generator circuits
3.2.1 Circuit Source 12
L generator G 12Rate+ .o<er 100 >;$)u=tra*,e*t reacta*ce G+ 20 @Tra*,e*t reacta*ce H+ 30 @
ero eJue*ce reacta*ce 0 6 @)te" eart&,*g arra*ge"e*t T(-)r 400 ;R= A*eutral grou*+,*gB ($Ra A"a grou*+,*gB ($
Ca$le 8 12Para*eterse*gt& 5 "a le*gt& ($I*tallat,o* "et&o+ 31
E
Multi-core cables on horizontal
perforated trayT.e o ca=le ult,-core(= o a++,t,o*al touc&,*g c,rcu,t 0
I*ulat,o* XLPE
$"=,e*t te".erature 30C
e?el o t&,r+ &ar"o*,c TI 0@
I= 144 $),!,*g co*tra,*t Iz
),!,*g I*or"at,o* Sized with Ir
Correction factorsTe".erature actor 1
)ta*+ar+ ta=le reere*ce A-52-14)o,l t&er"al re,t,?,t actor 1
)ta*+ar+ ta=le reere*ce A-52-16
oa+e+ *eutral actor 1
)ta*+ar+ ta=le reere*ce D-52-1
Touc&,*g co*+uctor actor 1
)ta*+ar+ ta=le reere*ce A-52-20er correct,o* actor 1D?erall actor 1
Selected p-aseCro ect,o* area 135""#
Core Copper
I! u*+er real co*+,t,o* 158 $
Selected neutralCro ect,o* area 135""#
Core CopperI! u*+er real co*+,t,o* 158 $
Selected P<Cro ect,o* area 116""#
Core Copper
S-ort circuit currentI%3*a I%2*a I%1*a I%2*in I%1*in Ief Ief2*in
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Bperating *ode or*alA>$B 0%86 0%75 0%78 ($ ($ ($ ($
Bperating *ode e*ergenc0A>$B 0%79 0%69 0%72 0%40 0%62 0%62 0%00
S0nt-esis for all operating *odeA>$B 0%79 0%69 0%72 0%40 0%62 0%62 0%00
Calculat,o* reult ,* accor+a*ce <,t& CE(EEC tec&*,cal re.ort TR50480% $ll au".t,o* a*+ +e?,ce c&o,ce are t&e uer re.o*,=,l,t%
Circuit $rea%er # 12I= 144 $
,ta*ce ro" or,g,* ($
),!,*g I*or"at,o* ),!e+ = te"
Ra*ge Co".act ()e,g*at,o* ()160C,rcu,t =rea>er rat,*g 160 $rea>,*g ca.ac,t 25 >$T() D*e .ole =rea>,*g ca.ac,t ($IT D*e .ole =rea>,*g ca.ac,t ($Re,*orce+ =rea>,*g ca.ac,t ($Pole .rotecte+ .ole 4P4+Tr,. u*,t +e,g*at,o* ,crolog,c 5%2 $Tr,. u*,t rat,*g 160 $Long dela0 settingsIr 145 $Tr 16
S-ort dela0 settingsI+ curre*t 435 $T+ 0 Instantaneous trippingI, curre*t 720 $
8iscri*ination ;esults
!pStrea* 8iscri*ination Li*it
Bperating *ode or*al
($ ,cr,",*at,o* ca*t =e +eter",*ate+ : *ou.trea" ? rea>er
Bperating *ode e*ergenc0
($ ,cr,",*at,o* ca*t =e +eter",*ate+ : *ou.trea" ? rea>er
8esign currentIL1 IL2 IL3 I
Bperating *ode or*alA$B 0%000 0%000 0%000 0
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Bperating *ode e*ergenc0A$B 121%500 121%500 121%500 0
S0nt-esis for all operating *odeA$B 121%500 121%500 121%500 0oltage drop
Cu*ulated fro* upstrea* Circuit
Bperating *ode or*al
∆3 A@B 0%000 0%000
∆12 A@B 0%000 0%000
∆23 A@B 0%000 0%000
∆31 A@B 0%000 0%000
∆1( A@B 0%000 0%000
∆2( A@B 0%000 0%000
∆3( A@B 0%000 0%000
Bperating *ode e*ergenc0
