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WINDLINK® H07BN4-F
WINDLINK® H07BN4-F
Torsion resistant low-voltage single- and multicore EPR-insulated copper cables
Read more10G1.5
Nexans ref.
- Packaging: m
- Construction type: 10 G 1.5
- Outer Diameter as per Standard Min Max: 22.8 ... 28.6 mm
- Outer diameter acc Windturbines needs Min Max: 17.5 ... 20.5 mm
- Copper content: 144 kg/km
- Approximate weight: 470 kg/km
12G1.5
Nexans ref.
- Packaging: m
- Construction type: 12 G 1.5
- Outer Diameter as per Standard Min Max: 17.6 ... 22.4 mm
- Outer diameter acc Windturbines needs Min Max: 17.6 ... 21 mm
- Copper content: 172.8 kg/km
- Approximate weight: 500 kg/km
12G2.5
Nexans ref.
- Packaging: m
- Construction type: 12 G 2.5
- Outer Diameter as per Standard Min Max: 20.6 ... 26.2 mm
- Outer diameter acc Windturbines needs Min Max: 20.6 ... 24.5 mm
- Copper content: 288 kg/km
- Approximate weight: 670 kg/km
18G1.5
Nexans ref.
- Packaging: m
- Construction type: 18 G 1.5
- Outer Diameter as per Standard Min Max: 20.7 ... 26.3 mm
- Outer diameter acc Windturbines needs Min Max: 20.7 ... 24.5 mm
- Copper content: 259.2 kg/km
- Approximate weight: 725 kg/km
18G2.5
Nexans ref.
- Packaging: m
- Construction type: 18 G 2.5
- Outer Diameter as per Standard Min Max: 24.4 ... 30.9 mm
- Outer diameter acc Windturbines needs Min Max: 24.4 ... 28.5 mm
- Copper content: 432 kg/km
- Approximate weight: 980 kg/km
1G10
Nexans ref.
- Packaging: m
- Construction type: 1 G 10
- Outer Diameter as per Standard Min Max: 9.5 ... 11.9 mm
- Outer diameter acc Windturbines needs Min Max: 9.5 ... 11 mm
- Copper content: 96 kg/km
- Approximate weight: 175 kg/km
1G120
Nexans ref.
- Packaging: m
- Construction type: 1 G 120
- Outer Diameter as per Standard Min Max: 22.8 ... 28.6 mm
- Outer diameter acc Windturbines needs Min Max: 22.8 ... 26.5 mm
- Copper content: 1152 kg/km
- Approximate weight: 1430 kg/km
1G150
Nexans ref.
- Packaging: m
- Construction type: 1 G 150
- Outer Diameter as per Standard Min Max: 25.2 ... 31.4 mm
- Outer diameter acc Windturbines needs Min Max: 25.2 ... 29 mm
- Copper content: 1440 kg/km
- Approximate weight: 1740 kg/km
1G16
Nexans ref.
- Packaging: m
- Construction type: 1 G 16
- Outer Diameter as per Standard Min Max: 10.8 ... 13.4 mm
- Outer diameter acc Windturbines needs Min Max: 10.8 ... 12.5 mm
- Copper content: 153.6 kg/km
- Approximate weight: 245 kg/km
1G185
Nexans ref.
- Packaging: m
- Construction type: 1 G 185
- Outer Diameter as per Standard Min Max: 27.6 ... 34.4 mm
- Outer diameter acc Windturbines needs Min Max: 27.6 ... 31.4 mm
- Copper content: 1776 kg/km
- Approximate weight: 2160 kg/km
1G240
Nexans ref.
- Packaging: m
- Construction type: 1 G 240
- Outer Diameter as per Standard Min Max: 30.6 ... 38.3 mm
- Outer diameter acc Windturbines needs Min Max: 30.6 ... 35 mm
- Copper content: 2304 kg/km
- Approximate weight: 2730 kg/km
1G25
Nexans ref.
