edition 12 cable sizing in simaris design for cable burying
DESCRIPTION
Cable SizingTRANSCRIPT
-
www.siemens.com/tip-cs
Totally Integrated Power
Technical Series Edition 12 Cable Sizing with SIMARIS design for Cable Burying
-
2
Explanations on how to implement cable burying in SIMARIS design in accordance with DIN VDE 0298-4:2013-06 or IEC 60364-5-52:2009-10
,
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Regulations for cable loads in power installations # '( )0+),----2 / 01 20' 0100--20 . -21.+ 01 20' 0100--205 201+-0)
9 01 20' 0234-, 9 < "(- " # .-2.+5 "'9 - " / 01 20' 0234-, . >-%, # 3 01 20' 0234-, / 01
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IEC 60364-5-52
(DIN VDE 0298-4) DIN VDE 0276-603
Load level 1 (
) 0.7 (
)
Specific thermal soil resistance
2.- A / ( )
1.0 A / ( )
Differentiation of cable design
, -/-
, - , -/-
Conversion factors
C 5 ? () 9 ( ) 9 ( ) 9 - ( D%F)
(9 % 5 ? 1( , , ,
%) 9 2( , , ,
%, ) 9 - ( D%F)
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C % 01 20' 0234-, '( )0+),----2 % . , 01 20' 027) ( 01 20' 027)-)0+ 01 20' 027)-1000). >%, 9, % , $, 8
% 1.0 (
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, , 2.- A /. N: DIN DE 0276 F DIN DE 0298-4 IEC 60364-5-52 , .. ) *+ 1.0 (++ ) + 30/C. # 8 , % , , H(, 8 % % 8 HC, . # - 01 20' 0100--20 +. # - - .
Proportion of summated power of all equipment causing har-
monics
Correction factor for distribution circuits f(harmonics [%])
0 I 1-% 1
J 1- I 2-% 0.3-
J 2- I +-% 0.3
J +- I ,-% 0.4-
J ,- I --% 0.4
J -- I )-% 0.7-
J )- I 7-% 0.7
J 7-% 0.)- #. 25 ( - 01 20' 0100--20 +
Implementation in SIMARIS design # 01 20' 0234-, '( )0+),----2 9. # ( #. +).
, - 01 20' 027) 01 20' 0234-, '( )0+),----2 %. # - , , '( )0+),----2 01 02. # 5
# - %
, .. - 0 (01 20' 0234-,) 01 ('( )0+),----2) %, .
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# - - - - ( -% 1) L).
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01
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DIN VDE 0298-4 IEC 60364-5-52
Cable laying in an electrical conduit or duct in the soil
0 ( 01 '( )0+),----2)
01
Cable burying directly in the soil 01 20' 027) 02
#. +5
A: ) (DIN DE 0298-4 20, D) +
-
4
1IMARI1 D1 D2. IEC 60364-5-52
- +4 4 ( IEC 60364-5-52 B.52.16). H),
7 DIN DE 0276 7 ) ) + (+4 +
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4 - +),
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01 20' 0234-, '( )0+),----2 . # % % 20 M( - 01 20' 0234-, '( )0+),----2.
Example ( - -
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# %
. # )% %
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5
Consideration of the current-carrying ca-pacity in accordance with DIN VDE 0276 in SIMARIS design , , ,
- 01 20' 027). # , % % , , %.
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Annex
PVC insulation 70 C permissible operating temperature and 20 C soil temperature
01
02
0
1
2 + 2 +
1 DLF (- DF
(
1.-
2.-
,
)
10
1)
2-
+-
-0
70
3-
120
1-0
14-
2,0
+00
22
23
+7
,)
)0
74
33
113
1,0
17+
20,
2+1
2)1
232
++)
+73
14
2,
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+4
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),
42
34
11)
1,+
1)3
132
217
2,+
240
+1)
22
24
+4
,4
),
4+
110
1+2
1-)
132
2+0
2)1
23+
++1
+42
,27
13
2,
++
,1
-,
70
32
110
1+0
1)2
13+
220
2,)
274
+20
+-3
2.-
,
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10
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2-
+-
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70
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120
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1-3
140
20,
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31
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1,4
1)3
143
21,
2-0
242
#. .15 (- H2( , (N
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-
VPE insulation 90 C permissible operating temperature and 20 C soil temperature
01
02
0
1
2 + 2 +
1 DLF (- DF
(
1.-
2.-
,
)
10
1)
2-
+-
-0
70
3-
120
1-0
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2,0
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31
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1+3
1),
20+
2+3
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21
24
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1)7
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107
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1-+
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2-7
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10
1)
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+-
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70
3-
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1-0
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2,0
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--
71
30
104
124
1-4
14)
211
2+4
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22
24
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30
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1+0
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17,
137
220
2-+
24)
-
-
-
-
7)
34
117
1+3
170
20,
2++
2)1
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+4)
-
-
-
-
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42
34
117
1,,
172
137
220
2-0
230
+2)
#. .25 (- 2H' ,
(N
% ? 1.0 ? 2.- A /: 9 '( )0+),----25 #
-
10
Soil tem-perature
[C]
Permissible operating temperature at conduc-
tor:
H2( 70 M(
2H' 30 M(
10 1.1 1.07
1- 1.0- 1.0,
20 1 1
2- 0.3- 0.3)
+0 0.43 0.3+
+- 0.71 0.43
,0 0.4, 0.4-
,- 0.77 0.4
-0 0.)+ 0.7)
-- 0.-- 0.71
)0 0.,- 0.)-
)- G 0.)