∆3 A@B 0%193 0%193∆12 A@B 0%223 0%223
∆23 A@B 0%223 0%223
∆31 A@B 0%223 0%223
∆1( A@B 0%193 0%193
∆2( A@B 0%193 0%193
∆3( A@B 0%193 0%193
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3.3 Generic load circuits
3.3.1 Circuit Load 16
Circuit $rea%er # 16I= 100 $
,ta*ce ro" or,g,* ($
),!,*g I*or"at,o* ),!e+ = te"Ra*ge $ct,9 C120e,g*at,o* C120C,rcu,t =rea>er rat,*g 100 $rea>,*g ca.ac,t 15 >$T() D*e .ole =rea>,*g ca.ac,t ($IT D*e .ole =rea>,*g ca.ac,t ($Re,*orce+ =rea>,*g ca.ac,t ($Pole .rotecte+ .ole 4P4+Tr,. u*,t +e,g*at,o* Tr,. u*,t rat,*g 100 $Long dela0 settingsIr 100 $Tr ($S-ort dela0 settingsI+ curre*t 400 $T+ ($Instantaneous trippingI, curre*t ($
8iscri*ination ;esults
!pStrea* 8iscri*ination Li*it
Bperating *ode or*al
$ 9()630F,crolog,c 5%3 $630 $ / 4P4+
Full ,cr,",*at,o*
Bperating *ode e*ergenc0
$ 12()160,crolog,c 5%2 $
160 $ / 4P4+
Full ,cr,",*at,o*
Ca$le 8 16Para*eterse*gt& 36 "a le*gt& 110 "I*tallat,o* "et&o+ 31
EMulti-core cables on horizontal
perforated tray
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T.e o ca=le ult,-core(= o a++,t,o*al touc&,*g c,rcu,t 0
I*ulat,o* XLPE
$"=,e*t te".erature 30C
e?el o t&,r+ &ar"o*,c TI 0@
I= 100 $
),!,*g co*tra,*t Voltage drop),!,*g I*or"at,o* The CSA of cable WD 16 has been
increased from 16 to 25 to comply with
the voltage drop in the circuit.
Sized with Ir
Correction factorsTe".erature actor 1
)ta*+ar+ ta=le reere*ce A-52-14
)o,l t&er"al re,t,?,t actor 1
)ta*+ar+ ta=le reere*ce A-52-16
oa+e+ *eutral actor 1)ta*+ar+ ta=le reere*ce D-52-1
Touc&,*g co*+uctor actor 1
)ta*+ar+ ta=le reere*ce A-52-20er correct,o* actor 1D?erall actor 1
Selected p-aseCro ect,o* area 125""#
Core Copper
I! u*+er real co*+,t,o*127 $Selected neutral
Cro ect,o* area 125""#
Core Copper
I! u*+er real co*+,t,o* 127 $Selected P<Cro ect,o* area 116""#
Core Copper
S-ort circuit currentI%3*a I%2*a I%1*a I%2*in I%1*in Ief Ief2*in
Bperating *ode or*alA>$B 10%13 8%78 9%97 3%81 2%69 2%22 0%00
Bperating *ode e*ergenc0A>$B 0%79 0%69 0%72 0%39 0%60 0%59 0%00
S0nt-esis for all operating *odeA>$B 10%13 8%78 9%97 0%39 0%60 0%59 0%00
Calculat,o* reult ,* accor+a*ce <,t& CE(EEC tec&*,cal re.ort TR50480% $ll au".t,o* a*+ +e?,ce c&o,ce are t&e uer re.o*,=,l,t%
C-arge ## 16 400 ;
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) 69%3 >;$P 58%9 >I 100 $
coϕ 0%85
Polar,t 3P&'(P&ae co**ect,o*(u"=er o c,rcu,t 1
Ku A(or"alB 1ar"o*,c ge*erator (oTI3 0)e*,t,?,t to o?er ?oltage ($8esign current
IL1 IL2 IL3 I
Bperating *ode or*alA$B 100%000 100%000 100%000 0
Bperating *ode e*ergenc0A$B 100%000 100%000 100%000 0
S0nt-esis for all operating *odeA$B 100%000 100%000 100%000 0oltage drop
