Marine Cables

Transcription

Marine Cables
MARINE CABLES FINLAND
Prysmian Cables & Systems Oy
Kaapelitie 68, Pikkala
P.O. BOX 13, FI-02401 Kirkkonummi
Finland
Tel. +358 10 77551
Fax +358 9 298 2204
GERMANY
Prysmian Kabel und Systeme GmbH
Austrasse 99
D-96465 Neustadt bei Coburg, Germany
Tel. +49 9568 93 2697
Fax +49 9568 93 2527
ITALY
Prysmian Cavi e Sistemi Energia Srl
Via Sarca 222, 20126 Milan, Italy
Tel. +39 02 64491
Fax +39 02 6449 2931
NORWAY
Draka Norsk Kabel AS
P.O. BOX 369, N-3001 Drammen
Tel. +47 64 915 713
Fax +47 64 915 714
www.prysmian.fi
RUSSIA
Alexey Glushkov
Representative for marine and offshore
projects in Russia and the CIS countries
V.O., line 22, building 3
199106, St. Petersburg
T: +7 (812) 932 20 72
F: +7 (812) 640 01 91
M: +7 960 287 33 69
Prysmian Russia
125167, Russia, Moscow,
4th Str. Vosmogo Marta, 6a, build.1
Tel: +7(495) 933 70 36
Fax: +7(495) 933 70 35
Prysmian Russia
125167, Россия, Москва,
4-я улица Восьмого Марта,
6А, строение 1
Тел: +7(495) 933 70 36
Факс: +7(495) 933 70 35
HEAD OFFICE
Prysmian Cables and Systems - Viale Sarca 222, 20126 Milano, Italy - tel. +39 02 6449 1, fax +39 02 6449 2931 - www.prysmian.com
STURMAN OY / HANNUN TASAPAINO OY / 09-2011 / 1.000
Marine Cables
About us
The Prysmian Group is a world-class multinational company.
Originally founded in 1872 as Ditta Pirelli & C., it has
during over a century achieved the leading position in the
international cable market, both Energy and Telecom.
After the merger of Prysmian with Draka in 2011, the
Prysmian group is the biggest cable maker in the world
with 98 manufacturing facilities in 50 countries and
a combined personnel of about 22000.
Prysmian Energy Cables and Systems is a global solutions
provider, offering a wide range of integrated solutions,
such as cable systems, system design and engineering,
project management, installation and post-sale services.
Prysmian concentrates on continuous product innovation
and on achieving a competitive edge by focusing on
research and development. This is done through Prysmian’s
own R&D centres and by co-operating with universities,
scientific institutions and above all, our customers.
Prysmian’s world-wide organisation makes and delivers
advanced technological solutions to customers anywhere
in the world.
2
Marine Cables
Prysmian in Finland
Prysmian Cables and Systems Oy has roots going back to
1912, when The Finnish Braiding Factory, the first cable
factory in Finland, was founded in Helsinki.
The company has since had many names, The Finnish Cable
Factory, Nokia Cables, NK Cables and Pirelli Cables and
Systems Oy. Since October 2005 it is Prysmian Cables and
Systems Oy.
In Finland there are two production facilities, the Pikkala
cable factory and the Oulu cable factory. The Pikkala factory
is situated in Kirkkonummi, about 40 km west of Helsinki
along the coast. Production consists of marine cables,
heating cables and low, medium and high voltage cables
as well as submarine cables. The main customer groups are
shipyards, installers, wholesalers, contractors, industry and
power utilities.
The Oulu factory is situated in the city of Oulu, about 800 km
north of Helsinki by the northern end of the Gulf of Bothnia.
The main products there are various telecom cables and
house wiring cables.
Martin Pekuri
+358 10 77 55 605
martin.pekuri@
prysmian.com
Olli Anttonen
+358 10 77 55 603
olli.anttonen@
prysmian.com
Katrine Dawson
+358 10 77 55 606
katrine.dawson@
prysmian.com
Jorma Ikäheimonen
+358 10 77 55 496
jorma.ikaheimonen@
prysmian.com
Satu Karmavalo
+358 10 77 55 828
satu.karmavalo@
prysmian.com
Seija Kurtén
+358 10 77 55 604
seija.kurten@
prysmian.com
Timo Pölkki
+358 10 77 55 876
timo.polkki@
prysmian.com
Vesa Riitaoja
+358 10 77 55 472
vesa.riitaoja@
prysmian.com
Susanne Welander
+358 10 77 55 618
susanne.welander@
prysmian.com
Alexey Glushkov
+796 02 873 369
[email protected]
Fax: +358 9 298 2204
CONTENTS
General 4
> POWER & CONTROL CABLES
LM-HF 0,6/1 (1,2) kV
Unarmoured Power and Control Cable 6
LSM-HF 0,6/1 (1,2) kV
Armoured Power and Control Cable 8
LSM-HF 1,8/3 (3,6) kV
Armoured Power Cable 10
> INSTRUMENTATION CABLES
LJST-HF 150/250 (300) V
Armoured Instrumentation and
Telecommunication Cable 12
LJT-HF 150/250 (300) V
Screened Instrumentation and Telecommunication Cable 14
HFX-ISOSA/Cu 250 V
Individually Screened Instrumentation and
Telecommunication Cable 16
SIENOPYR-FR PROFIBUS M-02Y(ST)CHX 100 V
Bus-Cable 18
> FIRE RESISTANT CABLES
LM-FRHF 0,6/1 (1,2) kV
Unarmoured Fire Resistant Power and Control Cable 20
LSM-FRHF 0,6/1 (1,2) kV
Armoured Fire Resistant Power and Control Cable 22
SIENOPYR-FR FMHXCH FE 120 150/250 (300) V
Armoured Fire Resistant Instrumentation,
Communication and Control Cable 24
> MEDIUM VOLTAGE CABLES
Approvals
All above mentioned test are part of the IEC test procedures for
marine cables. As a confirmation of the successfully passed test
our products have type approval certificates from the following
classification societies:
ABS BV 5
DNV
GL 5 LR5 RINA
RMRS American Bureau of Shipping
Bureau Véritas
Det Norske Veritas
Germanischer Lloyd
Lloyd’s Register
Registro Italiano Navale
Russian Marine Register of Shipping
MV-FHFX/A 6/10 (12) kV
Armoured Medium Voltage Power Cable 26
MV-FHFX/A 12/20 (24) kV
Armoured Medium Voltage Power Cable 28
> TECHNICAL INFORMATION Installation Current rating Identification colours Electrical data 30
32
33
34
3
GENERAL
Marine Cables
This is based on an amount of 7 litres of combustible material per
metre. The bunch of cables has to be minimum 3.5 m high when it
is in a test chamber subjected to fire from a burner directed at the
cables for forty minutes. The cable bunch may not burn more than
2.5 m above the burner.Please see figure 2.