- Packaging: m
- Construction type: 1 G 25
- Outer Diameter as per Standard Min Max: 12.7 ... 15.8 mm
- Outer diameter acc Windturbines needs Min Max: 12.7 ... 15 mm
- Copper content: 240 kg/km
- Approximate weight: 365 kg/km
1G35
Nexans ref.
- Packaging: m
- Construction type: 1 G 35
- Outer Diameter as per Standard Min Max: 14.3 ... 17.9 mm
- Outer diameter acc Windturbines needs Min Max: 14.3 ... 17 mm
- Copper content: 336 kg/km
- Approximate weight: 470 kg/km
1G50
Nexans ref.
- Packaging: m
- Construction type: 1 G 50
- Outer Diameter as per Standard Min Max: 16.5 ... 20.6 mm
- Outer diameter acc Windturbines needs Min Max: 16.5 ... 19.3 mm
- Copper content: 480 kg/km
- Approximate weight: 662 kg/km
1G70
Nexans ref.
- Packaging: m
- Construction type: 1 G 70
- Outer Diameter as per Standard Min Max: 18.6 ... 23.3 mm
- Outer diameter acc Windturbines needs Min Max: 18.6 ... 22 mm
- Copper content: 672 kg/km
- Approximate weight: 880 kg/km
1G95
Nexans ref.
- Packaging: m
- Construction type: 1 G 95
- Outer Diameter as per Standard Min Max: 20.8 ... 26 mm
- Outer diameter acc Windturbines needs Min Max: 20.8 ... 24.5 mm
- Copper content: 912 kg/km
- Approximate weight: 1160 kg/km
1x10
Nexans ref.
- Packaging: m
- Construction type: 1 x 10
- Outer Diameter as per Standard Min Max: 9.5 ... 11.9 mm
- Outer diameter acc Windturbines needs Min Max: 9.5 ... 11 mm
- Copper content: 96 kg/km
- Approximate weight: 175 kg/km
1x120
Nexans ref.
- Packaging: m
- Construction type: 1 x 120
- Outer Diameter as per Standard Min Max: 22.8 ... 28.6 mm
- Outer diameter acc Windturbines needs Min Max: 22.8 ... 26.5 mm
- Copper content: 1152 kg/km
- Approximate weight: 1430 kg/km
1x150
Nexans ref.
- Packaging: m
- Construction type: 1 x 150
- Outer Diameter as per Standard Min Max: 25.2 ... 31.4 mm
- Outer diameter acc Windturbines needs Min Max: 25.2 ... 29 mm
- Copper content: 1440 kg/km
- Approximate weight: 1740 kg/km
1x16
Nexans ref.
- Packaging: m
- Construction type: 1 x 16
- Outer Diameter as per Standard Min Max: 10.8 ... 13.4 mm
- Outer diameter acc Windturbines needs Min Max: 10.8 ... 12.5 mm
- Copper content: 153.6 kg/km
- Approximate weight: 245 kg/km
1x185
Nexans ref.
- Packaging: m
- Construction type: 1 x 185
- Outer Diameter as per Standard Min Max: 27.6 ... 34.4 mm
- Outer diameter acc Windturbines needs Min Max: 27.6 ... 31.4 mm
- Copper content: 1776 kg/km
- Approximate weight: 2160 kg/km
1x240
Nexans ref.
- Packaging: m
- Construction type: 1 x 240
- Outer Diameter as per Standard Min Max: 30.6 ... 38.3 mm
- Outer diameter acc Windturbines needs Min Max: 30.6 ... 35 mm
- Copper content: 2304 kg/km
- Approximate weight: 2730 kg/km
1x25
Nexans ref.
- Packaging: m
- Construction type: 1 x 25
- Outer Diameter as per Standard Min Max: 12.7 ... 15.8 mm
- Outer diameter acc Windturbines needs Min Max: 12.7 ... 15 mm
- Copper content: 240 kg/km
- Approximate weight: 365 kg/km
1x300
Nexans ref.