Cu*ulated fro* upstrea* Circuit
Bperating *ode or*al
∆3 A@B 1%457 1%321
∆12 A@B 1%683 1%526
∆23 A@B 1%683 1%526
∆31 A@B 1%683 1%526
∆1( A@B 1%457 1%321
∆2( A@B 1%457 1%321∆3( A@B 1%457 1%321
Bperating *ode e*ergenc0
∆3 A@B 1%515 1%321
∆12 A@B 1%749 1%526
∆23 A@B 1%749 1%526
∆31 A@B 1%749 1%526
∆1( A@B 1%515 1%321
∆2( A@B 1%515 1%321
∆3( A@B 1%515 1%321
S0nt-esis for all operating *ode
∆3 A@B 1%515
∆12 A@B 1%749
∆23 A@B 1%749
∆31 A@B 1%749
∆1( A@B 1%515
∆2( A@B 1%515
∆3( A@B 1%515
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3.3.2 Circuit Load 13
Circuit $rea%er # 13I= 238 $
,ta*ce ro" or,g,* ($
),!,*g I*or"at,o* ),!e+ = te"Ra*ge Co".act ()e,g*at,o* ()250C,rcu,t =rea>er rat,*g 250 $rea>,*g ca.ac,t 25 >$T() D*e .ole =rea>,*g ca.ac,t ($IT D*e .ole =rea>,*g ca.ac,t ($Re,*orce+ =rea>,*g ca.ac,t ($Pole .rotecte+ .ole 4P4+Tr,. u*,t +e,g*at,o* ,crolog,c 2%2Tr,. u*,t rat,*g 250 $Long dela0 settingsIr 240 $
Tr 16 S-ort dela0 settingsI+ curre*t 2400 $T+ 0%02 Instantaneous trippingI, curre*t 3000 $
8iscri*ination ;esults
!pStrea* 8iscri*ination Li*it
Bperating *ode or*al
$ 9
()630F,crolog,c 5%3 $630 $ / 4P4+
Full ,cr,",*at,o*
Bperating *ode e*ergenc0
($ ,cr,",*at,o* ca*t =e +eter",*ate+ : *ou.trea" ? rea>er
Ca$le 8 13Para*eterse*gt& 35 "a le*gt& 60%6 "I*tallat,o* "et&o+ 31
E
Multi-core cables on horizontal
perforated tray
T.e o ca=le ult,-core(= o a++,t,o*al touc&,*g c,rcu,t 0
I*ulat,o* XLPE
$"=,e*t te".erature 30Ce?el o t&,r+ &ar"o*,c TI 0@
I= 238 $
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),!,*g co*tra,*t Iz
),!,*g I*or"at,o* Sized with Ir
Correction factorsTe".erature actor 1
)ta*+ar+ ta=le reere*ce A-52-14
)o,l t&er"al re,t,?,t actor 1
)ta*+ar+ ta=le reere*ce A-52-16oa+e+ *eutral actor 1
)ta*+ar+ ta=le reere*ce D-52-1Touc&,*g co*+uctor actor 1
)ta*+ar+ ta=le reere*ce A-52-20er correct,o* actor 1D?erall actor 1
Selected p-aseCro ect,o* area 170""#
Core Copper
I! u*+er real co*+,t,o* 246 $
Selected neutralCro ect,o* area 170""#
Core Copper
I! u*+er real co*+,t,o* 246 $
Selected P<Cro ect,o* area 135""#
Core Copper
S-ort circuit current
I%3*a I%2*a I%1*a I%2*in I%1*in Ief Ief2*in
Bperating *ode or*alA>$B 10%13 8%78 9%97 5%49 4%93 3%82 0%00
Bperating *ode e*ergenc0A>$B ($ ($ ($ ($ ($ ($ ($
S0nt-esis for all operating *odeA>$B 10%13 8%78 9%97 5%49 4%93 3%82 0%00
Calculat,o* reult ,* accor+a*ce <,t& CE(EEC tec&*,cal re.ort TR50480%
$ll au".t,o* a*+ +e?,ce c&o,ce are t&e uer re.o*,=,l,t%
C-arge ## 13 400 ;) 165 >;$P 140 >I 238 $
coϕ 0%85
Polar,t 3P&'(P&ae co**ect,o*(u"=er o c,rcu,t 1Ku A(or"alB 1
ar"o*,c ge*erator (oTI3 0)e*,t,?,t to o?er ?oltage ($