70 G 0.-+
7- G 0.,)
40 G 0.+4
#. .+5 (% % 20M( - ( 01 02: '( )0+),----25 #
-
Number of circuits
Distance from cable duct to cable duct
Multi-core cable
Single-core cable
Zero (touching)
0.25 m 0.5 m 1.0 m Zero
(touching) 0.25 m 0.5 m 1.0 m
2
+
,
-
)
7
4
3
10
11
12
1+
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17
14
13
20
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0.7-
0.70
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0.-7
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0.,1
0.+3
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0.30
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0.40
0.40
0.40
0.7)
0.7,
0.7+
0.72
0.70
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0.)4
0.)4
0.)7
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0.)-
0.),
0.)+
0.3-
0.30
0.4-
0.4-
0.40
0.40
0.74
0.77
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0.7-
0.7,
0.7+
0.72
0.72
0.71
0.70
0.70
0.)3
0.)4
0.3-
0.3-
0.30
0.30
0.30
0.44
0.44
0.47
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0.4-
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0.4+
0.4+
0.42
0.42
0.42
0.41
#. .-5 (% ( 01, 2.- AK/: '( )0+),----25 #
-
Number of circuits
Cable to cable distance
Multi-core cable
Single-core cable
Zero (touching)
One cable diameter
0.125 m 0.25 m 0.5 m
2
+
,
-
)
7
4
3
12
1)
20
0.7-
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0.7-
0.70
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0.30
0.40
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0.70
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0.40
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0.7)
0.7-
0.7,
0.71
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#. .)5 (% ( 02, 2.- AK/: '( )0+),----25 #
-
PVC insulation 70 C permissible operating temperature and 20 C soil temperature
Without ( )
.. 1()PP
With (
-
VPE insulation 90 C permissible operating temperature and 20 C soil temperature
Without ( )
.. 1()2QP, 1()2Q2P
With (
-
H
DM(F
-
DM(F
DA /F
0.7 1.0 1.- 2.-
N
% N
% N
% N
%
0.- 1.0 0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00
30 - 1.2, 1.21 1.14 1.1+ 1.07 1.11 1.03 1.07 1.0+ 1.00 0.33 0.34 0.37 0.3) 0.3, 0.43
10 1.2+ 1.13 1.1) 1.11 1.0- 1.03 1.07 1.0- 1.01 0.34 0.37 0.3) 0.3- 0.3+ 0.31 0.4)
1- 1.21 1.17 1.1, 1.04 1.0+ 1.07 1.0- 1.02 0.33 0.3- 0.3- 0.3+ 0.32 0.31 0.43 0.4,
20 1.13 1.1- 1.12 1.0) 1.00 1.0- 1.02 1.00 0.3) 0.3+ 0.32 0.31 0.30 0.44 0.4) 0.41
2- G G G G G 1.02 1.00 0.34 0.3, 0.30 0.30 0.44 0.47 0.4- 0.4, 0.74
+0 G G G G G G G 0.3- 0.31 0.44 0.47 0.4) 0.4, 0.4+ 0.41 0.7-
+- G G G G G G G G G G G G 0.42 0.40 0.74 0.72
,0 G G G G G G G G G G G G G G G 0.)4
70 - 1.23 1.2) 1.22 1.1- 1.03 1.1+ 1.11 1.04 1.0, 1 0.33 0.34 0.37 0.3- 0.3+ 0.4)
10 1.27 1.2+ 1.13 1.1+ 1.0) 1.11 1.04 1.0) 1.01 0.37 0.3) 0.3- 0.3, 0.32 0.43 0.4+
1- 1.2- 1.21 1.17 1.1 1.0+ 1.04 1.0) 1.0+ 0.33 0.3, 0.3+ 0.32 0.31 0.44 0.4) 0.73
20 1.2+ 1.14 1.1, 1.04 1.01 1.0) 1.0+ 1 0.3) 0.31 0.3 0.43 0.47 0.4- 0.4+ 0.7)