- Packaging: m
- Construction type: 1 x 300
- Outer Diameter as per Standard Min Max: 33.5 ... 41.9 mm
- Outer diameter acc Windturbines needs Min Max: 33.5 ... 38.5 mm
- Copper content: 2880 kg/km
- Approximate weight: 3480 kg/km
1x35
Nexans ref.
- Packaging: m
- Construction type: 1 x 35
- Outer Diameter as per Standard Min Max: 14.3 ... 17.9 mm
- Outer diameter acc Windturbines needs Min Max: 14.3 ... 17 mm
- Copper content: 336 kg/km
- Approximate weight: 470 kg/km
1x400
Nexans ref.
- Packaging: m
- Construction type: 1 x 400
- Outer Diameter as per Standard Min Max: 37.4 ... 46.8 mm
- Outer diameter acc Windturbines needs Min Max: 37.4 ... 43 mm
- Copper content: 3840 kg/km
- Approximate weight: 4510 kg/km
1x50
Nexans ref.
- Packaging: m
- Construction type: 1 x 50
- Outer Diameter as per Standard Min Max: 16.5 ... 20.6 mm
- Outer diameter acc Windturbines needs Min Max: 16.5 ... 19.3 mm
- Copper content: 480 kg/km
- Approximate weight: 662 kg/km
1x70
Nexans ref.
- Packaging: m
- Construction type: 1 x 70
- Outer Diameter as per Standard Min Max: 18.6 ... 23.3 mm
- Outer diameter acc Windturbines needs Min Max: 18.6 ... 22 mm
- Copper content: 672 kg/km
- Approximate weight: 880 kg/km
1x95
Nexans ref.
- Packaging: m
- Construction type: 1 x 95
- Outer Diameter as per Standard Min Max: 20.8 ... 26 mm
- Outer diameter acc Windturbines needs Min Max: 20.8 ... 24.5 mm
- Copper content: 912 kg/km
- Approximate weight: 1160 kg/km
24G1.5
Nexans ref.
- Packaging: m
- Construction type: 24 G 1.5
- Outer Diameter as per Standard Min Max: 24.3 ... 30.7 mm
- Outer diameter acc Windturbines needs Min Max: 24.3 ... 28.5 mm
- Copper content: 345.6 kg/km
- Approximate weight: 980 kg/km
24G2.5
Nexans ref.
- Packaging: m
- Construction type: 24 G 2.5
- Outer Diameter as per Standard Min Max: 28.8 ... 36.4 mm
- Outer diameter acc Windturbines needs Min Max: 28.8 ... 34 mm
- Copper content: 576 kg/km
- Approximate weight: 1390 kg/km
2x1.5
Nexans ref.
- Packaging: m
- Construction type: 2 x 1.5
- Outer Diameter as per Standard Min Max: 8.5 ... 11 mm
- Outer diameter acc Windturbines needs Min Max: 8.5 ... 10.2 mm
- Copper content: 28.8 kg/km
- Approximate weight: 110 kg/km
2x10
Nexans ref.
- Packaging: m
- Construction type: 2 x 10
- Outer Diameter as per Standard Min Max: 17.7 ... 22.6 mm
- Outer diameter acc Windturbines needs Min Max: 17.7 ... 21 mm
- Copper content: 192 kg/km
- Approximate weight: 530 kg/km
2x16
Nexans ref.
- Packaging: m
- Construction type: 2 x 16
- Outer Diameter as per Standard Min Max: 20.2 ... 25.7 mm
- Outer diameter acc Windturbines needs Min Max: 20.2 ... 23.5 mm
- Copper content: 307.2 kg/km
- Approximate weight: 730 kg/km
2x2.5
Nexans ref.