Conductor
Fire resistance tests are aimed at verifying the behaviour of
a cable´s circuit integrity under fire conditions. The main three
different test methods are IEC 60331-21 or IEC 60331-1 or
IEC 60331-2, used for power and control cables. Marine cable
standards require the IEC 60331-21 test, where the cable sample
is subjected to a flame at 750 ˚C for 90 minutes followed by
a 15 minutes cooling period while the rated voltage is being applied
between the conductors. No breakdown or short circuit is permitted
during the test. Please see figure 3. The optional test methods for
cables with diameters over 20 mm, is the more rigorous
IEC 60331-1 test, or for diameter not exceeding 20 mm
IEC 60331-2, in which a bent cable, affected by mechanical shock,
is subjected to a 830 ˚C flame for minimum 90 minutes.
(ship wiring cables, ship board cables)
Marine cables are for installations on board ships.
They have been type approved by a classification society and they
have a construction that follows standards for marine cables.
Marine cable conductors are of stranded annealed copper combining
the flexibility and small dimensions to provide excellent installability
and economical solutions. To minimise the cable diameter and weight
we use sector shaped conductors for bigger cross-section.
Insulation Material
XLPE (cross-linked polyethylene) is used as the main insulation
material. It withstands higher temperatures than ordinary
thermoplastic polyethylene. It is resistant against deformation
and various chemicals. It has excellent mechanical and electrical
properties. The maximum conductor temperature stipulated by
IEC 60092-351 marine cable standard is 90 ˚C.
Sheathing Material
The sheath (jacket) is composed of halogen free, flame retardant
thermoplastic compound. It fulfils the criterion of SHF1 according
to IEC 60092-359. In case of fire the sheathing material offers
advantages such as reduced emission of smoke and corrosive
toxic gasses.
Quality Control
Each manufactured cable goes through a test procedure according to
the IEC 60092-300 series standards.
Fire Testing Methods
Flame retardance of a single cable is tested in accordance with
IEC 60332-1-2. It is performed on a 60 cm cable sample with a gas
flame for 1-8 min depending on the cable diameter. The cable has to
be self-extinguishing within certain limits to fulfil the test.
Please see figure 1.
Flame spread is tested on bunched cables in accordance with
IEC 60332-3-22, simulating the fire behaviour of the cables
installed in a bunch. The main category that is used is A.
Bunched cables
being tested for
flame spread.
4
4
Marine Cables
Smoke density is tested according to IEC 61034-1 (apparatus)
and IEC 61034-2 (procedure and requirements). It is done by placing
cable in a ”smoke cube” (3x3x3 m). When the cable is burning,
the light transmittance is measured using a photometric system.
This test is aimed at simulating visibility when cables are burning
on board a ship 60 % (70 % for a single cable) visibility is satisfactory
if it is attained throughout the test.
Halogens. To test whether a material is halogen free or not,
the tests IEC 60754-1 and 60754-2 are used. The acidity of
the gasses from burning materials is measured. Being halogen-free
means that the materials used in the cables do not contain any
halogens – such as chlorine, bromine, iodine and fluorine.
In order to attain the self-extinguishing effects that halogens have
in cables, ATH (aluminium trihydroxide) based materials are used
instead. This way the negative effects of halogens are avoided
(corrosivity, toxicity etc.)
Test methods
(IEC 60331-1 and -2)
for fire with shock
at a temperature of
at least 830 °C
Vertical flame propagation test
300 ± 25
Cable sample
IEC 60332-1-2
50
1200 ± 25
600 ± 25550 ± 25
475
540 Max. length of downward
limit of charred surface
Support arm and copper
wire wrapping
50
Figure 1.
1 kW burner, 45º angle flame/sample
Vertical flame spread of bunched cables
IEC 60332-3-22 cat.A
Round Steel Rungs
1000 ± 100
Touching
Configuration
Smoke Outlet
(300 ± 30) x (1000 ± 100)
150
Metal Wire Ties
4000 ± 100
Centre Line of Burner
Air Inlet
(800 ± 20) x (400 ± 10)
600 ± 5
500 ± 5
400 ± 5
Floor
2000 ± 100
Rig raised above ground level
Maximum Width
Figure 2.
Fire resistance test
IEC 60331-21
Clamp
Cable Sample
Support Arm
70 ± 10
Figure 3.
Temperature 750 °C
Flow Rates (1 bar, 20 °C):
Air 80 ± 5 Propane 5 ± 0,25
45
5
Power and
Control Cables
LM-HF
0,6/1(1,2) kV
(TEMA)
6
Marine Cables
Unarmoured
Power and Control
Cable
Design
>
>
>
>
Conductor
Annealed stranded plain copper
- round 1,5 to 16 mm2
- round compacted 25 to 240 mm2
- sector shaped in 3-4 cores 35 to 240 mm2
Insulation
Extruded XLPE
- See page 33 for core identification colours
Sheath
Extruded black halogen free polyolefine, SHF1
Installation information and electrical data on pages 30-35
Standards
>
>
>
>
>
>
>
>
Construction
IEC 60092-353 and IEC 60092-350
Materials
IEC 60228 Class 2 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-353
Choice and Installation
IEC 60092-352
Maximum conductor temperature +90 °C
Size
(n x mm2) or
(n G mm2)
Conductor
Diameter/Height
approx.
(mm)
Cable
Width
approx.
(mm)
Diameter
approx.
(mm)
Weight
approx.
(kg/km)
Bending
Radius
min.