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8esign currentIL1 IL2 IL3 I
Bperating *ode or*alA$B 238%000 238%000 238%000 0
Bperating *ode e*ergenc0
A$B 0%000 0%000 0%000 0
S0nt-esis for all operating *odeA$B 238%000 238%000 238%000 0oltage drop
Cu*ulated fro* upstrea* Circuit
Bperating *ode or*al
∆3 A@B 1%326 1%190
∆12 A@B 1%531 1%374
∆23 A@B 1%531 1%374
∆31 A@B 1%531 1%374
∆1( A@B 1%326 1%190
∆2( A@B 1%326 1%190
∆3( A@B 1%326 1%190
Bperating *ode e*ergenc0
∆3 A@B 0%193 0%000
∆12 A@B 0%223 0%000
∆23 A@B 0%223 0%000
∆31 A@B 0%223 0%000
∆1( A@B 0%193 0%000
∆2( A@B 0%193 0%000
∆3( A@B 0%193 0%000
S0nt-esis for all operating *ode
∆3 A@B 1%326
∆12 A@B 1%531
∆23 A@B 1%531
∆31 A@B 1%531
∆1( A@B 1%326
∆2( A@B 1%326
∆3( A@B 1%326
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3.4 Lig-ting load circuits
3.4.1 Circuit Load 1"
Circuit $rea%er # 1"I= 5%2 $
,ta*ce ro" or,g,* ($
),!,*g I*or"at,o* ),!e+ = te"Ra*ge $ct,9 ,C60e,g*at,o* ,C60C,rcu,t =rea>er rat,*g 6 $rea>,*g ca.ac,t 15 >$T() D*e .ole =rea>,*g ca.ac,t ($IT D*e .ole =rea>,*g ca.ac,t ($Re,*orce+ =rea>,*g ca.ac,t ($Pole .rotecte+ .ole 4P4+Tr,. u*,t +e,g*at,o* CTr,. u*,t rat,*g 6 $Long dela0 settingsIr 6 $Tr ($S-ort dela0 settingsI+ curre*t 48 $T+ ($Instantaneous trippingI, curre*t ($
8iscri*ination ;esults
!pStrea* 8iscri*ination Li*it
Bperating *ode or*al
$ 9()630F,crolog,c 5%3 $630 $ / 4P4+
Full ,cr,",*at,o*
Bperating *ode e*ergenc0
($ ,cr,",*at,o* ca*t =e +eter",*ate+ : *ou.trea" ? rea>er
Ca$le 8 1"Para*eterse*gt& 15 "a le*gt& 241 "I*tallat,o* "et&o+ 31
E
Multi-core cables on horizontal
perforated trayT.e o ca=le ult,-core(= o a++,t,o*al touc&,*g c,rcu,t 0
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I*ulat,o* XLPE
$"=,e*t te".erature 30C
e?el o t&,r+ &ar"o*,c TI 0@
I= 5 $),!,*g co*tra,*t Iz
),!,*g I*or"at,o* Sized with Ir
Correction factorsTe".erature actor 1
)ta*+ar+ ta=le reere*ce A-52-14)o,l t&er"al re,t,?,t actor 1
)ta*+ar+ ta=le reere*ce A-52-16
oa+e+ *eutral actor 1)ta*+ar+ ta=le reere*ce D-52-1
Touc&,*g co*+uctor actor 1
)ta*+ar+ ta=le reere*ce A-52-20er correct,o* actor 1
D?erall actor 1
Selected p-aseCro ect,o* area 11.5""#
Core Copper
I! u*+er real co*+,t,o* 23 $Selected neutralCro ect,o* area 11.5""#
Core Copper
I! u*+er real co*+,t,o* 23 $
Selected P<Cro ect,o* area 14""#
Core Copper
S-ort circuit currentI%3*a I%2*a I%1*a I%2*in I%1*in Ief Ief2*in
Bperating *ode or*alA>$B 10%13 8%78 9%97 0%78 0%46 0%66 0%00
Bperating *ode e*ergenc0A>$B ($ ($ ($ ($ ($ ($ ($
S0nt-esis for all operating *odeA>$B 10%13 8%78 9%97 0%78 0%46 0%66 0%00