2- G G G G G 1.0+ 1 0.37 0.3+ 0.44 0.47 0.4- 0.4, 0.42 0.73 0.72
+0 G G G G G G G 0.3, 0.43 0.4- 0.4, 0.42 0.4 0.74 0.7) 0.)4
+- G G G G G G G G G G G G 0.77 0.7, 0.72 0.)+
,0 G G G G G G G G G G G G G G G 0.-3
#. .35 (% 1 , , 9 H2( )/10 $2 (9 01 20' 027)-10005 # ,)
-
# 1
DA /F
0.7 1.0 1.- 2.-
N
% N
% N
% N
%
0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00
2H'
0.)/1, )/10,
12/20, 14/+0
D$2F
1 1.03 1.0, 0.33 0.3+ 0.47 1.11 1.0- 1.00 0.3+ 0.47 1.1+ 1.07 1.01 0.3, 0.47 1.17 1.03 1.0+ 0.3, 0.47
2 0.37 0.30 0.4, 0.77 0.71 0.34 0.31 0.4- 0.77 0.71 1.00 0.32 0.4) 0.77 0.71 1.02 0.3, 0.47 0.74 0.71
+ 0.44 0.40 0.7, 0.)7 0.)1 0.43 0.42 0.7- 0.)7 0.)1 0.30 0.42 0.7) 0.)4 0.)1 0.32 0.4+ 0.7) 0.)4 0.)1
, 0.4+ 0.7- 0.)3 0.)2 0.-) 0.4, 0.7) 0.70 0.)2 0.-) 0.4- 0.77 0.70 0.)2 0.-) 0.4) 0.74 0.71 0.)+ 0.-)
- 0.73 0.71 0.)- 0.-4 0.-2 0.40 0.72 0.)) 0.-4 0.-2 0.40 0.7+ 0.)) 0.-4 0.-2 0.42 0.7+ 0.)7 0.-3 0.-2
) 0.7) 0.)4 0.)2 0.-- 0.-0 0.77 0.)3 0.)+ 0.-- 0.-0 0.77 0.70 0.)+ 0.-) 0.-0 0.74 0.70 0.), 0.-) 0.-0
4 0.72 0.), 0.-4 0.-1 0.,) 0.72 0.)- 0.-3 0.-2 0.,) 0.7+ 0.)- 0.-3 0.-2 0.,) 0.7, 0.)) 0.-3 0.-2 0.,)
10 0.)3 0.)1 0.-) 0.,3 0.,, 0.)3 0.)2 0.-) 0.,3 0.,, 0.70 0.)2 0.-) 0.,3 0.,, 0.70 0.)+ 0.-7 0.,3 0.,,
H2(
0.)/1, +.)/), )/10
D$2F
1 1.01 1.02 0.33 0.3+ 0.47 1.0, 1.0- 1.00 0.3+ 0.47 1.07 1.0) 1.01 0.3, 0.47 1.11 1.04 1.01 0.3, 0.47
2 0.3, 0.43 0.4, 0.77 0.71 0.37 0.31 0.4- 0.77 0.71 0.33 0.32 0.4) 0.77 0.71 1.01 0.3+ 0.47 0.74 0.71
+ 0.4) 0.73 0.7, 0.)7 0.)1 0.43 0.41 0.7- 0.)7 0.)1 0.30 0.4+ 0.7) 0.)4 0.)1 0.31 0.4+ 0.77 0.)4 0.)1
, 0.42 0.7- 0.)3 0.)2 0.-) 0.4, 0.7) 0.70 0.)2 0.-) 0.4- 0.77 0.71 0.)2 0.-) 0.4) 0.74 0.71 0.)+ 0.-)
- 0.74 0.71 0.)- 0.-4 0.-2 0.40 0.72 0.)) 0.-4 0.-2 0.40 0.7+ 0.)) 0.-4 0.-2 0.41 0.7+ 0.)7 0.-3 0.-2
) 0.7- 0.)4 0.)2 0.-- 0.-0 0.77 0.)3 0.)+ 0.-- 0.-0 0.77 0.70 0.), 0.-) 0.-0 0.74 0.70 0.), 0.-) 0.-0
4 0.71 0.), 0.-4 0.-1 0.,) 0.72 0.)- 0.-3 0.-2 0.,) 0.7+ 0.)- 0.-3 0.-2 0.,) 0.7+ 0.)) 0.)0 0.-2 0.,)
10 0.)4 0.)1 0.-- 0.,3 0.,, 0.)3 0.)2 0.-) 0.,3 0.,, 0.)3 0.)2 0.-) 0.,3 0.,, 0.70 0.)+ 0.-7 0.,3 0.,,
#. .105 (% 2 , - 7 (9 01 20' 027)-10005 # ))
-
# 1
DA /F
0.7 1.0 1.- 2.-
N
% N
% N
% N
%
0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00
2H'
0.)/1, )/10,
12/20, 14/+0
D$2F
1 1.03 1.0, 0.33 0.3+ 0.47 1.11 1.0- 1.00 0.3+ 0.47 1.1+ 1.07 1.01 0.3, 0.47 1.17 1.03 1.0+ 0.3, 0.47
2 1.01 0.3, 0.43 0.42 0.7- 1.02 0.3- 0.43 0.42 0.7- 1.0, 0.37 0.30 0.42 0.7- 1.0) 0.34 0.31 0.4+ 0.7-
+ 0.3, 0.47 0.41 0.7, 0.)7 0.3- 0.44 0.42 0.7, 0.)7 0.37 0.43 0.42 0.7, 0.)7 0.33 0.30 0.4+ 0.7, 0.)7
, 0.31 0.4, 0.74 0.70 0.), 0.32 0.4, 0.74 0.70 0.), 0.3+ 0.4- 0.73 0.70 0.), 0.3- 0.4) 0.73 0.71 0.),
- 0.44 0.40 0.7, 0.)7 0.)0 0.43 0.41 0.7- 0.)7 0.)0 0.30 0.42 0.7- 0.)7 0.)0 0.31 0.4+ 0.7) 0.)7 0.)0
) 0.4) 0.73 0.72 0.)- 0.-3 0.47 0.73 0.7+ 0.)- 0.-3 0.44 0.40 0.7+ 0.)- 0.-3 0.43 0.41 0.7, 0.)- 0.-3
4 0.4+ 0.7) 0.70 0.)2 0.-) 0.4, 0.7) 0.70 0.)2 0.-) 0.4- 0.77 0.70 0.)2 0.-) 0.4) 0.74 0.71 0.)2 0.-)