- Packaging: m
- Construction type: 2 x 2.5
- Outer Diameter as per Standard Min Max: 10.2 ... 13.1 mm
- Outer diameter acc Windturbines needs Min Max: 10.2 ... 12.2 mm
- Copper content: 48 kg/km
- Approximate weight: 160 kg/km
2x25
Nexans ref.
- Packaging: m
- Construction type: 2 x 25
- Outer Diameter as per Standard Min Max: 24.3 ... 30.7 mm
- Outer diameter acc Windturbines needs Min Max: 24.3 ... 28 mm
- Copper content: 480 kg/km
- Approximate weight: 1060 kg/km
2x4
Nexans ref.
- Packaging: m
- Construction type: 2 x 4
- Outer Diameter as per Standard Min Max: 11.8 ... 15.1 mm
- Outer diameter acc Windturbines needs Min Max: 11.8 ... 14 mm
- Copper content: 76.8 kg/km
- Approximate weight: 235 kg/km
2x6
Nexans ref.
- Packaging: m
- Construction type: 2 x 6
- Outer Diameter as per Standard Min Max: 13.1 ... 16.8 mm
- Outer diameter acc Windturbines needs Min Max: 13.1 ... 15 mm
- Copper content: 115.2 kg/km
- Approximate weight: 275 kg/km
3G1.5
Nexans ref.
- Packaging: m
- Construction type: 3 G 1.5
- Outer Diameter as per Standard Min Max: 9.2 ... 11.9 mm
- Outer diameter acc Windturbines needs Min Max: 9.2 ... 11 mm
- Copper content: 43.2 kg/km
- Approximate weight: 130 kg/km
3G10
Nexans ref.
- Packaging: m
- Construction type: 3 G 10
- Outer Diameter as per Standard Min Max: 19.1 ... 24.2 mm
- Outer diameter acc Windturbines needs Min Max: 19.1 ... 23 mm
- Copper content: 288 kg/km
- Approximate weight: 650 kg/km
3G16
Nexans ref.
- Packaging: m
- Construction type: 3 G 16
- Outer Diameter as per Standard Min Max: 21.8 ... 27.6 mm
- Outer diameter acc Windturbines needs Min Max: 21.8 ... 26 mm
- Copper content: 460.8 kg/km
- Approximate weight: 910 kg/km
3G2.5
Nexans ref.
- Packaging: m
- Construction type: 3 G 2.5
- Outer Diameter as per Standard Min Max: 10.9 ... 14 mm
- Outer diameter acc Windturbines needs Min Max: 10.9 ... 13 mm
- Copper content: 72 kg/km
- Approximate weight: 195 kg/km
3G25
Nexans ref.
- Packaging: m
- Construction type: 3 G 25
- Outer Diameter as per Standard Min Max: 26.1 ... 33 mm
- Outer diameter acc Windturbines needs Min Max: 26.1 ... 31 mm
- Copper content: 720 kg/km
- Approximate weight: 1345 kg/km
3G4
Nexans ref.
- Packaging: m
- Construction type: 3 G 4
- Outer Diameter as per Standard Min Max: 12.7 ... 16.2 mm
- Outer diameter acc Windturbines needs Min Max: 12.7 ... 15 mm
- Copper content: 115.2 kg/km
- Approximate weight: 285 kg/km
3G6
Nexans ref.
- Packaging: m
- Construction type: 3 G 6
- Outer Diameter as per Standard Min Max: 14.1 ... 18 mm
- Outer diameter acc Windturbines needs Min Max: 14.1 ... 17 mm
- Copper content: 172.8 kg/km
- Approximate weight: 340 kg/km
3x1.5
Nexans ref.
- Packaging: m
- Construction type: 3 x 1.5
- Outer Diameter as per Standard Min Max: 9.2 ... 11.9 mm
- Outer diameter acc Windturbines needs Min Max: 9.2 ... 11 mm
- Copper content: 43.2 kg/km
- Approximate weight: 130 kg/km
3x10
Nexans ref.