Calculat,o* reult ,* accor+a*ce <,t& CE(EEC tec&*,cal re.ort TR50480% $ll au".t,o* a*+ +e?,ce c&o,ce are t&e uer re.o*,=,l,t%
C-arge <# 1" 400 ;) 3%6 >;$P 3 >I 5%2 $
coϕ 1Ku A(or"alB 1(u"=er o c,rcu,t 1
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Polar,t 3P&'(P&ae co**ect,o*T.e o lu",*ar,e )ta*+ar+ ,*ca*+ece*t la".(= o lu",*ar,e 10(= o l,g&t/lu",*ar,e 2,g&t .o<er 150 allat .o<er 0
Ia 5%2 $ar"o*,c ge*erator (oTI3 0)e*,t,?,t to o?er ?oltage ($8esign current
IL1 IL2 IL3 I
Bperating *ode or*alA$B 5%196 3%897 3%897 1%3
Bperating *ode e*ergenc0A$B 0%000 0%000 0%000 0
S0nt-esis for all operating *odeA$B 5%196 3%897 3%897 1%3oltage drop
Cu*ulated fro* upstrea* Circuit
Bperating *ode or*al
∆3 A@B 0%669 0%533
∆12 A@B 0%696 0%539
∆23 A@B 0%619 0%462
∆31 A@B 0%696 0%539
∆1( A@B 0%802 0%666
∆2( A@B 0%669 0%533∆3( A@B 0%669 0%533
Bperating *ode e*ergenc0
∆3 A@B 0%193 0%000
∆12 A@B 0%223 0%000
∆23 A@B 0%223 0%000
∆31 A@B 0%223 0%000
∆1( A@B 0%193 0%000
∆2( A@B 0%193 0%000
∆3( A@B 0%193 0%000
S0nt-esis for all operating *ode
∆3 A@B 0%669
∆12 A@B 0%696
∆23 A@B 0%619
∆31 A@B 0%696
∆1( A@B 0%802
∆2( A@B 0%669
∆3( A@B 0%669
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3." otor starter co*$ination
3.".1 Circuit otor Load 14
Circuit $rea%er # 14I= ($
,ta*ce ro" or,g,* ($
),!,*g I*or"at,o* ),!e+ = te"Ra*ge Co".act ()e,g*at,o* ()250FC,rcu,t =rea>er rat,*g 250 $rea>,*g ca.ac,t 36 >$T() D*e .ole =rea>,*g ca.ac,t ($IT D*e .ole =rea>,*g ca.ac,t ($Re,*orce+ =rea>,*g ca.ac,t ($Pole .rotecte+ .ole 3P3+Tr,. u*,t +e,g*at,o* $Tr,. u*,t rat,*g 220 $Long dela0 settingsIr 220 $Tr ($S-ort dela0 settingsI+ curre*t 2420 $T+ ($Instantaneous trippingI, curre*t ($
8iscri*ination ;esults
!pStrea* 8iscri*ination Li*it
Bperating *ode or*al
$ 9()630F,crolog,c 5%3 $630 $ / 4P4+
Full ,cr,",*at,o*
Bperating *ode e*ergenc0
($ ,cr,",*at,o* ca*t =e +eter",*ate+ : *ou.trea" ? rea>er
Contactor LC1'22"
e,g*at,o* C1F225
T.e o coor+,*at,o* T1
)-er*al rela0 L;+'"3&1
e,g*at,o* R9F5371
Ir 195
Ca$le 8 14
Para*eterse*gt& 39 "a le*gt& 51%7 "I*tallat,o* "et&o+ 31
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E
Multi-core cables on horizontal
perforated tray
T.e o ca=le ult,-core(= o a++,t,o*al touc&,*g c,rcu,t 0
I*ulat,o* XLPE
$"=,e*t te".erature 30Ce?el o t&,r+ &ar"o*,c TI 0@
I= 195 $),!,*g co*tra,*t Iz
),!,*g I*or"at,o* Sized with Ir
Correction factorsTe".erature actor 1
)ta*+ar+ ta=le reere*ce A-52-14
)o,l t&er"al re,t,?,t actor 1
)ta*+ar+ ta=le reere*ce A-52-16
oa+e+ *eutral actor 1)ta*+ar+ ta=le reere*ce D-52-1
Touc&,*g co*+uctor actor 1
)ta*+ar+ ta=le reere*ce A-52-20er correct,o* actor 1D?erall actor 1