10 0.41 0.7, 0.)4 0.)0 0.-, 0.42 0.7, 0.)4 0.)0 0.-, 0.4+ 0.7- 0.)4 0.)1 0.-, 0.4, 0.7) 0.)3 0.)1 0.-,
H2(
0.)/1, +.)/), )/10
D$2F
1 1.01 1.02 0.33 0.3+ 0.47 1.0, 1.0- 1.00 0.3+ 0.47 1.07 1.0) 1.01 0.3, 0.47 1.11 1.04 1.01 0.3, 0.47
2 0.37 0.3- 0.43 0.42 0.7- 1.00 0.3) 0.30 0.42 0.7- 1.0+ 0.37 0.31 0.42 0.7- 1.0) 0.34 0.32 0.4+ 0.7-
+ 0.3, 0.44 0.42 0.7, 0.)7 0.37 0.44 0.42 0.7, 0.)7 0.37 0.43 0.4+ 0.7, 0.)7 0.34 0.30 0.4, 0.7, 0.)7
, 0.31 0.4, 0.74 0.70 0.), 0.32 0.4- 0.73 0.70 0.), 0.3+ 0.4) 0.73 0.70 0.), 0.3- 0.47 0.40 0.71 0.),
- 0.44 0.41 0.7- 0.)7 0.)0 0.43 0.42 0.7) 0.)7 0.)0 0.30 0.42 0.7) 0.)7 0.)0 0.31 0.4+ 0.77 0.)7 0.)0
) 0.4) 0.73 0.7+ 0.)- 0.-3 0.47 0.40 0.7, 0.)- 0.-3 0.44 0.41 0.7, 0.)- 0.-3 0.43 0.41 0.7- 0.)- 0.-3
4 0.4+ 0.7) 0.70 0.)2 0.-) 0.4, 0.77 0.71 0.)2 0.-) 0.4- 0.74 0.71 0.)2 0.-) 0.4) 0.74 0.72 0.)2 0.-)
10 0.42 0.7- 0.)3 0.)0 0.-, 0.42 0.7- 0.)3 0.)0 0.-, 0.4+ 0.7) 0.)3 0.)1 0.-, 0.4, 0.7) 0.70 0.)1 0.-,
#. .115 (% 2 , - 2- (9 01 20' 027)-10005 # 7)
-
# 1
DA /F
0.7 1.0 1.- 2.-
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% N
% N
% N
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2H'
0.)/1, )/10,
12/20, 14/+0
D$2F
1 1.04 1.0- 0.33 0.31 0.4- 1.1+ 1.07 1.00 0.32 0.4- 1.14 1.03 1.01 0.32 0.4- 1.13 1.11 1.0+ 0.3+ 0.4-
2 1.01 0.3+ 0.4) 0.77 0.71 1.0+ 0.3, 0.47 0.74 0.71 1.0- 0.3- 0.44 0.74 0.71 1.0) 0.3) 0.44 0.73 0.71
+ 0.32 0.4, 0.77 0.)3 0.)2 0.3+ 0.4- 0.77 0.)3 0.)2 0.3- 0.4) 0.74 0.)3 0.)2 0.3) 0.4) 0.73 0.)3 0.)2
, 0.44 0.40 0.7+ 0.)- 0.-4 0.43 0.40 0.7+ 0.)- 0.-4 0.30 0.41 0.7, 0.)- 0.-4 0.31 0.42 0.7, 0.)- 0.-4
- 0.4, 0.7) 0.)3 0.)1 0.-- 0.4- 0.77 0.70 0.)1 0.-- 0.47 0.74 0.70 0.)2 0.-- 0.47 0.74 0.71 0.)2 0.--
) 0.42 0.7, 0.)7 0.-3 0.-+ 0.4+ 0.7- 0.)4 0.)0 0.-+ 0.4, 0.7- 0.)4 0.)0 0.-+ 0.4- 0.7) 0.)3 0.)0 0.-+
4 0.73 0.71 0.), 0.-7 0.-1 0.40 0.71 0.)- 0.-7 0.-1 0.41 0.72 0.)- 0.-7 0.-1 0.41 0.72 0.)- 0.-7 0.-1
10 0.77 0.)3 0.)2 0.-- 0.,3 0.74 0.)3 0.)+ 0.-- 0.,3 0.74 0.70 0.)+ 0.-- 0.,3 0.73 0.70 0.)+ 0.-- 0.,3
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0.)/1, +.)/), )/10
D$2F
1 0.3) 0.37 0.34 0.31 0.4- 1.01 1.01 1.00 0.32 0.4- 1.07 1.0- 1.01 0.32 0.4- 1.1) 1.10 1.02 0.3+ 0.4-
2 0.32 0.43 0.4) 0.77 0.71 0.3) 0.3, 0.47 0.74 0.71 1.00 0.3- 0.44 0.74 0.71 1.0- 0.37 0.43 0.73 0.71
+ 0.44 0.4, 0.77 0.)3 0.)2 0.31 0.4- 0.74 0.)3 0.)2 0.3- 0.4) 0.73 0.)3 0.)2 0.3) 0.47 0.73 0.)3 0.)2
, 0.4) 0.40 0.7+ 0.)- 0.-4 0.43 0.41 0.7, 0.)- 0.-4 0.30 0.42 0.7, 0.)- 0.-4 0.31 0.42 0.7- 0.)- 0.-4
- 0.4, 0.7) 0.70 0.)1 0.-- 0.4- 0.77 0.70 0.)1 0.-- 0.47 0.74 0.71 0.)2 0.-- 0.47 0.73 0.71 0.)2 0.--
) 0.42 0.7, 0.)4 0.-3 0.-+ 0.4+ 0.7- 0.)4 0.)0 0.-+ 0.4+ 0.7) 0.)3 0.)0 0.-+ 0.4- 0.7) 0.)3 0.)0 0.-+
4 0.73 0.71 0.)- 0.-7 0.-1 0.40 0.72 0.)- 0.-7 0.-1 0.41 0.72 0.)- 0.-7 0.-1 0.41 0.7+ 0.)) 0.-7 0.-1
10 0.77 0.)3 0.)+ 0.-- 0.,3 0.74 0.70 0.)+ 0.-- 0.,3 0.73 0.70 0.)+ 0.-- 0.,3 0.73 0.71 0.), 0.-- 0.,3
#. .125 (% 2 , - 7 , -- (9 01 20' 027)-10005 # 4)
-
# 1
DA /F
0.7 1.0 1.- 2.-
N
% N
% N
% N
%