- Packaging: m
- Construction type: 3 x 10
- Outer Diameter as per Standard Min Max: 19.1 ... 24.2 mm
- Outer diameter acc Windturbines needs Min Max: 19.1 ... 23 mm
- Copper content: 288 kg/km
- Approximate weight: 650 kg/km
3x16
Nexans ref.
- Packaging: m
- Construction type: 3 x 16
- Outer Diameter as per Standard Min Max: 21.8 ... 27.6 mm
- Outer diameter acc Windturbines needs Min Max: 21.8 ... 26 mm
- Copper content: 460.8 kg/km
- Approximate weight: 910 kg/km
3x2.5
Nexans ref.
- Packaging: m
- Construction type: 3 x 2.5
- Outer Diameter as per Standard Min Max: 10.9 ... 14 mm
- Outer diameter acc Windturbines needs Min Max: 10.9 ... 13 mm
- Copper content: 72 kg/km
- Approximate weight: 195 kg/km
3x25
Nexans ref.
- Packaging: m
- Construction type: 3 x 25
- Outer Diameter as per Standard Min Max: 26.1 ... 33 mm
- Outer diameter acc Windturbines needs Min Max: 26.1 ... 31 mm
- Copper content: 720 kg/km
- Approximate weight: 1345 kg/km
3x35
Nexans ref.
- Packaging: m
- Construction type: 3 x 35
- Outer Diameter as per Standard Min Max: 29.3 ... 37.1 mm
- Outer diameter acc Windturbines needs Min Max: 29.3 ... 35 mm
- Copper content: 1008 kg/km
- Approximate weight: 1760 kg/km
3x4
Nexans ref.
- Packaging: m
- Construction type: 3 x 4
- Outer Diameter as per Standard Min Max: 12.7 ... 16.2 mm
- Outer diameter acc Windturbines needs Min Max: 12.7 ... 15 mm
- Copper content: 115.2 kg/km
- Approximate weight: 285 kg/km
3x50
Nexans ref.
- Packaging: m
- Construction type: 3 x 50
- Outer Diameter as per Standard Min Max: 34.1 ... 42.9 mm
- Outer diameter acc Windturbines needs Min Max: 34.1 ... 40 mm
- Copper content: 1440 kg/km
- Approximate weight: 2390 kg/km
3x6
Nexans ref.
- Packaging: m
- Construction type: 3 x 6
- Outer Diameter as per Standard Min Max: 14.1 ... 18 mm
- Outer diameter acc Windturbines needs Min Max: 14.1 ... 17 mm
- Copper content: 172.8 kg/km
- Approximate weight: 340 kg/km
3x70
Nexans ref.
- Packaging: m
- Construction type: 3 x 70
- Outer Diameter as per Standard Min Max: 38.4 ... 48.3 mm
- Outer diameter acc Windturbines needs Min Max: 38.4 ... 45 mm
- Copper content: 2016 kg/km
- Approximate weight: 3110 kg/km
3x95
Nexans ref.
- Packaging: m
- Construction type: 3 x 95
- Outer Diameter as per Standard Min Max: 43.3 ... 54 mm
- Outer diameter acc Windturbines needs Min Max: 43.3 ... 51 mm
- Copper content: 2736 kg/km
- Approximate weight: 4170 kg/km
4G1.5
Nexans ref.
- Packaging: m
- Construction type: 4 G 1.5
- Outer Diameter as per Standard Min Max: 10.2 ... 13.1 mm
- Outer diameter acc Windturbines needs Min Max: 10.2 ... 12.2 mm
- Copper content: 57.6 kg/km
- Approximate weight: 160 kg/km
4G10
Nexans ref.
- Packaging: m
- Construction type: 4 G 10
- Outer Diameter as per Standard Min Max: 20.9 ... 26.5 mm
- Outer diameter acc Windturbines needs Min Max: 20.9 ... 26 mm
- Copper content: 384 kg/km
- Approximate weight: 810 kg/km
4G16
Nexans ref.