Selected p-aseCro ect,o* area 170""#
Core Copper
I! u*+er real co*+,t,o*246 $Selected P<
Cro ect,o* area 135""#
Core Copper
S-ort circuit currentI%3*a I%2*a I%1*a I%2*in I%1*in Ief Ief2*in
Bperating *ode or*alA>$B 10%13 8%78 0%00 5%34 0%00 3%56 0%00
Bperating *ode e*ergenc0A>$B ($ ($ ($ ($ ($ ($ ($
S0nt-esis for all operating *odeA>$B 10%13 8%78 0%00 5%34 0%00 3%56 0%00
Calculat,o* reult ,* accor+a*ce <,t& CE(EEC tec&*,cal re.ort TR50480% $ll au".t,o* a*+ +e?,ce c&o,ce are t&e uer re.o*,=,l,t%
#s0nc-ronous L otor # 14)tartu. t.e ,rect 400 ;ec&a*,cal .o<er 110 >)tartu. curre*t I+/Ir 7%2Tra*,e*t curre*t IHH+/Ir LM19Ir or ,!,*g 195 $
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)r or ,!,*g 135 >;$Pr or ,!,*g 118 >
coϕ 0%87
Polar,t 3P&(u"=er o c,rcu,t 1Ku A"o+e (or"alB 1ar"o*,c ge*erator (o
TI3 0 @)e*,t,?,t to o?er ?oltage ($8esign current
IL1 IL2 IL3 I
Bperating *ode or*alA$B 195%000 195%000 195%000 0
Bperating *ode e*ergenc0A$B 0%000 0%000 0%000 0
S0nt-esis for all operating *ode
A$B 195%000 195%000 195%000 0oltage drop
Cu*ulated fro* upstrea* Circuit
Bperating *ode or*al
∆3 A@B 1%236 1%100
∆12 A@B 1%427 1%270
∆23 A@B 1%427 1%270
∆31 A@B 1%427 1%270
∆1( A@B 0%136 0%000
∆2( A@B 0%136 0%000
∆3( A@B 0%136 0%000
Bperating *ode e*ergenc0
∆3 A@B 0%193 0%000
∆12 A@B 0%223 0%000
∆23 A@B 0%223 0%000
∆31 A@B 0%223 0%000
∆1( A@B 0%193 0%000
∆2( A@B 0%193 0%000
∆3( A@B 0%193 0%000
Startup oltage drop
∆)tart. 3%944
3.".2 Circuit otor Load 1&
Circuit $rea%er # 1&I= ($
,ta*ce ro" or,g,* ($
),!,*g I*or"at,o* ),!e+ = te"Ra*ge Co".act ()e,g*at,o* ()100FC,rcu,t =rea>er rat,*g 100 $rea>,*g ca.ac,t 36 >$T() D*e .ole =rea>,*g ca.ac,t ($
IT D*e .ole =rea>,*g ca.ac,t ($Re,*orce+ =rea>,*g ca.ac,t ($Pole .rotecte+ .ole 3P3+
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Tr,. u*,t +e,g*at,o* ,crolog,c 2%2 Tr,. u*,t rat,*g 50 $Long dela0 settingsIr 36 $Tr 5 S-ort dela0 settingsI+ curre*t 252 $
T+ 0%03 Instantaneous trippingI, curre*t 750 $
8iscri*ination ;esults
!pStrea* 8iscri*ination Li*it
Bperating *ode or*al
$ 9()630F,crolog,c 5%3 $630 $ / 4P4+
Full ,cr,",*at,o*
Bperating *ode e*ergenc0
$ 12()160,crolog,c 5%2 $160 $ / 4P4+
392 $
Contactor LC184,#
e,g*at,o* C140$
T.e o coor+,*at,o* T1
Ca$le 8 1&Para*eterse*gt& 75 "a le*gt& 252 "I*tallat,o* "et&o+ 31
E
Multi-core cables on horizontal
perforated tray
T.e o ca=le ult,-core(= o a++,t,o*al touc&,*g c,rcu,t 0
I*ulat,o* XLPE $"=,e*t te".erature 30C
e?el o t&,r+ &ar"o*,c TI 0@
I= 35 $),!,*g co*tra,*t Voltage drop),!,*g I*or"at,o* The CSA of cable WD 17 has been
increased from 4 to 16 to comply with the
voltage drop in the circuit.