0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00 0.-0 0.)0 0.70 0.4- 1.00
2H'
0.)/1 $2,
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H2(
0.)/1 $2
R
+-L
1 1.02 1.0+ 0.33 0.3, 0.43 1.0) 1.0- 1.00 0.3, 0.43 1.03 1.0) 1.01 0.3, 0.43 1.11 1.07 1.02 0.3- 0.43
2 0.3- 0.43 0.4, 0.77 0.72 0.34 0.31 0.4- 0.74 0.72 0.33 0.32 0.4) 0.74 0.72 1.01 0.3, 0.47 0.73 0.72
+ 0.4) 0.40 0.7, 0.)4 0.)2 0.43 0.41 0.7- 0.)4 0.)2 0.30 0.4+ 0.77 0.)3 0.)2 0.32 0.4, 0.77 0.)3 0.)2
, 0.42 0.7- 0.)3 0.)+ 0.-7 0.4, 0.7) 0.70 0.)+ 0.-7 0.4- 0.74 0.71 0.)+ 0.-7 0.4) 0.74 0.72 0.), 0.-7
- 0.74 0.71 0.)- 0.-3 0.-+ 0.40 0.72 0.)) 0.-3 0.-+ 0.41 0.7+ 0.)7 0.-3 0.-+ 0.42 0.7, 0.)7 0.)0 0.-+
) 0.7- 0.)4 0.)+ 0.-) 0.-1 0.77 0.)3 0.)+ 0.-) 0.-1 0.74 0.70 0.), 0.-7 0.-1 0.73 0.71 0.)- 0.-7 0.-1
4 0.71 0.), 0.-3 0.-2 0.,7 0.72 0.)- 0.-3 0.-2 0.,7 0.7+ 0.)) 0.)0 0.-2 0.,7 0.7, 0.)) 0.)0 0.-+ 0.,7
10
0.)4 0.)1 0.-) 0.,3 0.,, 0.)3 0.)2 0.-) 0.-0 0.,, 0.70 0.)+ 0.-7 0.-0 0.,, 0.71 0.)+ 0.-7 0.-0 0.,,
H2(
0.)/1 $2
S
+-L
+.)/) $2
1 0.31 0.32 0.3, 0.3, 0.43 0.34 0.33 1.00 0.3, 0.43 1.0, 1.0+ 1.01 0.3, 0.43 1.1+ 1.07 1.02 0.3- 0.43
2 0.4) 0.47 0.4- 0.77 0.72 0.31 0.30 0.4) 0.74 0.72 0.37 0.3+ 0.47 0.74 0.72 1.01 0.3, 0.44 0.73 0.72
+ 0.42 0.40 0.7- 0.)4 0.)2 0.4) 0.42 0.7) 0.)4 0.)2 0.31 0.4, 0.77 0.)3 0.)2 0.32 0.4, 0.74 0.)3 0.)2
, 0.40 0.7) 0.70 0.)+ 0.-7 0.4, 0.77 0.71 0.)+ 0.-7 0.4) 0.74 0.72 0.)+ 0.-7 0.47 0.73 0.7+ 0.), 0.-7
- 0.74 0.72 0.)) 0.-3 0.-+ 0.41 0.7+ 0.)7 0.-3 0.-+ 0.41 0.7, 0.)4 0.-3 0.-+ 0.42 0.7- 0.)4 0.)0 0.-+
) 0.7) 0.)3 0.), 0.-) 0.-1 0.77 0.70 0.), 0.-) 0.-1 0.74 0.71 0.)- 0.-7 0.-1 0.73 0.72 0.)- 0.-7 0.-1
4 0.72 0.)- 0.-3 0.-2 0.,7 0.7+ 0.)) 0.)0 0.-2 0.,7 0.7, 0.)7 0.)1 0.-2 0.,7 0.7- 0.)7 0.)1 0.-+ 0.,7
10 0.)3 0.)2 0.-7 0.,3 0.,, 0.70 0.)+ 0.-7 0.-0 0.,, 0.71 0.), 0.-4 0.-0 0.,, 0.71 0.), 0.-4 0.-0 0.,,
#. .1+5 (% 2 , - 7 , -- (9 01 20' 027)-10005 # 3: )
-
Siemens AG & ( N 2 0% 2 ;. +1 310-2 ' / '-5 -.U.
6y 201,
www.siemens.com/tip-cs
V 201, /. %. # / , -, %. # 8 9 .
Input
Correction factor to be entered in SIMARIS design for the conversion of the current-carrying capacities of directly buryied cables and wires based on the DIN VDE 0276 series of standards (for description see Technical Series No. 12)
Input:
Conductor material:
Insulation:
Conductor arrangement:
Concentric line conductor:
Cross section:gebndelt
Number of circuits:
Load level:
Soil temperature:
Specific thermal soil resistance:
Ir (IEC 60364-5-52)375A
Ir (DIN VDE 0276-603)517A
Corr. factor f1 (DIN VDE 0276-1000)0.81
Corr. factor f2 (DIN VDE 0276-1000)0.58
ftot(DIN VDE 0276 -> SIMARIS)0.65
Parameter
VPE - 90C0.55Multi-core side-by-side, 7cm0.71withoutCuonly Cu: 1,5 mm2
PVC - 70C0.610Single-core side-by-side, 7cm12withAlonly Cu: 2,5 mm2
0.715Single-core bundled, 7cm1.53only Cu: 4 mm2
0.8520Single-core bundled, 25cm2.54only Cu: 6 mm2
1255only Cu: 10 mm2
306only Cu: 16 mm2
358Cu and Al: 25 mm2
4010Cu and Al: 35 mm2
Cu and Al: 50 mm2
Cu and Al: 70 mm2
Single-core side-by-side, 7cmCu and Al: 95 mm2