- Packaging: m
- Construction type: 4 G 16
- Outer Diameter as per Standard Min Max: 23.8 ... 30.1 mm
- Outer diameter acc Windturbines needs Min Max: 23.8 ... 28 mm
- Copper content: 614.4 kg/km
- Approximate weight: 1150 kg/km
4G2.5
Nexans ref.
- Packaging: m
- Construction type: 4 G 2.5
- Outer Diameter as per Standard Min Max: 12.1 ... 15.5 mm
- Outer diameter acc Windturbines needs Min Max: 12.1 ... 15 mm
- Copper content: 96 kg/km
- Approximate weight: 240 kg/km
4G25
Nexans ref.
- Packaging: m
- Construction type: 4 G 25
- Outer Diameter as per Standard Min Max: 28.9 ... 36.6 mm
- Outer diameter acc Windturbines needs Min Max: 28.9 ... 33 mm
- Copper content: 960 kg/km
- Approximate weight: 1700 kg/km
4G35
Nexans ref.
- Packaging: m
- Construction type: 4 G 35
- Outer Diameter as per Standard Min Max: 32.5 ... 41.1 mm
- Outer diameter acc Windturbines needs Min Max: 32.5 ... 38 mm
- Copper content: 1344 kg/km
- Approximate weight: 2170 kg/km
4G4
Nexans ref.
- Packaging: m
- Construction type: 4 G 4
- Outer Diameter as per Standard Min Max: 14 ... 17.9 mm
- Outer diameter acc Windturbines needs Min Max: 14 ... 17 mm
- Copper content: 153.6 kg/km
- Approximate weight: 350 kg/km
4G50
Nexans ref.
- Packaging: m
- Construction type: 4 G 50
- Outer Diameter as per Standard Min Max: 37.5 ... 47.5 mm
- Outer diameter acc Windturbines needs Min Max: 37.5 ... 43.5 mm
- Copper content: 1920 kg/km
- Approximate weight: 3030 kg/km
4G6
Nexans ref.
- Packaging: m
- Construction type: 4 G 6
- Outer Diameter as per Standard Min Max: 15.7 ... 20 mm
- Outer diameter acc Windturbines needs Min Max: 15.7 ... 18.5 mm
- Copper content: 230.4 kg/km
- Approximate weight: 440 kg/km
4G70
Nexans ref.
- Packaging: m
- Construction type: 4 G 70
- Outer Diameter as per Standard Min Max: 42.7 ... 54 mm
- Outer diameter acc Windturbines needs Min Max: 42.7 ... 50 mm
- Copper content: 2688 kg/km
- Approximate weight: 3990 kg/km
5G1.5
Nexans ref.
- Packaging: m
- Construction type: 5 G 1.5
- Outer Diameter as per Standard Min Max: 11.2 ... 14.4 mm
- Outer diameter acc Windturbines needs Min Max: 11.2 ... 13.2 mm
- Copper content: 72 kg/km
- Approximate weight: 230 kg/km
5G10
Nexans ref.
- Packaging: m
- Construction type: 5 G 10
- Outer Diameter as per Standard Min Max: 22.9 ... 29.1 mm
- Outer diameter acc Windturbines needs Min Max: 22.9 ... 27 mm
- Copper content: 480 kg/km
- Approximate weight: 1020 kg/km
5G16
Nexans ref.
- Packaging: m
- Construction type: 5 G 16
- Outer Diameter as per Standard Min Max: 26.4 ... 33.3 mm
- Outer diameter acc Windturbines needs Min Max: 26.4 ... 31 mm
- Copper content: 768 kg/km
- Approximate weight: 1350 kg/km
5G2.5
Nexans ref.
