Fiberoptical cable for the oil- and offshore industry, commercial marine wessels and other harsh environments. The cable has excellent communication properties and is tested to be operative in at least 90 min. at 1000°C which means that it can maintain vital communication in case of a fire situation. The fibers are protected in jelly filled loose tubes stranded around a central strength member to ensure optimum performance and long life. Each fiber and loose tube is color coded for easy identification during splicing and termination.
Construction Fiber
MM or SM
TIA 598 1 - Blue 2 - Orange 3 - Green 4 - Brown
5 - Grey 6 - White 7 - Red 8 - Black
9 - Yellow 10 - Violet 11 - Pink 12 -Turquoise
Loose tube
(acc. TIA 598) 1 - Blue 2 - Orange 3 - Green 4 - Brown Passive tubes - Black
Reinforced fibreglass yarns (WB)
(water blocking)
LSZH compound
Ø = 11.0 [mm]
Mica tape
, each tube
QFCI: Galvanized steel wire braid QFOI: Tinned Cu-wire braid
Black
LSZH compound
SHF1
15,0 ± 0,5 [mm]
Specifications fiber
-40 – +70 [°C]
-10 – +70 [°C]
-40 – +70 [C°]
500 [N] (operation)
2000 [N] (installation)
(IEC 60794-1-21 E1)
3000
[N/10cm]
, (IEC 60749-1-21 E3)
5
[ J ]
, (IEC 60749-21 E4)
20
[x outer diam]
, (IEC 60749-1-21 E11)
Norms
IEC 60754-1 & IEC 60754-2
NEK TS 606 F1
NEK 606 F1
IEC 60332-3-22
IEC 60332-1
IEC 60331-25
(PH 120 @ 830°C)
IEC 61034-1 & IEC 61034-2
Mineral oils: IRM 902 (IEC60811-2-1) 4h @ 70°C Diesel: IRM 903 (IEC60811-2-1) 4h @ 70°C
ISO 4892-2-A: 720hours
DNV
Fiber data
Properties | MM 62.5 OM1 | MM 50 OM2 | MM 50 OM3 | MM 50 OM4 |
---|---|---|---|---|
Core Diameter | 62.5 ± 2.5 μm | 50 ± 2.5 μm | 50 ± 2.5 μm | 50 ± 2.5 μm |
Core non-circularity | < 5% | < 5% | < 5% | < 5% |
Cladding diameter | 125 ± 1.0 μm | 125 ± 1.0 μm | 125 ± 1.0 μm | 125 ± 1.0 μm |
Coating diameter | 242 ± 5 μm | 242 ± 5 μm | 242 ± 5 μm | 242 ± 5 μm |
Cladding non-circularity | <0.7% | <0.7% | <0.7% | <0.7% |
Core/Cladding concentricity error | <1 μm | <1 μm | <1 μm | <1 μm |
Coating/cladding concentricity error | <10 μm | <6 μm | <6 μm | <6 μm |
Numerical Aperture | 0.275 ± 0.015 μm | 0.200 ± 0.015 μm | 0.200 ± 0.015 μm | 0.200 ± 0.015 μm |
Attenuation @ 850 nm | <3.50 db/km | <2.89 dB/km | <2.89 dB/km | <2.89 dB/km |
Attenuation @1300 nm | <1.00 dB/km | <0.80 dB/km | <0.80 dB/km | <0.80 dB/km |
Bandwidth @ 850 nm | >200 MHz*km | >500 MHz*km | >1500 MHz*km | >3500 MHz*km |
Bandwidth @ 1300 nm | >500 MHz*km | >500 MHz*km | >500 MHz*km | >500 MHz*km |
Effective Modal Bandwidth (EMB)@ 850 nm | - | - | >2000 MHz*km | >4700 MHz*km |
Fibre capacity 10GBase-SR | 33 m | 83 m | 300 m | 550 m |
Fibre cap. 40GBase-SR4/100BaseRS10 | 274 m | 600 m | 1000 m | 1100 m |
Fibre cap. 40GBase-SR4/100BaseRS10 | - | - | 140 m | 170 m |
Proof test | >100kpsi | >100kpsi | >100kpsi | >100kpsi |
Properties | SMR ITU-T G652D | SMR ITU-T G657A | SMR ITU-T G657B / -B2 | SMR NZD ITU-T G655.E |
---|---|---|---|---|