Single-core bundled, 7cmCu and Al: 120 mm2
Single-core bundled, 25cmCu and Al: 150 mm2
Cu and Al: 185 mm2
Cu and Al: 240 mm2
Cu and Al: 300 mm2
Cu and Al: 400 mm2
Cu and Al: 500 mm2
only single-core, bundled: 630 mm2
2653552216
1 - 56 - 15
f1f1
ZeileVPE / Temp9*($A$25-1)+$E$25PVC19+14A
Spaltespez Wrme / Belastung6*($I$25-2)+$C$2524X
f2f2
ZeileAnordnung30
VPE+PVC / PVC < 35009
Stromkreise5
Zeile:4444
Spaltespez Wrme
Belastung
25Y
Ir (SIMARIS)
ZeileQuerschnitt20
SpalteVPE / PVC5E
Cu / Al
Ir (DIN VDE 0276-603)
ZeileVPE / PVC45
Querschnitt
SpalteCu / Al0
ohne / mit konz AL0
Mehrleiter / 1-Leiter gebndelt1
6F
fgesneu0.6476976
f1
0.711.5 2.5
VPE 90C0.50.60.70.851 0.50.60.70.851 0.50.60.70.8510.50.60.70.851
51.241.211.181.131.071.111.091.071.0310.990.980.970.960.940.890.890.890.890.89
101.231.191.161.111.051.091.071.051.010.980.970.960.950.930.910.860.860.860.860.86
151.211.171.141.081.031.071.051.020.990.950.950.930.920.910.890.840.840.840.840.84
201.191.151.121.0611.051.0210.960.930.920.910.90.880.860.810.810.810.810.81
251.0210.980.940.90.90.880.870.850.840.780.780.780.780.78
300.950.910.880.870.860.840.830.810.750.750.750.750.75
350.820.80.780.720.720.720.720.72
400.680.680.680.680.68
PVC 70C
51.291.261.221.151.091.131.111.081.0410.990.980.970.950.930.860.860.860.860.86
101.271.231.191.131.061.111.081.061.010.970.960.950.940.920.890.830.830.830.830.83
151.251.211.171.11.031.081.061.030.990.940.930.920.910.880.860.790.790.790.790.79
201.231.181.141.081.011.061.0310.960.910.90.890.870.850.830.760.760.760.760.76
251.0310.970.930.880.870.850.840.820.790.720.720.720.720.72
300.940.890.850.840.820.80.780.760.680.680.680.680.68
350.770.740.720.630.630.630.630.63
400.590.590.590.590.59
f1 (Isolierung, spez_Wrme, Belastung / Temperatur) =0.81
f2
f2 (Anordnung, Isolierung(Querschnitt), Stromkreise / spez_Wrme, Belastung) =0.58
Mehrleiter nebeneinander
0.711.5 2.5
0.50.60.70.851 0.50.60.70.851 0.50.60.70.8510.50.60.70.851
11.021.030.990.940.891.061.0510.940.891.091.061.010.940.891.111.071.020.950.89
20.950.890.840.770.720.980.910.850.780.720.990.920.860.780.721.010.940.870.790.72
30.860.80.740.680.620.890.810.750.680.620.90.830.770.690.620.920.840.770.690.62
VPE, PVC 35 mm240.820.750.690.630.570.840.760.70.630.570.850.780.710.630.570.860.780.720.640.57
50.780.710.650.590.530.80.720.660.590.530.810.730.670.590.530.820.740.670.60.53
60.750.680.630.560.510.770.690.630.560.510.780.70.640.570.510.790.710.650.570.51
80.710.640.590.520.470.720.650.590.520.470.730.660.60.520.470.740.660.60.530.47
100.680.610.560.490.440.690.620.560.50.440.70.630.570.50.440.710.630.570.50.44
PVC < 35 mm210.910.920.940.940.890.980.9910.940.891.041.031.010.940.891.131.071.020.950.89
20.860.870.850.770.720.910.90.860.780.720.970.930.870.780.721.010.940.880.790.72
30.820.80.750.680.620.860.820.760.680.620.910.840.770.690.620.920.840.780.690.62
40.80.760.70.630.570.840.770.710.630.570.860.780.720.630.570.870.790.730.640.57
50.780.720.660.590.530.810.730.670.590.530.810.740.680.590.530.820.750.680.60.53