- Packaging: m
- Construction type: 5 G 2.5
- Outer Diameter as per Standard Min Max: 13.3 ... 17 mm
- Outer diameter acc Windturbines needs Min Max: 13.3 ... 16 mm
- Copper content: 120 kg/km
- Approximate weight: 295 kg/km
5G25
Nexans ref.
- Packaging: m
- Construction type: 5 G 25
- Outer Diameter as per Standard Min Max: 32 ... 40.4 mm
- Outer diameter acc Windturbines needs Min Max: 32 ... 38 mm
- Copper content: 1200 kg/km
- Approximate weight: 2080 kg/km
5G35
Nexans ref.
- Packaging: m
- Construction type: 5 G 35
- Outer Diameter as per Standard Min Max: 22.8 ... 28.6 mm
- Outer diameter acc Windturbines needs Min Max: 35.8 ... 41 mm
- Copper content: 1680 kg/km
- Approximate weight: 2650 kg/km
5G4
Nexans ref.
- Packaging: m
- Construction type: 5 G 4
- Outer Diameter as per Standard Min Max: 15.6 ... 19.9 mm
- Outer diameter acc Windturbines needs Min Max: 15.6 ... 18.5 mm
- Copper content: 192 kg/km
- Approximate weight: 430 kg/km
5G50
Nexans ref.
- Packaging: m
- Construction type: 5 G 50
- Outer Diameter as per Standard Min Max: 22.8 ... 28.6 mm
- Outer diameter acc Windturbines needs Min Max: 41.2 ... 46.5 mm
- Copper content: 2400 kg/km
- Approximate weight: 3750 kg/km
5G6
Nexans ref.
- Packaging: m
- Construction type: 5 G 6
- Outer Diameter as per Standard Min Max: 17.5 ... 22.2 mm
- Outer diameter acc Windturbines needs Min Max: 17.5 ... 20.5 mm
- Copper content: 288 kg/km
- Approximate weight: 540 kg/km
5G70
Nexans ref.
- Packaging: m
- Construction type: 5 G 70
- Outer Diameter as per Standard Min Max: 22.8 ... 28.6 mm
- Outer diameter acc Windturbines needs Min Max: 47.5 ... 53.5 mm
- Copper content: 3360 kg/km
- Approximate weight: 4950 kg/km
6G1.5
Nexans ref.
- Packaging: m
- Construction type: 6 G 1.5
- Outer Diameter as per Standard Min Max: 13.4 ... 17.2 mm
- Outer diameter acc Windturbines needs Min Max: 13.4 ... 16 mm
- Copper content: 86.4 kg/km
- Approximate weight: 295 kg/km
6G2.5
Nexans ref.
- Packaging: m
- Construction type: 6 G 2.5
- Outer Diameter as per Standard Min Max: 15.7 ... 20 mm
- Outer diameter acc Windturbines needs Min Max: 15.7 ... 18 mm
- Copper content: 144 kg/km
- Approximate weight: 390 kg/km
7G1.5
Nexans ref.
- Packaging: m
- Construction type: 7 G 1.5
- Outer Diameter as per Standard Min Max: 22.8 ... 28.6 mm
- Outer diameter acc Windturbines needs Min Max: 15 ... 18 mm
- Copper content: 100.8 kg/km
- Approximate weight: 350 kg/km
7G2.5
Nexans ref.
- Packaging: m
- Construction type: 7 G 2.5
- Outer Diameter as per Standard Min Max: 22.8 ... 28.6 mm
- Outer diameter acc Windturbines needs Min Max: 17 ... 20 mm
- Copper content: 168 kg/km
- Approximate weight: 460 kg/km
8x1.5
Nexans ref.
- Packaging: m
- Construction type: 8 x 1.5
- Outer Diameter as per Standard Min Max: 22.8 ... 28.6 mm
- Outer diameter acc Windturbines needs Min Max: 15.5 ... 18.5 mm
- Copper content: 115.2 kg/km
- Approximate weight: 400 kg/km
Description
Description
Standards
-
InternationalCENELEC HD22-12; EN 50525-2-21
Application
This cable is specially designed for Wind Turbines and to be used for the Loop .
