Submarine Cables
Low Voltage Water Blocked Cables Medium Voltage Submarine Cables

High Voltage Water Blocked Cables

 

Submarine Cables

 

XLPE Insulated DC High-Voltage Submarine Cable

Applications

These submarine cables are used for power transmission to offshore islands, oil platforms or to cross-rivers and

lakes. Cable design based on the mayor national or international standards e.g. VDE, IEC and ICEA or according

to customers design and standards.

Construction

Submarine Cables

Conductor:Copper conductor, water blocked.

Conductor Screening: Extruded semi-conductive compound.

Insulation: XLPE.

Insulation Screening: Extruded semi-conductive compound.

Separator: Swelling tape.

Core Sheath1: Lead Sheath.

Core Sheath2: PE sheath.

Bedding: Bedding layer.

Armour: Galvanized steel wires filled with bitumen compound.

Serving: Polypropylene yarn.

Electrical Data:

127/220(245) kV

Nominal
Cross Section Area
Capacitance Inductance Charging Current per phase
@50Hz
mm² μF/km mH/km A/km
500 0.14 1.42 5.8
630 0.16 1.40 6.4
800 0.17 1.37 6.9
1000 0.19 1.35 7.4
1200 0.20 1.33 7.8
1400 0.21 1.32 8.2
1600 0.22 1.31 8.6

160/275(300) kV

Nominal
Cross Section Area
Capacitance Inductance Charging Current per phase
@50Hz
mm² μF/km mH/km A/km
500 0.14 1.42 6.8
630 0.16 1.40 7.7
800 0.17 1.37 8.3
1000 0.18 1.35 9.0
1200 0.19 1.33 9.5
1400 0.20 1.32 10.0
1600 0.21 1.31 10.4

200/345(362) kV

Nominal
Cross Section Area
Capacitance Inductance Charging Current per phase
@50Hz
mm² μF/km mH/km A/km
630 0.14 1.40 8.8
800 0.15 1.37 9.7
1000 0.17 1.35 10.7
1200 0.18 1.33 11.1
1400 0.19 1.32 11.6
1600 0.20 1.31 12.1

230/400(420) kV

Nominal
Cross Section Area
Capacitance Inductance Charging Current per phase
@50Hz
mm² μF/km mH/km A/km
630 0.13 1.40 9.6
800 0.15 1.37 10.7
1000 0.16 1.35 11.7
1200 0.18 1.33 12.9
1400 0.19 1.32 13.5
1600 0.19 1.31 14.1

Dimension and Weight:

127/220(245) kV

Nominal
Cross Section Area
Nominal
Conductor
Diameter
Nominal
Insulation
Thickness
Nominal
Diameter Over
Insulation
Nomanal
Lead Sheath
Thickness
Nominal Overall
Diameter
Weight
mm² mm mm mm mm mm kg/m
500 26.2 24.0 77.6 2.9 111.0 29.3
630 29.8 23.0 79.2 3.0 112.8 31.2
800 33.7 23.0 83.1 3.1 117.5 34.5
1000 37.9 23.0 87.3 3.1 121.9 37.7
1200 41.2 23.0 90.6 3.1 125.2 40.4
1400 44.4 23.0 93.8 3.1 128.6 43.2
1600 47.4 23.0 96.8 3.1 131.8 46.0

160/275(300) kV

Nominal
Cross Section Area
Nominal
Conductor
Diameter
Nominal
Insulation
Thickness
Nominal
Diameter Over
Insulation
Nomanal
Lead Sheath
Thickness
Nominal Overall
Diameter
Weight
mm² mm mm mm mm mm kg/m
500 26.2 26.0 81.6 3.0 115.2 31.1
630 29.8 24.0 81.2 3.0 114.8 31.8
800 33.7 24.0 85.1 3.1 119.5 35.2
1000 37.9 24.0 89.3 3.1 123.9 38.4
1200 41.2 24.0 92.6 3.1 127.4 41.6
1400 44.4 24.0 95.8 3.1 130.6 44.4
1600 47.4 24.0 98.8 3.1 133.8 47.2

200/345(362) kV

Nominal
Cross Section Area
Nominal
Conductor
Diameter
Nominal
Insulation
Thickness
Nominal
Diameter Over
Insulation
Nomanal
Lead Sheath
Thickness
Nominal Overall
Diameter
Weight
mm² mm mm mm mm mm kg/m
630 29.8 28.0 89.2 3.1 123.4 35.2
800 33.7 27.0 91.1 3.1 125.9 37.5
1000 37.9 26.0 93.3 3.1 128.1 39.9
1200 41.2 25.0 94.6 3.1 129.4 42.0
1400 44.4 25.0 97.8 3.1 132.8 44.9
1600 47.4 25.0 100.8 3.1 135.8 47.7

230/400(420) kV

Nominal
Cross Section Area
Nominal
Conductor
Diameter
Nominal
Insulation
Thickness
Nominal
Diameter Over
Insulation
Nomanal
Lead Sheath
Thickness
Nominal Overall
Diameter
Weight
mm² mm mm mm mm mm kg/m
630 29.8 32.0 98.2 3.1 132.8 38.8
800 33.7 30.0 98.1 3.1 133.1 40.2
1000 37.9 29.0 100.3 3.1 135.3 42.6
1200 41.2 27.0 99.6 3.1 134.6 44.0
1400 44.4 27.0 102.8 3.1 138.0 46.9
1600 47.4 27.0 105.8 3.1 141.0 49.7