60.760.690.640.560.510.770.70.640.560.510.780.710.650.570.510.790.720.650.570.51
80.720.650.590.520.470.730.660.60.520.470.740.670.610.520.470.750.670.610.530.47
100.690.620.570.490.440.70.630.570.50.440.710.640.580.50.440.710.640.580.50.44
Einleiter nebeneinander
0.711.5 2.5
0.50.60.70.851 0.50.60.70.851 0.50.60.70.8510.50.60.70.851
11.081.050.990.910.851.131.0710.920.851.181.091.010.920.851.191.111.030.930.85
21.010.930.860.770.711.030.940.870.780.711.050.950.880.780.711.060.960.880.790.71
30.920.840.770.690.620.930.850.770.690.620.950.860.780.690.620.960.860.790.690.62
40.880.80.730.650.580.890.80.730.650.580.90.810.740.650.580.910.820.740.650.58
50.840.760.690.610.550.850.770.70.610.550.870.780.70.620.550.870.780.710.620.55
60.820.740.670.590.530.830.750.680.60.530.840.750.680.60.530.850.760.690.60.53
80.790.710.640.570.510.80.710.650.570.510.810.720.650.570.510.810.720.650.570.51
100.770.690.620.550.490.780.690.630.550.490.780.70.630.550.490.790.70.630.550.49
10.960.970.980.910.851.011.0110.920.851.071.051.010.920.851.161.11.020.930.85
20.920.890.860.770.710.960.940.870.780.7110.950.880.780.711.050.970.890.790.71
30.880.840.770.690.620.910.850.780.690.620.950.860.790.690.620.960.870.790.690.62
40.860.80.730.650.580.890.810.740.650.580.90.820.740.650.580.910.820.750.650.58
50.840.760.70.610.550.850.770.70.610.550.870.780.710.620.550.870.790.710.620.55
60.820.740.680.590.530.830.750.680.60.530.830.760.690.60.530.850.760.690.60.53
80.790.710.650.570.510.80.720.650.570.510.810.720.650.570.510.810.730.660.570.51
100.770.690.630.550.490.780.70.630.550.490.790.70.630.550.490.790.710.640.550.49
Einleiter gebndelt, 25 cm Abstand
0.711.5 2.5
0.50.60.70.851 0.50.60.70.851 0.50.60.70.8510.50.60.70.851
11.091.040.990.930.871.111.0510.930.871.131.071.010.940.871.171.091.030.940.87
21.010.940.890.820.751.020.950.890.820.751.040.970.90.820.751.060.980.910.830.75
30.940.870.810.740.670.950.880.820.740.670.970.890.820.740.670.990.90.830.740.67
40.910.840.780.70.640.920.840.780.70.640.930.850.790.70.640.950.860.790.710.64
50.880.80.740.670.60.890.810.750.670.60.90.820.750.670.60.910.830.760.670.6
60.860.790.720.650.590.870.790.730.650.590.880.80.730.650.590.890.810.740.650.59
80.830.760.70.620.560.840.760.70.620.560.850.770.70.620.560.860.780.710.620.56
100.810.740.680.60.540.820.740.680.60.540.830.750.680.610.540.840.760.690.610.54
11.011.020.990.930.871.041.0510.930.871.071.061.010.940.871.111.081.010.940.87
20.970.950.890.820.7510.960.90.820.751.030.970.910.820.751.060.980.920.830.75
30.940.880.820.740.670.970.880.820.740.670.970.890.830.740.670.980.90.840.740.67
40.910.840.780.70.640.920.850.790.70.640.930.860.790.70.640.950.870.80.710.64
50.880.810.750.670.60.890.820.760.670.60.90.820.760.670.60.910.830.770.670.6
60.860.790.730.650.590.870.80.740.650.590.880.810.740.650.590.890.810.750.650.59
80.830.760.70.620.560.840.770.710.620.560.850.780.710.620.560.860.780.720.620.56