(mm)
POWER CABLES
1x16
1x25
1x35
1x50
1x70
1x95
1x120
1x150
1x185
1x240
1x300
2x1,5
2x2,5
3x1,5
3x2,5
3x4
3x6
3x10
3x16
3x25
3x35
3x50
3x70
3x95
3x120
3x150
4x1,5
4x2,5
4x4
4x6
4x10
4x16
4x25
4x35
4x50
4x70
4x95
4x120
5x1,5
5x2,5
–
–
–
–
3G1,5
3G2,5
3G4
3G6
4G1,5
4G2,5
4G4
4G6
4G10
4G16
4G25
4G35
4G50
4G70
4G95
4G120
5G1,5
5G2,5
5G6
5G10
5G16
5G25
5,0
5,8
6,9
8,0
9,7
11,3
12,7
14,1
15,7
18,1
20,2
1,6
2,0
1,6
2,0
2,6
3,1
4,0
5,0
5,8
5,6
6,5
7,9
9,3
10,5
11,6
1,6
2,0
2,6
3,1
4,0
5,0
5,8
6,2
7,2
8,6
10,2
11,5
1,6
2,0
3,1
4,0
5,0
5,8
9,2
10,7
12,8
15,1
17,0
18,9
–
–
–
–
–
–
–
8,6
9,9
12,0
14,1
15,8
–
–
–
–
–
–
9,0
10,5
11,5
13,0
15,0
16,5
18,5
20,5
23,0
25,5
29,0
8,5
9,5
9,0
10,5
11,5
12,5
14,5
17,5
20,0
20,5
23,0
27,0
31,0
34,0
38,0
10,0
11,0
13,0
14,0
16,5
19,0
22,5
23,0
26,5
31,0
35,0
39,0
11,0
12,5
15,5
18,0
21,0
25,0
200
290
385
510
720
970
1210
1490
1840
2390
3100
80
105
100
140
200
260
420
620
940
1170
1550
2200
2950
3700
4600
130
175
260
340
550
800
1200
1550
2050
2900
3900
4900
155
215
430
660
1000
1500
70
85
90
100
120
130
150
160
180
200
230
35
40
40
45
45
50
60
70
80
160
185
215
250
270
300
40
45
55
55
65
75
90
185
210
250
280
310
45
50
65
75
85
100
1,6
1,6
1,6
1,6
2,0
2,0
2,0
–
–
–
–
–
–
–
13,0
16,0
19,0
22,5
14,5
18,0
21,0
220
325
480
670
305
460
690
55
65
75
90
60
75
85
9,9
11,0
13,5
15,2
17,2
18,9
21,8
–
–
–
–
–
–
–
15,0
17,0
19,0
21,0
24,0
26,0
30,0
550
770
1000
1250
1550
1880
2450
90
100
115
125
145
155
180
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
CONTROL CABLES
7x1,5
12x1,5
19x1,5
27x1,5
7x2,5
12x2,5
19x2,5
CLASS 5 CONDUCTOR
1x50
1x70
1x95
1x120
1x150
1x185
1x240
7
Power and
Control Cables
LSM-HF
0,6/1(1,2) kV
(TEMA-A)
8
Marine Cables
Armoured Power
and Control Cable
Design
>
>
>
>
>
Conductor
Annealed stranded plain copper
- round 1,5 to 16 mm2
- round compacted 25 to 240 mm2
- sector shaped in 3-4 cores 35 to 240 mm2
Insulation
Extruded XLPE
- See page 33 for core identification colours
Armour
Braid of copper wires designed to act as collective screen
Sheath
Extruded black halogen free polyolefine, SHF1
Installation information and electrical data on pages 30-35
Standards
>
>
>
>
>
>
>
>
Construction
IEC 60092-353 and IEC 60092-350
Materials
IEC 60228 Class 2 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-353
Choice and Installation
IEC 60092-352
Maximum conductor temperature +90 °C
Size
(n x mm2) or
(n G mm2)
Conductor
Diameter/Height
approx.
(mm)
Diameter
over Braid
approx.
(mm)
Diameter
approx.
(mm)
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
9,2
10,7
12,8
15,1
17,0
18,9
–
–
–
–
–
–
–
8,6
9,9
12,0
14,1
15,8
–
–
8,5
9,5
10,5
12,0
14,0
16,0
17,5
19,5
21,5
24,0
7,5
8,5
8,0
9,0
10,0
11,0
13,5
16,0
18,5
19,0
21,5
25,0
28,0
31,5
35,0
8,5
10,0
11,5
13,0
15,5
17,5
20,5
21,5
24,5
28,0
32,0
36,0
9,5
11,0
11,0
12,5
13,5
15,0
17,5
19,0
21,0
23,0
25,0
28,0
10,0
11,0
10,5
11,5
13,0
14,0
16,5
19,0
22,0
23,0
25,5
29,0
33,0
36,5
41,0
11,0
12,5
14,0
16,0
18,5
21,0
24,0
25,5
29,0
33,0
37,0
41,0
12,0
13,5
270
365
470
620
850
1130
1400
1700
2070
2650
130
160
155
195
270
320
520
740
1050
1350
1750
2400
3200
4100
5000
180
250
320
450
670
940
1350
1750
2300
3200
4300
5300
220
290
90
100
110
120
140
150
170
180
200
220
60
65
65
70
80
85
100
115
135
185
205
230
260
290
330
70
80
85
95
115
130
145
200
230
265
300
330
75
85
1,6
1,6
1,6
1,6
2,0
2,0
2,0
–
–
–
–
–
–
–
11,5
14,5
17,0
21,0
13,5
16,5
19,5
14,5
17,5
20,5
24,5
16,5
20,0
23,0
300
470
650
870
430
620
900
105
110
125
145
100
120
140
9,9
11,0
13,5
15,2
17,2
18,9
21,8
–
–
–
–
–
–
–
15,0
17,0
19,0
21,0
24,0
26,0
30,0
17,5
19,0
21,0
23,5
26,0
28,5
32,0
700
920
1170
1450
1550
1770
2700
105
115
125
140
155
170
190
Width
approx.
(mm)
Cable
Weight
approx.
(kg/km)
Bending
Radius
min.
(mm)
POWER CABLES
1x16
1x25
1x35
1x50
1x70
1x95
1x120
1x150
1x185
1x240
2x1,5
2x2,5
3x1,5
3x2,5
3x4
3x6
3x10
3x16
3x25
3x35
3x50
3x70
3x95
3x120
3x150
4x1,5
4x2,5
4x4
4x6
4x10
4x16
4x25
4x35
4x50
4x70
4x95
4x120
5x1,5
5x2,5
3G1,5
3G2,5
4G1,5
4G2,5
4G4
4G6
4G10
4G16
4G25
4G35
4G50
4G70
4G95
4G120
5G1,5
5G2,5
5,0
5,8
6,8
7,9
9,6
11,3
12,7
14,1
15,7
18,1
1,6
2,0
1,6
2,0
2,6
3,1
4,0
5,0
5,8
5,6
6,5
7,9
9,3
10,5
11,6
1,6
2,0
2,6
3,1
4,0
5,0
5,8
6,2
7,2
8,6
10,2
11,5
1,6
2,0
CONTROL CABLES
7x1,5
12x1,5
19x1,5
27x1,5
7x2,5
12x2,5
19x2,5
CLASS 5 CONDUCTOR
1x50
1x70
1x95
1x120
1x150
1x185
1x240
9
Power
Cables
LSM-HF
1,8/3(3,6) kV
(TEMA-A)
10
Marine Cables
Armoured Power
Cable
Design
>
>
>
>
>
Conductor
Annealed stranded plain copper
- round compacted 25 to 240 mm2
Insulation
Extruded XLPE
- See page 33 for core identification colours
- Plastic coated copper tape under the braid in 3-core cables
Armour
Braid of copper wires
Inner covering
Extruded halogen free polyolefine in 3-core cables
Sheath
Extruded black halogen free polyolefine, SHF1
Standards
>
>
>
>
>
>
>
>
Construction
IEC 60092-353 and IEC 60092-350
Materials
IEC 60228 Class 2 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-353
Choice and Installation
IEC 60092-352
Maximum conductor temperature +90 °C
Size
(n x mm2)
Conductor
Diameter
approx.
(mm)
Diameter
over Braid
approx.
(mm)
Diameter
approx.
(mm)
Cable
Weight
approx.
(kg/km)
Bending
Radius
min.