Mode field Diameter @ 1310 nm | 9,0±0,4 μm | 9,0±0,4 μm | 8,90±0,4 μm | - |
Mode field Diameter @ 1550 nm | 10,1±0,5μm | 10,1±0,5μm | 9,9±0,5μm | 9,2±0,5μm |
Cladding diameter | 125±0,7µm | 125±0,7µm | 125±0,7µm | 125±1,0µm |
Coating diameter | 242±7 μm | 242±7 μm | 242±7 μm | 242±7 μm |
Cladding non-circularity | ≤ 0,7 % | ≤ 0,7 % | ≤ 0,7 % | ≤ 0,7 % |
Core/Cladding concentricity error | ≤ 0,5 μm | ≤ 0,5 μm | ≤ 0,5 μm | ≤ 0,5 μm |
Coating/cladding concentricity error | ≤ 12 μm | ≤ 12 μm | ≤ 12 μm | ≤ 12 μm |
Cable Cut off wavelength | ≤ 1260 nm | ≤ 1260 nm | ≤ 1260 nm | ≤ 1300 nm |
Zero dispersion wavelength (λ0) | 1300-1322 μm | 1300-1322 μm | 1300-1324 μm | ≤ 1440 nm |
Dispersion slope (S0) @ (λ0) | ≤ 0,090 ps/(nm² * km) | ≤ 0,090 ps/(nm² * km) | ≤ 0,092 ps/(nm² * km) | - |
Chromatic dispersion @ 1285 – 1330 nm | ≤ 3,5 ps/(nm * km) | ≤ 3,5 ps/(nm * km) | - | - |
Chromatic dispersion @ 1550 nm | ≤ 18 ps /(nm * km) | ≤ 18 ps /(nm * km) | - | - |
Chromatic dispersion @ 1625 nm | ≤ 22 ps/(nm * km) | ≤ 22 ps/(nm * km) | - | - |
Chromatic dispersion @ 1530 – 1565 nm | - | - | - | 5,5 ÷ 10 ps/(nm * km) |
Chromatic dispersion @ 1565 – 1625 nm | - | - | - | 7,5 ÷ 13,8 ps/(nm * km) |
PMD @ 1550 nm | ≤ 0,1 ps/√ km | ≤ 0,1 ps/√ km | ≤ 0,1 ps/√ km | ≤ 0,2 ps/√ km |
Attenuation @ 1310 nm | ≤ 0,35 dB/km | ≤ 0,35 dB/km | ≤ 0,35 dB/km | ≤ 0,40 dB/km |
Attenuation @ 1383nm | ≤ 0,35 dB/km | ≤ 0,35 dB/km | ≤ 0,35 dB/km | ≤ 1,0 dB/km |
Attenuation @ 1550 nm | ≤ 0,25 dB/km | ≤ 0,25 dB/km | ≤ 0,25 dB/km | ≤ 0,25 dB/km |
Attenuation @ 1625 nm | ≤ 0,28 dB/km | ≤ 0,28 dB/km | ≤ 0,28 dB/km | ≤ 0,28 dB/km |
Attenuation with bending: | ||||
Mandreal Radius 15mm @1550 10 turns | - | ≤ 0,25 dB | ≤ 0,03 dB | - |
Mandreal Radius 15mm @1625 10 turns | - | ≤ 1,0 dB | ≤ 1,0 dB | - |
Mandreal Radius 10mm @1550 1 turn | - | ≤ 0,75 dB | ≤ 0,1 dB | - |
Mandreal Radius 10mm @1625 1 turn | - | ≤ 1,5 dB | ≤ 0,2 dB | - |
Mandreal Radius 7,5mm @1550 1 turn | - | - | ≤ 0,5dB | - |
Mandreal Radius 7,5mm @1625 1 turn | - | - | ≤ 01,0dB | - |
Proof test | ≥ 100 kpsi | ≥ 100 kpsi | ≥ 100 kpsi | ≥ 100 kpsi |
Number of fibers | Number of fiber per tube | Weight [kg/km] |
---|---|---|
4 - 9/125 | 4 | 290 |
8 - 9/125 | 8 | 291 |
12 - 9/125 | 12 | 291 |
24 - 9/125 | 12 | 305 |
48 - 9/125 | 12 | 331 |
4 - 62,5/125 | 4 | 290 |
8 - 62,5/125 | 8 | 291 |
12 - 62,5/125 | 12 | 291 |
24 - 62,5/125 | 12 | 305 |
48 - 62,5/125 | 12 | 331 |
4 - 50/125 OM3 | 4 | 290 |
8 - 50/125 OM3 | 8 | 291 |
12 - 50/125 OM3 | 12 | 291 |
24 - 50/125 OM3 | 12 | 305 |
48 - 50/125 OM3 | 12 | 331 |
4 - 50/125 OM2 | 4 | 290 |
8 - 50/125 OM2 | 8 | 291 |
12 - 50/125 OM2 | 12 | 291 |
24 - 50/125 OM2 | 12 | 305 |
4 - 50/125 OM4 | 4 | 290 |
8 - 50/125 OM4 | 8 | 291 |
12 - 50/125 OM4 | 12 | 291 |
24 - 50/125 OM4 | 12 | 305 |
Updated
Date | Rev. | Description |
---|---|---|
04.12.2019 | 1 | Rev. |
17.11.2023 | 2 | Tensil strength |
13.12.2024 | 3 | Additional info |