Maximum torsion stress ± 150°/meter ( ± 100°/meter for 400mm²)
- Standard test : 2000 cycles
- Results : No copper wire broken
The quality of material used for insulation and sheathing and high quality copper conductors make the cables both flexible, durable, resistant to torsion and to high temperatures. Nexans offers more than a decade of experience in the wind energy market. Our expertise makes WINDLINK® cables highly recommended for wind turbines.
Main characteristics
- Frequent torsion: Excellent twisting behaviour
- Industrial cables resistant to high temperatures
- Heavy duty for industrial applications
- Operating voltage up to 1 kV for use in fixed protected installations
- Temperature on core: 90°C in normal use - 250°C in short circuit
- Water resistance: AD2, AD6
- Corrosive and polluting substances resistance: AF3
- Outdoor use: temporary and permanent
- Impact resistance: AG2
- Oil resistant ASTM/IRM 902 and special oils used in wind turbines
- UV resistant
- Ozone resistant
- Flame retardant (IEC 60332-1)
Design
1. Conductor
Flexible (fine wire class 5 acc. to IEC/EN 60228)
Annealed plain copper - Optional PET separator on core
2. Insulation
Special cross-linked EI7 rubber for high temperatures
Optional PET tape on insulation or assembling
3. Sheath
High mechanical performance, oil- and ozone resistant
Special cross-linked EM7 rubber improved for low temperature behaviour (-40°C)
Colour: black
Complementary technical data for WINDLINK® LV loop rubber cables
Electrical characteristics
Permissible current rating (see table):
Each cable has been tested to the following levels:
- Permanent temperature of operation on the core 90°C
- Ambient temperature for indoor installation 30°C
Correction factors for other ambient temperature:
According to IEC 60364-5-52 Table B.52.14
Ambient temperature (°C) | Correction factor |
10 | 1.15 |
15 | 1.12 |
20 | 1.08 |
25 | 1.04 |
30 | 1 |
35 | 0.96 |
40 | 0.91 |
45 | 0.87 |
50 | 0.82 |
55 | 0.76 |
60 | 0.71 |
The Voltage drop has been determined with cos φ= 0.8
Short circuit: constant K= 139 for 1 second calculated acc. to IEC 60949 (short circuit temperature +250°C and conductor temperature +90°C)
Usage characteristics
Bending radius:
Mobile use = 6 x External diameter
Static use = 3 x External diameter , if the external diameter < 12mm, 4 x External diameter, if the external diameter >12 mm.
Sheat oil resistance: good in mineral oils, gear and hydraulic oils
- Mineral oil ASTM/IRM 902, 24h at 100°C
- Gear box oil Tribol 1710/320 or equiv, 72h at 40°C
- Hydraulic oil Mobil DTE 13 M or equiv, 72h at 40°C
Characteristics
Characteristics
Construction characteristics
Construction characteristics
Electrical characteristics
Electrical characteristics
Mechanical characteristics
Mechanical characteristics
Usage characteristics
Usage characteristics
Resources
Resources
Documentation
Selling & delivery Information
Marking
WINDLINK® NEXANS 213 USE< HAR >H07BN4-F
Nb cores X (or G) S
X = without G/Y
G = with G/Y
S = cross section (mm2)
Batch n° + year of manufacture
meter marking
Insulated cores identification
• 1 core = Black (preferential)
• 2 cores = Brown + Blue
• 3 cores = Green/Yellow + Blue + Brown (G)
Brown + Black + Grey (X S>4mm²)
• 4 cores = Green/Yellow + Brown + Black + Grey (G)
Blue + Brown + Black + Grey (X S 1.5 & 2.5mm²)
• 5 cores = Green/Yellow + Brown + Black + Grey + Blue (G)
• >5 cores = black + white numbers (X) + G/Y (G)
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