(mm)
LSM-HF 3 kV
1x185
1x240
15,7
18,1
23
25
27
29
2100
2700
330
350
11,3
12,7
14,1
11,3
12,7
38
42
46
36
39
44
48
52
42
45
4700
5700
6700
4200
5200
400
430
470
380
410
LSM-HF 3 kV EMC
3x 95/35
3x120/40
3x150/40
3x 95+3G16
3x120+3G25
11
Instrumentation
Cables
LJST-HF
150/250 (300) V
(TEMA-TA)
12
Marine Cables
Armoured
Instrumentation
and
Telecommunication
Cable
Design
>
>
>
>
>
Conductor
Stranded annealed plain copper conductor
Insulation
Extruded XLPE
Pair
White and blue cores are twisted to pair (see page 33)
Armour (common screen)
Combined electrical and mechanical protection
Braid of copper wires
- Drain conductor
Sheath
Extruded grey halogen free polyolefine, SHF1
Standards
>
>
>
>
>
>
>
Construction
IEC 60092-376 and IEC 60092-350
Materials
IEC 60228 Class 2 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-376
Maximum conductor temperature +90 °C
Size
(n x 2 x mm2)
Conductor
Diameter
approx.
(mm)
1x2x0,5
2x2x0,5 (quad)
4x2x0,5
7x2x0,5
8x2x0,5
10x2x0,5
14x2x0,5
19x2x0,5
24x2x0,5
1x2x0,75
2x2x0,75 (quad)
4x2x0,75
7x2x0,75
8x2x0,75
10x2x0,75
14x2x0,75
19x2x0,75
24x2x0,75
Screen
Diameter
approx.
(mm)
0,9
0,9
0,9
0,9
0,9
0,9
0,9
0,9
0,9
1,1
1,1
1,1
1,1
1,1
1,1
1,1
1,1
1,1
5,5
6,5
10,0
11,5
12,5
14,0
16,0
18,0
20,0
5,7
6,7
10,5
12,5
13,5
15,0
17,5
20,0
23,0
Diameter
approx.
(mm)
Cable
7,5
8,5
12,0
14,0
15,0
17,0
19,0
21,5
24,0
8,0
9,0
13,5
15,0
16,5
18,5
21,0
24,0
27,0
Weight
approx.
(kg/km)
80
105
190
250
270
350
450
570
680
90
125
230
300
350
450
570
730
890
Bending
Radius
min.
(mm)
45
55
75
85
90
105
115
130
145
50
55
85
95
70
115
130
150
165
(quad) construction used in two pair cables:
Electrical data (according to IEC 60092-376)
n x 2 x mm2
Conductor
resistance at
20 ˚C max W/km
Characteristic properties (approximate values)
Insulation
resistance
min MW x km
Variable
Mutual capacitance
n x 2 x 0,5
40,4
1030
n x 2 x 0,75
26,0
1020
Value
single pair
multi pair
Loop inductance
60 nF/km
50 nF/km
0,7 mH/km
Troitsky Bridge
Courtesy of Admiralty Shipyard
13
Instrumentation
Cables
LJT-HF
150/250 (300) V
(TEMA-TO)
14
Marine Cables
Screened
Instrumentation
and
Telecommunication
Cable
Design
>
>
>
>
>
Conductor
Stranded annealed plain copper conductor
Insulation
Extruded XLPE
- See page 33 for core identification colours and numbers
Pair
White and blue cores are twisted to pair (see page 33)
Common screen
Plastic coated aluminium tape
- Tinned copper drain wire
- Coverage 100 %
Sheath
Extruded grey halogen free polyolefine, SHF1
Standards
>
>
>
>
>
>
>
Construction
IEC 60092-376
Materials
IEC 60228 Class 2 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-376
Maximum conductor temperature +90 °C
(n x 2 x mm2)
Conductor
Diameter
approx.
(mm)
1x2x0,5
2x2x0,5 (quad)
4x2x0,5
7x2x0,5
8x2x0,5
10x2x0,5
14x2x0,5
19x2x0,5
24x2x0,5
1x2x0,75
2x2x0,75 (quad)
4x2x0,75
7x2x0,75
8x2x0,75
10x2x0,75
14x2x0,75
19x2x0,75
24x2x0,75
0,9
0,9
0,9
0,9
0,9
0,9
0,9
0,9
0,9
1,1
1,1
1,1
1,1
1,1
1,1
1,1
1,1
1,1
Size
Diameter
approx.
(mm)
Cable
6,6
7,5
11,5
13,5
14,5
15,5
17,5
20,0
22,0
7,5
8,5
12,5
14,5
15,5
17,0
19,5
22,0
24,5
Weight
approx.
(kg/km)
45
65
120
180
200
240
330
400
500
55
85
155
230
270
320
420
560
690
Bending
Radius
min.
(mm)
55
60
90
110
120
125
145
170
185
60
70
100
120
125
140
160
180
200
(quad) construction used in two pair cables:
Electrical data (according to IEC 60092-375)
n x 2 x mm2
Conductor
resistance at
20 ˚C max W/km
Insulation
resistance
min MW x km
n x 2 x 0,5
n x 2 x 0,75
40,4
26,0
1030
1020
Characteristic properties (approximate values)
Value
Variable
Mutual capacitance
Loop inductance
single pair
multi pair 0,5
multi pair 0,75
60 nF/km
45 nF/km
50 nF/km
0,7 mH/km
15
Instrumentation
Cables
HFX-ISOSA/Cu
250 V
(TEMA-TIOA)
16
Marine Cables
Individually
Screened
Instrumentation
and
Telecommunication
Cable
Design
>
>
>
>
>
>
Conductor
Stranded annealed plain copper conductor
Insulation
Extruded XLPE
- Number identification
Pair
Black and blue cores are twisted to pair
Sreen
Individual and collective screen of plastic laminated aluminium tape
- tinned copper drain wires
Armour
Braid of plain copper wires
Sheath
Extruded orange halogen free polyolefine, SHF1
Standards
>
>
>
>
>
>
>
Construction
IEC 60092-375, -376 and 92-3
Materials
IEC 60228 Class 2 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-375, -376
Maximum conductor temperature +90 °C
Size
(n x 2 x mm2)
250 V
2 x 2 x 0,75
4 x 2 x 0,75
7 x 2 x 0,75
10 x 2 x 0,75
14 x 2 x 0,75
19 x 2 x 0,75
24 x 2 x 0,75
Conductor
Resistance
Diameter
max.
approx.
(Ω/km)
(mm)
26,0
26,0
26,0
26,0
26,0
26,0
26,0
1,1
1,1
1,1
1,1
1,1
1,1
1,1
Diameter
max.
(mm)
13,6
17,0
20,1
24,9
27,1
30,1
34,1
Cable
Weight
approx.
(kg/km)
Bending
Radius
min.