100.820.750.690.60.540.820.750.690.60.540.830.760.690.610.540.840.760.70.610.54
Einleiter gebndelt, 7 cm Abstand
0.711.5 2.5
0.50.60.70.851 0.50.60.70.851 0.50.60.70.8510.50.60.70.851
11.091.040.990.930.871.111.0510.930.871.131.071.010.940.871.171.091.030.940.87
20.970.90.840.770.710.980.910.850.770.7110.920.860.770.711.020.940.870.780.71
30.880.80.740.670.610.890.820.750.670.610.90.820.760.680.610.920.830.760.680.61
40.830.750.690.620.560.840.760.70.620.560.850.770.70.620.560.860.780.710.630.56
50.790.710.650.580.520.80.720.660.580.520.80.730.660.580.520.820.730.670.590.52
60.760.680.620.550.50.770.690.630.550.50.770.70.630.560.50.780.70.640.560.5
80.720.640.580.510.460.720.650.590.520.460.730.650.590.520.460.740.660.590.520.46
100.690.610.560.490.440.690.620.560.490.440.70.620.560.490.440.70.630.570.490.44
11.011.020.990.930.871.041.0510.930.871.071.061.010.940.871.111.081.010.940.87
20.940.890.840.770.710.970.910.850.770.710.990.920.860.770.711.010.930.870.780.71
30.860.790.740.670.610.890.810.750.670.610.90.830.760.680.610.910.830.770.680.61
40.820.750.690.620.560.840.760.70.620.560.850.770.710.620.560.860.780.710.630.56
50.780.710.650.580.520.80.720.660.580.520.80.730.660.580.520.810.730.670.590.52
60.750.680.620.550.50.770.690.630.550.50.770.70.640.560.50.780.70.640.560.5
80.710.640.580.510.460.720.650.590.520.460.730.650.590.520.460.730.660.60.520.46
100.680.610.550.490.440.690.620.560.490.440.690.620.560.490.440.70.630.570.490.44
Belastbarkeiten
SIMARISdirekt im Erdboden, 3 belastete Adern
VPEPVC
CuAlCuAl
1.523-19-
2.530-24-
439-33-
649-41-
1065-54-
1684647053
25107829269
351299811083
5015311713099
70188144162122
95226172193148
120257197220169
150287220246189
185324250278214
240375290320250
300419326359282
Ir (SIMARIS) =375
DIN VDE 0276-603
CuVPE
ohne konz. ALMehrleitergebndelt 1-Lmit konz. ALMehrleitergebndelt 1-L
1.531333133
2.540424043
452545255AlVPE
664676568ohne konz. ALMehrleitergebndelt 1-Lmit konz. ALMehrleitergebndelt 1-L
1086898791
16112115113117
2514514814615025112114113116
3517417717617935135136136138
5020620920821150158162159164
7025425625625770196199197201
9530530730730495234238236240
120348349349341120268272269272
150392393391377150300305302303
185444445442418185342347342340
240517517509469240398404397387
300585583569514300457457454430
400671663637565400529525520479
500758749691623500609601584531
630-843-690630-687-587
CuPVC
ohne konz. ALMehrleitergebndelt 1-Lmit konz. ALMehrleitergebndelt 1-L
1.527302731
2.536393640
447504751AlPVC
659625963ohne konz. ALMehrleitergebndelt 1-Lmit konz. ALMehrleitergebndelt 1-L
1079837984
16102107102108
2513313813313925102106103108
3515916416016635123127123129
5018819519019650144151145153
7023223823423870179185180187
9528028628028195215222216223
120318325319315120245253246252
150359365357347150275284276280
185406413402385185313322313314
240473479463432240364375362358
300535541518473300419425415397
400613614579521400484487474441
500687693624574500553558528489
630-777-636630-635-539
Ir (DIN VDE 0276-603) =517