Sized with Ir
Correction factorsTe".erature actor 1
)ta*+ar+ ta=le reere*ce A-52-14
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)o,l t&er"al re,t,?,t actor 1
)ta*+ar+ ta=le reere*ce A-52-16
oa+e+ *eutral actor 1
)ta*+ar+ ta=le reere*ce D-52-1
Touc&,*g co*+uctor actor 1
)ta*+ar+ ta=le reere*ce A-52-20er correct,o* actor 1D?erall actor 1
Selected p-aseCro ect,o* area 116""#
Core Copper
I! u*+er real co*+,t,o* 100 $
Selected P<Cro ect,o* area 116""#
Core Copper
S-ort circuit currentI%3*a I%2*a I%1*a I%2*in I%1*in Ief Ief2*in
Bperating *ode or*alA>$B 10%13 8%78 0%00 1%57 0%00 0%95 0%00
Bperating *ode e*ergenc0A>$B 0%79 0%69 0%00 0%38 0%00 0%51 0%00
S0nt-esis for all operating *odeA>$B 10%13 8%78 0%00 0%38 0%00 0%51 0%00
Calculat,o* reult ,* accor+a*ce <,t& CE(EEC tec&*,cal re.ort TR50480% $ll au".t,o* a*+ +e?,ce c&o,ce are t&e uer re.o*,=,l,t%
#s0nc-ronous L otor # 1&)tartu. t.e ,rect 400 ;ec&a*,cal .o<er 18%5 >)tartu. curre*t I+/Ir 7%2Tra*,e*t curre*t IHH+/Ir LM19Ir or ,!,*g 35 $)r or ,!,*g 24%2 >;$Pr or ,!,*g 20%9 >
coϕ 0%86
Polar,t 3P&(u"=er o c,rcu,t 1Ku A"o+e (or"alB 1ar"o*,c ge*erator (oTI3 0 @)e*,t,?,t to o?er ?oltage ($8esign current
IL1 IL2 IL3 I
Bperating *ode or*al
A$B 35%000 35%000 35%000 0
Bperating *ode e*ergenc0A$B 35%000 35%000 35%000 0
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S0nt-esis for all operating *odeA$B 35%000 35%000 35%000 0oltage drop
Cu*ulated fro* upstrea* Circuit
Bperating *ode or*al∆3 A@B 1%630 1%494
∆12 A@B 1%882 1%725
∆23 A@B 1%882 1%725
∆31 A@B 1%882 1%725
∆1( A@B 0%136 0%000
∆2( A@B 0%136 0%000
∆3( A@B 0%136 0%000
Bperating *ode e*ergenc0
∆3 A@B 1%687 1%494
∆12 A@B 1%948 1%725
∆23 A@B 1%948 1%725∆31 A@B 1%948 1%725
∆1( A@B 0%193 0%000
∆2( A@B 0%193 0%000
∆3( A@B 0%193 0%000
Startup oltage drop
∆)tart. 3%125
3.6 /us$ar circuits
3.6.1 Circuit C 1,
/us$ar C 1,Para*eters)<,tc&=oar+ (a"e C 11)<,tc&=oar+ Ra*ge (o .reere*ceRat,*g A$B 0IP *+e,*e+'eeder C,rcu,t *a"e Protect,o* *a"e Protect,o* t.e
oa+ 13 $ 13 ()250
otor oa+ 14 $ 14 ()250F
oa+ 15 $ 15 ,C60
oa+ 16 $ 16 C120
otor oa+ 17 $ 17 ()100F
S-ort circuit currentI%3*a I%2*a I%1*a I%2*in I%1*in Ief Ief2*in
Bperating *ode or*al
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A>$B 10%13 8%78 9%97 6%88 7%81 7%94 0%00
Bperating *ode e*ergenc0A>$B 0%79 0%69 0%72 0%40 0%62 0%62 0%00
S0nt-esis for all operating *ode
A>$B 10%13 8%78 9%97 6%88 7%81 7%94 0%00
Calculat,o* reult ,* accor+a*ce <,t& CE(EEC tec&*,cal re.ort TR50480% $ll au".t,o* a*+ +e?,ce c&o,ce are t&e uer re.o*,=,l,t%