(mm)
170
300
420
630
760
1000
1190
109
136
161
199
217
241
273
17
Instrumentation
Cables
Marine Cables
SIENOPYR-FR
PROFIBUS
M-02Y(ST)CHX
Bus-Cable
100V
(TEMAPROFIBUS)
18
Design
>
>
>
>
>
>
>
>
Conductor
7 bare copper wires,
E-Cu58 F21 to DIN 40500 part 4
cross section: 0,35 mm2
(AWG 22 = 0,325 mm2)
Insulation
Polyethylene foam (cellular HDPE)
Core identification
- a core: red
- b core: green
Laying
Laying of the both copper cores with two blind cores
Core assembly wrapping
Nonwoven plastic textile band
Multi layer screen
1. layer: laminated aluminium foil,
2. layer: tinned copper wire braid
Inner Sheath according VDE 0207 part 24
Halogen free polymer (HM4)
diameter: 8 mm (nominal)
Outer Sheath according IEC 60092-359
Halogen free, cross-linked polymer
Colour: black
Standards
>
>
>
>
>
>
Ozone
DIN VDE 0472 Part 805, Test B
Fire retardance
IEC 60332-3-24 (cat C)
Corrosivity of combustion gasses
IEC 60754-2
Smoke density
IEC 61034
Resistance to chemicals (Test to VG 95218 Part 2):
- diesel fuel
- oils
- hydraulic fluids
- solvent cleaning agents
- de-ionozed water
- de-ionized water with 3,5 % NaCl
Maximum conductor temperature +80 °C
Transmission characteristics
>
>
>
>
>
>
>
Voltage
100 V
Conductor resisitance 1 km loop at 20 ˚C
max. 110 W/km
Characteristic impedance
at 3 to 20 MHz
150 ± 15 W
at 38,4 kHz
185 ± 18,5 W
at 9,6 kHz
250 ± 25 W
Wave attenuation
at 16 MHz
max. 45 dB/km
at 4 MHz
max. 22 dB/km
at 38,4 kHz
max. 5 dB/km
at 9,6 kHz
max. 3 dB/km
Mutual capacitance at 800 Hz
max. 30 nF/km
Insulation resistance at 20 ˚C
min. 16 000 MWkm
Outer sheath surface resistance min 109 W
Other properties
>
>
>
>
>
Ambient temperatures
During operations as bus cable fixed intallation –35 to 80 ˚C
During installation
–15 to 50 ˚C
Conductor temperature in operation
max. 80 ˚C
Tensile load during installation
max. 100 N
Bending radius
(D = overall diameter )
Single bending
min 10 x D
Flexing
min 20 x D
Weight
appr. 110 kg/1000 m
Outer diameter
max 9,8 mm
Photos
Martin Pekuri
19
Fire Resistant
Cables
LM-FRHF
0,6/1 (1,2) kV
(TEMA-FR)
20
Marine Cables
Unarmoured Fire
Resistant Power and
Control Cable
Design
>
>
>
>
Conductor
Annealed stranded plain copper
- round 1,5 to 16 mm2
- round compacted 25 to 240 mm2
- sector shaped in 3-4 cores 35 to 240 mm2
Insulation
Mica tape with overlap as fire resistant layer
Extruded HF90
- see page 33 for core identification colours
Sheath
Extruded orange halogen free polyolefine, SHF1
Installation information and electrical data on pages 30-35
Standards
>
>
>
>
>
>
>
>
>
Construction
IEC 60092-353 and IEC 60092-350
Materials
IEC 60228 Class 2 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Fire Resistance
IEC 60331-1 or IEC 60331-2
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-353
Choice and Installation
IEC 60092-352
Maximum conductor temperature +90 °C
Size
(n x mm2) or
(n G mm2)
Conductor
Diameter/Height
Width
approx.
approx.
(mm)
(mm)
Diameter
approx.
(mm)
Cable
Weight
approx.
(kg/km)
Bending
Radius
min.
(mm)
POWER CABLES
2x1,5
2x2,5
3x1,5
3x2,5
3x6
3x10
3x16
3x25
3x35
3x50
3x70
3x95
3x120
3x150
4x1,5
4x2,5
3G1,5
3G2,5
4G1,5
4G2,5
1,6
2,0
1,6
2,0
3,1
4,0
5,0
5,8
6,8
6,5
7,9
9,3
10,5
11,6
1,6
2,0
–
–
–
–
–
–
–
–
–
10,7
12,8
15,1
17,0
18,9
–
–
10,0
11,0
10,5
12,0
14,5
16,5
18,5
22,5
25,0
24,5
28,0
32,0
35,0
39,0
11,5
13,0
90
120
110
150
280
450
650
970
1230
1600
2200
3000
3750
4600
140
190
40
45
45
50
60
65
75
130
150
195
225
255
280
310
50
55
1,6
1,6
1,6
1,6
1,6
2,0
2,0
2,0
2,0
–
–
–
–
–
–
–
–
12,5
15,0
18,0
21,0
26,0
14,0
16,0
20,0
24,0
170
250
370
550
770
240
330
520
770
50
60
75
85
160
55
65
80
150
CONTROL CABLES
5x1,5
7x1,5
12x1,5
19x1,5
27x1,5
5x2,5
7x2,5
12x2,5
19x2,5
Stril Mermaid
Courtesy of Flekkefjord Elektro AS
21
Fire Resistant
Cables
LSM-FRHF
0,6/1 (1,2) kV
(TEMA-AFR)
22
Marine Cables
Armoured Fire
Resistant Power and
Control Cable
Design
>
>
>
>
>
Conductor
Annealed stranded plain copper
- round 1,5 to 16 mm2
- round compacted 25 to 240 mm2
- sector shaped in 3-4 cores 35 to 240 mm2
Insulation
Mica tape with overlap as fire resistant layer
Extruded HF90
- See page 33 for core identification colours
Armour
Braid of copper wires designed to act as collective screen
Sheath
Extruded orange halogen free polyolefine, SHF1
Installation information and electrical data on pages 30-35
Standards
>
>
>
>
>
>
>
>
>
Construction
IEC 60092-353 and IEC 60092-350
Materials
IEC 60228 Class 2 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Fire Resistance
IEC 60331-1 or IEC 60331-2
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-353
Choice and Installation
IEC 60092-352
Maximum conductor temperature +90 °C
Size
(n x mm2) or
(n G mm2)
Conductor
Diameter/Height
Width
approx.
approx.
(mm)
(mm)
Diameter
over Braid
approx.
(mm)
Diameter
approx.
(mm)
Cable
Weight
approx.
(kg/km)
Bending
Radius
min.
(mm)
POWER CABLES
2x1,5
2x2,5
3x1,5
3x2,5
3x6
3x10
3x16
3x25
3x35
3x50
3x70
3x95
3x120
3x150
4x1,5
4x2,5
3G1,5
3G2,5
1,6
2,0
1,6
2,0
3,1
4,0
5,0
5,8
6,8
6,5
7,9
9,3
10,5
11,6
1,6
2,0
–
–
–
–
–
–
–
–
–
10,7
12,8
15,1
17,0
18,9
–
–
8,5
9,5
9,0
10,0
13,0
15,0
17,5
20,5
22,0
22,0
25,5
29,5
32,0
35,5
10,0
11,0
11,0
12,5
11,5
13,0
15,0
18,0
20,5
23,5
26,0
26,5
30,0
34,0
37,0
41,0
13,0
14,0
150
190
185
240
420
610
820
1150
1500
1900
2600
3500
4300
5200
230
285
65
75
70
80
95
110
125
140
190
215
240
275
300
330
75
85
1,6
1,6
1,6
1,6
1,6
2,0
2,0
2,0
2,0
–
–
–
–
–
–
–
–
–
11,5
14,0
17,0
19,5
24,0
13,0
14,5
19,0
22,0
14,0
17,0
20,0
23,0
28,0
16,0
18,0
22,0
26,0
270
410
570
800
1100
390
490
740
1050
85
105
120
140
170
95
110
130
160
CONTROL CABLES
5x1,5
7x1,5
12x1,5
19x1,5
27x1,5
5x2,5
7x2,5
12x2,5
19x2,5
5G1,5
Courtesy of
the Royal Caribbean Cruise Line
Courtesy of
the Royal Caribbean Cruise Line
23
Fire Resistant
Cables
SIENOPYR-FR
FMHXCH
FE
120
150/250 (300) V
(TEMA-TAFRS)
24
Marine Cables
Armoured
Fire Resistant
Instrumentation,
Communication and
Control Cable
Design
>
>
>
>
>
Conductor
Stranded annealed plain copper conductor 0,75 mm2
Insulation
White ceramic HF S95
Pair
Numbered white cores are twisted to pair (2 pairs is a quad)
Armour (common screen)
Braid of copper wires
Sheath
Extruded orange halogen free polyolefine, SHF1
Standards
>
>
>
>
>
>
>
>
Construction
IEC 60092 -376
Materials
IEC 60228 Class 2 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Fire Resistance
IEC 60331-21 or IEC 60331-31
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-376
Maximum conductor temperature +90 °C
Size
(n x 2 x mm2)
1x2x0,75
2x2x0,75 (quad)
4x2x0,75
7x2x0,75
10x2x0,75
14x2x0,75
19x2x0,75
24x2x0,75
Conductor
Diameter
approx.
(mm)
Diameter
approx.
(mm)
1,1
1,1
1,1
1,1
1,1
1,1
1,1
1,1
8,0
9,5
12,0
14,5
17,5
20,0
22,0
25,0
Cable
Weight
approx.
(kg/km)
Bending
Radius
min.
(mm)
95
130
195
305
430
560
720
880
55
60
75
90
110
125
140
160
(quad) construction used in two pair cables:
Electrical data (according to IEC 60092-375)
n x 2 x mm
2
n x 2 x 0,75
Conductor
resistance at
20 ˚C max W/km
Insulation
resistance
min MW x km
26,0
480
Characteristic properties (approximate values)
Value
Variable
Mutual capacitance
Loop inductance
max.
120 nF/km
0,7 mH/km
Mariner of the Seas
Courtesy of Aker Yards Oy
25
Medium Voltage
Cables
MV-FHFX/A
6/10 (12) kV
(TEMA-A)
26
Marine Cables
Armoured Medium
Voltage Power Cable
Design
>
>
>
>
>
>
>
>
Conductor
Flexible copper conducter (class 5)
Conductor screen
Semiconductive tape and extruded compound
Insulation
Extruded off-white XLPE, nominal thickness 3,4 mm
Insulation screen
Extruded semiconductive compound
Metallic Screen
Copper tapes
Inner Covering
Extruded halogen free compound
Armour
Braid of copper wires
Sheath
Extruded red halogen free compound, SHF1
Standards
>
>
>
>
>
>
>
>
Construction
IEC 60092-354 and IEC 60092-350
Materials
IEC 60228 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-354
Choice and Installation
IEC 60092-352
Maximum conductor temperature +90 °C
Size
(n x mm2)
Conductor
Diameter
approx.
(mm)
MV-FHFX/A (FE4H1M1AM1)
1x150
15,6
MV-FHFX/A (FE4H10M1AM1)
3x35
7,5
3x50
8,7
3x70
10,3
3x95
12,1
3x120
13,6
Size
Current
rating at +45 ˚C
ambient 1)
(n x mm2)
(A)
Core
Diameter
approx.
(mm)
Inner Cover
Thickness
approx.
(mm)
Braid
Diameter
approx.
(mm)
Diameter
approx.
(mm)
25,0
1,2
29,0
33,0
2260
17,0
18,5
20,0
21,5
23,0
1,2
1,2
1,2
1,2
1,2
41,0
44,5
47,5
51,0
54,0
46,0
50,0
53,0
57,0
60,0
3460
4010
4930
6060
7050
Conductor Resistance
RDC
at +20 ˚C
MV-FHFX/A (FE4H1M1AM1)
1x150
369
0,124
MV-FHFX/A (FE4H10M1AM1)
3x35
104
0,524
3x50
130
0,387
3x70
160
0,268
3x95
194
0,193
3x120
225
0,153
1) IEC 60092-352 Table B.4 x 0,95 (see also Tables A.1 - A.8)
Cable
Weight
approx.
(kg/km)
Inductance
L
Capacitance
C
(W/km)
at +45 ˚C
at +85 ˚C
(mH/km)
(mF/km)
0,136
0,156
0,318
0,403
0,575
0,425
0,294
0,212
0,168
0,658
0,486
0,337
0,242
0,192
0,357
0,341
0,321
0,307
0,296
0,237
0,264
0,300
0,342
0,377
Other sizes available upon request
Liberty of the Seas
Courtesy of Aker Yards Oy
27
Medium Voltage
Cables
MV-FHFX/A
12/20 (24) kV
(TEMA-A)
28
Marine Cables
Armoured Medium
Voltage Power Cable
Design
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Conductor
Flexible copper conducter (class 5)
Conductor screen
Semiconductive tape and extruded compound
Insulation
Extruded off-white XLPE, nominal thickness 5,5 mm
Insulation screen
Extruded semiconductive compound
Metallic Screen
Copper tapes
Inner Covering
Extruded halogen free compound
Armour
Braid of copper wires
Sheath
Extruded red halogen free compound, SHF1
Standards
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Construction
IEC 60092-354 and IEC 60092-350
Materials
IEC 60228 (conductor)
IEC 60092-351 (insulation)
IEC 60092-359 (sheath)
Flame Retardance
IEC 60332-3-22 (cat A) and IEC 60332-1-2
Halogen Free Properties
IEC 60754-1 and -2
Low Smoke Emission
IEC 61034-1 and -2
Tests
IEC 60092-354
Choice and Installation
IEC 60092-352
Maximum conductor temperature +90 °C
Size
(n x mm2)
Conductor
Diameter
approx.
(mm)
Core
Diameter
approx.
(mm)
Inner Cover
Thickness
approx.
(mm)
Braid
Diameter
approx.
(mm)
Diameter
approx.
(mm)
Cable
29,3
1,2
33,4
38,0
2670
21,2
22,4
1,2
1,2
51,3
53,9
58,0
60,0
4780
5450
Weight
approx.
(kg/km)
MV-FHFX/A (FE4H1M1AM1)
1x150
15,6
MV-FHFX/A (FE4H10M1AM1)
3x35
7,5
3x50
8,7
Size
Current
rating at +45 ˚C
ambient 1)
(n x mm2)
(A)
Conductor Resistance
RDC
at +20 ˚C
MV-FHFX/A (FE4H1M1AM1)
1x150
369
0,124
MV-FHFX/A (FE4H10M1AM1)
3x35
104
0,524
3x50
130
0,387
1) IEC 60092-352 Table B.4 x 0,95 (see also Tables A.1 - A.8)
Inductance
L
Capacitance
C
(W/km)
at +45 ˚C
at +85 ˚C
(mH/km)
(mF/km)
0,136
0,156
0,366
0,273
0,575
0,425
0,658
0,486
0,395
0,376
0,169
0,185
Other sizes available upon request
Havila Venus
Courtesy of Havyard
29
Technical
Information
General
The rated voltage of a cable must not be lower than the nominal
voltage of the circuit in which it is used. The ambient temperature during
operation should be at least 10 ºC lower than the maximum conductor
temperature allowed to the insulation material.
Marine Cables
Bending Radius
The minimum bending radii according to IEC 60092-352
in the final fixed assembly:
Insulation
Outer covering
Overall
diameter of
cable (D)
Minimum
internal radius
of bend
≤25 mm
4D
≥25 mm
6D
Metal braid screened
or armoured
Any
6D
Metal wire armoured
Metal tape armoured
or metal sheathed
Any
6D
Composite
polyester/metal
laminate screened
units or collective tape
screening
Any
8D
Thermoplastic or
thermosetting
with shaped
copper
conductors
Any
Any
8D
Medium voltage
cable
single core
12D
Any
3-core
9D
Rated Voltage
The rated voltages of cables are expressed as Uo/U(Um) where
Uo
U
Um
the rated voltage between the conductor and earth,
or between the conductor and the metal screen for
which the cable is designed.
the rated voltage between the conductors for which
the cable is designed.
the highest system voltage for which the cables
may be used
Unarmoured or
unbraided
Thermoplastic or
thermosetting
with circular
copper
conductors
Installation Temperature
The minimum installation temperature for thermoplastic sheathed
cables is –15 ºC. If, however, the cables are warmed up prior to
installation, they can be installed at lower temperatures.
Lowest operation temperature -40 °C
Earthing of Braids
Earthing of braids is to be carried out in accordance with
the regulations of the classification society.
During installation the recommended radius is 1,5 times
the value given in the table.
Maximun pulling tension P = 50 N/mm2 x total conductor cross
section mm2 value of the cable.
Photos
Martin Pekuri
30
Special precautions for single core cables
for a.c. wiring
Whenever possible, a.c. wiring should be carried out with
multicore cables. When it is necessary to use single core cables,
they should either be unarmoured or armoured with
a non-magnetic material.
Some other installation examples of single core
cables (phases 1, 2 and 3)
Four cables per phase
When several multi or single core cables are connected
in parallel per phase, they should be of the same type
and equal length.
All cables pertaining to the same phase should be alternated
with those of the other phases to avoid unequal division
of the current. In the case of two cables per phase,
for example, the correct dispositions to conform with
IEC 60092-352 (phases 1, 2 and 3) are:
1
3
3 1
2
2
2
2
3 1
1
3
2 3
3
2 1
3 2 1
1
2
1
or
3
Six cables per phase
3 1
1
3
2
2
2
2
2
3 1
1
3
3 1
1
3
2
or
1
or
2 3 3 2 1
2
2
1 3
3 1
or
1
2 3
1
2 3
3
2 1
3
2 1
3 2 1
1
2
1
2 3
3 2 1
3
Ten cables per phase on the same cable tray
3 1
1
3
3 1
1
3
3 1
2
2
2
2
2
2
2
2
2
2
1
3
3 1
1
3
3 1
1
3
Photos
Martin Pekuri
31
Current Rating Marine Cables
Conductor
cross
section
Cores
Current rating for continuous service.
Conductor temperature max. +90˚C, ambient max +45˚C.
According to IEC 60092-352, Table B.4 for 0,6/1 kV
cables.
Up to 6 cables bunched together.
1
2
3
4
5
7
12
19
27
37
Reduction
1,00 0,85 0,70 0,70 0,58 0,52 0,44 0,37 0,33 0,30
(mm2)
(A)
(A)
(A)
(A)
(A)
(A)
(A)
(A)
(A)
(A)
23
30
41
52
72
96
127
157
196
242
293
339
389
444
522
601
20
26
34
44
61
82
108
133
167
206
249
288
331
377
444
511
16
21
28
36
50
67
89
110
137
169
205
237
272
311
365
421
16
21
28
36
50
67
89
110
137
169
205
237
272
311
365
421
13
18
24
30
42
56
74
92
12
16
10
13
9
11
8
10
7
9
1,5
2,5
4
6
10
16
25
35
50
70
95
120
150
185
240
300
Ambient temperature correction factors
according to IEC 60092-352
Temperature
(˚C)
Correction
factor
35
40
45
1,10
1,05
50
55
60
65
1,00 0,94 0,88 0,82
0,74
70
75
0,67 0,58
Short time duty and intermittent service load correction factors
(according to IEC 60092-352)
Cable
diameter
Time
constant
Critical duration (rest time
between service periods)
D (mm)
T (min)
3xT (min)
5
6
7
8
9
10
15
20
25
30
35
40
45
50
60
70
80
90
100
2,2
2,8
3,4
4,1
4,8
5,5
9,5
14
19
24
30
36
42
48
62
76
91
107
123
6,5
8,3
10
12
14
16
28
42
57
73
89
107
125
145
185
228
273
320
368
Service time
correction factor
Intermittent service correction
factor
30 min
60 min
4 min load
+ 6 min rest
1,058
1,058
1,058
1,059
1,059
1,061
1,081
1,126
1,186
1,255
1,328
1,403
1,479
1,554
1,705
1,852
1,996
2,136
2,273
1,058
1,058
1,058
1,058
1,058
1,058
1,059
1,066
1,081
1,105
1,137
1,173
1,212
1,254
1,341
1,432
1,522
1,613
1,702
1,083
1,127
1,170
1,208
1,242
1,273
1,376
1,433
1,468
1,490
1,506
1,518
1,527
1,534
1,544
1,551
1,556
1,559
1,562
Photos
Martin Pekuri
32
32
Identification
Colours
POWER AND CONTROL CABLE COREs
Cable with earth core
Cable without earth core
Type
N
2X
Blue
3X
4X
5…37X
Blue
Line
Type
Brown
PE
N
3G
G
Y
Brown
Black
Grey
4G
G
Y
Brown
Black
Grey
5G
G
Y
White or black insulation with numbers
7…37G
Blue
Blue
Line
Brown
Brown
Black
Grey
Brown
Black
Grey
White or black insulation with numbers + last core green and yellow
CONTROL AND INSTRUMENTATION cable Cores
Pair
1
2
N
Core a
White insulation +
black number
Core b
Blue insulation +
black number
1
3
2*N-1
2
4
2*N
kuvia!
33
Electrical Data Marine Cables
Cable Type
LM-HF, LSM-HF,
LM-FRHF, LSM-FRHF
Cross
Section
(n x mm2)
(mm2)
1 x 35
1 x 50
1 x 70
1 x 95
1 x 120
1 x 150
1 x 185
1 x 240
1 x 300
2 x 1,5
2 x 2,5
3 x 1,5
3 x 2,5
3x4
3x6
3 x 10
3 x 16
3 x 25
3 x 35
3 x 50
3 x 70
3 x 95
3 x 120
3 x 150
3 x 185
3 x 240
3 x 300
4 x 1,5
4 x 2,5
4x4
4x6
4 x 10
4 x 16
4 x 25
4 x 35
4 x 50
4 x 70
4 x 95
4 x 120
4 x 150
4 x 185
4 x 240
4 x 300
34
34
35
50
70
95
120
150
185
240
300
1,5
2,5
1,5
2,5
4
6
10
16
25
35
50
70
95
120
150
185
240
300
1,5
2,5
4
6
10
16
25
35
50
70
95
120
150
185
240
300
Conductor Resistance
(IEC 60228)
R
at +20 ˚C
0,524
0,387
0,268
0,193
0,153
0,124
0,0991
0,0754
0,0601
12,1
7,41
12,1
7,41
4,61
3,08
1,83
1,15
0,727
0,524
0,387
0,268
0,193
0,153
0,124
0,0991
0,0754
0,0601
12,1
7,410
4,61
3,08
1,83
1,15
0,727
0,524
0,387
0,268
0,193
0,153
0,124
0,0991
0,0754
0,0601
(W/km)
at +45 ˚C
0,575
0,425
0,294
0,212
0,168
0,136
0,109
0,083
0,066
13,289
8,138
13,289
8,138
5,063
3,383
2,010
1,263
0,798
0,575
0,425
0,294
0,212
0,168
0,136
0,109
0,083
0,066
13,289
8,138
5,063
3,383
2,010
1,263
0,798
0,575
0,425
0,294
0,212
0,168
0,136
0,109
0,083
0,066
Inductance
L
at +85 ˚C
0,658
0,486
0,336
0,242
0,192
0,156
0,124
0,095
0,075
15,191
9,303
15,191
9,303
5,788
3,867
2,297
1,444
0,913
0,658
0,486
0,336
0,242
0,192
0,156
0,124
0,095
0,075
15,191
9,303
5,788
3,867
2,297
1,444
0,913
0,658
0,486
0,336
0,242
0,192
0,156
0,124
0,095
0,075
(mH/km)
0,316
0,315
0,303
0,292
0,284
0,286
0,281
0,276
0,288
0,336
0,313
0,336
0,313
0,293
0,281
0,266
0,254
0,211
0,202
0,200
0,197
0,190
0,189
0,191
0,193
0,190
0,188
0,359
0,336
0,317
0,304
0,289
0,278
0,267
0,258
0,217
0,213
0,206
0,205
0,209
0,209
0,206
0,204
Electrical Data
Cable Type
LM-HF, LSM-HF,
LM-FRHF, LSM-FRHF
(n x mm2)
1 x 35
1 x 50
1 x 70
1 x 95
1 x 120
1 x 150
1 x 185
1 x 240
1 x 300
2 x 1,5
2 x 2,5
3 x 1,5
3 x 2,5
3x4
3x6
3 x 10
3 x 16
3 x 25
3 x 35
3 x 50
3 x 70
3 x 95
3 x 120
3 x 150
3 x 185
3 x 240
3 x 300
4 x 1,5
4 x 2,5
4x4
4x6
4 x 10
4 x 16
4 x 25
4 x 35
4 x 50
4 x 70
4 x 95
4 x 120
4 x 150
4 x 185
4 x 240
4 x 300
Reactance
(W/km)
at 50 Hz
at 60 Hz
X50
X60
0,099
0,099
0,095
0,092
0,089
0,090
0,088
0,087
0,090
0,106
0,098
0,106
0,098
0,092
0,088
0,083
0,080
0,066
0,064
0,063
0,062
0,060
0,059
0,060
0,061
0,060
0,059
0,113
0,106
0,099
0,096
0,091
0,087
0,084
0,081
0,068
0,067
0,065
0,064
0,066
0,066
0,065
0,064
0,119
0,119
0,114
0,110
0,107
0,108
0,106
0,104
0,108
0,127
0,118
0,127
0,118
0,111
0,106
0,100
0,096
0,080
0,076
0,075
0,074
0,072
0,071
0,072
0,073
0,072
0,071
0,136
0,127
0,119
0,115
0,109
0,105
0,101
0,097
0,082
0,080
0,078
0,077
0,079
0,079
0,078
0,077
Voltage Drop at +85 ˚C
cosj=0,8
DC
1,316
0,972
0,673
0,485
0,384
0,311
0,249
0,189
0,151
30,382
18,606
30,382
18,606
11,575
7,734
4,595
2,888
1,825
1,316
0,972
0,673
0,485
0,384
0,311
0,249
0,189
0,151
30,382
18,606
11,575
7,734
4,595
2,888
1,825
1,316
0,972
0,673
0,485
0,384
0,311
0,249
0,189
0,151
(mV/Am)
at 50 Hz
1-phase
3-phase
at 60 Hz
1-phase
3-phase
1,172
0,896
0,653
0,498
0,415
0,357
0,305
0,255
0,229
24,432
15,003
24,432
15,003
9,371
6,293
3,776
2,406
1,540
1,129
0,853
0,612
0,459
0,379
0,321
0,272
0,223
0,192
24,441
15,011
9,380
6,302
3,785
2,415
1,561
1,150
0,859
0,619
0,465
0,385
0,328
0,278
0,229
0,198
1,195
0,920
0,675
0,520
0,436
0,379
0,326
0,276
0,251
24,458
15,026
24,458
15,026
9,393
6,314
3,796
2,425
1,556
1,144
0,868
0,627
0,474
0,393
0,335
0,286
0,237
0,206
24,468
15,037
9,403
6,324
3,807
2,436
1,581
1,169
0,875
0,635
0,481
0,400
0,343
0,294
0,245
0,213
1,015
0,776
0,565
0,431
0,359
0,309
0,264
0,221
0,198
21,159
12,993
21,159
12,993
8,115
5,450
3,270
2,084
1,334
0,978
0,738
0,530
0,398
0,328
0,278
0,235
0,193
0,166
21,167
13,000
8,123
5,457
3,278
2,091
1,352
0,996
0,744
0,536
0,403
0,333
0,284
0,241
0,198
0,171
1,035
0,796
0,585
0,450
0,378
0,328
0,282
0,239
0,217
21,181
13,013
21,181
13,013
8,135
5,468
3,288
2,100
1,347
0,991
0,751
0,543
0,410
0,340
0,291
0,248
0,206
0,178
21,190
13,022
8,144
5,477
3,297
2,109
1,369
1,013
0,758
0,550
0,417
0,346
0,297
0,254
0,212
0,184
35