Optical fiber cable

QFCI-I/O/RM-JM

Download Datasheet PDF QFCI-I/O/RM-JM Armoured SHF1 or SHF2 Indoor and outdoor, loose tube 4, 8 , 12, 24 or 48... read more

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QFCI-I/O/RM-JM

Armoured SHF1 or SHF2 Indoor and outdoor, loose tube
4, 8 , 12, 24 or 48 fibers

Construction:
No. of fiber:
2 1-Red (with 2-OF) 2-Filler 4-Filler 5-Filler
3-Filler 6-Filler
4 1-Red (with 2-OF)
2-Green (with 2-OF)
4-Filler 5-Filler
3-Filler 6-Filler
8 1-Red (with 4-OF)
2-Green (with 4-OF)
4-Filler 5-Filler
3-Filler 6-Filler
12 1-Red (with 4-OF)
2-Green (with 4-OF)
4-Filler 5-Filler
3-Natural (with 4-OF) 6-Filler
24 1-Red (with 6-OF)
2-Green (with 6-OF)
4-Nat. (with 6-OF) 5-Filler
3-Natural (with 6-OF) 6-Filler
48 1-Red (with 12-OF)
2-Green (with 12-OF)
4-Nat. (with 12-OF) 5-Filler
3-Natural (with 12-OF) 6-Filler
Loose tube diam.: 2.2mm
Color of fiber 1-white         4-green
2-red            5-blue
3-yellow        6-grey
7-brown        10-turquise
8-black         11-orange
9-violet         12-pink
Inner Jacket:           Black SHF1 Ø=10,1mm Armour alt. 1:
Galvanised steel wire braid Armour alt. 2:           Tinned
copper wire braid Armour alt. 3:           Bronze wire braid
Outer Jacket:           Black or orange SHF1 or SHF2 Ø=13.5mm
Weight:                    260 kg/km
Application:
Optical cable for indoor and outdoor use in vital communication  and emergency systems that need to be operational during fire.  The cable is designed to ensure operation for more than 3 hours in fires up to 1000ºC. The cable is halogen free and flame retardant to protect against secondary damage to electronic equipment during and after fire. Outer sheath is made from black or orange UV- stabilized and weather resistant material and may be exposed for
shorter periods to fluids such as diesel, petrol, glycol, ethanol, white sprite and ASTM oil 2. The resistance to these fluids is according
to DOD-STD-1678, method 8030.The cable is reinforced with a steel wire braiding. The fibres 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. The outer
sheath is marked to show fibre type and cable type.
Specifications:
Temperature installed:                        -40 to +70  [°C] Temperature @ installation:               -10 to +60  [°C] Tensile installed (IEC 60794-1-2E1):                         500  [N]
Tensile @ installation:                                 1500  [N]
Crush (IEC 60794-1-2E3):                                          3000  [N/10cm] Impact (IEC 60794-1-2E4):                                              30  [J]
Torsion (IEC 60794-1-2E7):                                             ±1  [turn/m]
Min.bending diam. fixed:                                 15  x outer diam
Min.bending diam. flexible:                             20  x outer diam
Norms SHF1 and SHF2:
Chemical resistance:  IEC 60811-2-1 (Mineral oils) Fire and smoke:          IEC 60331-25, BP-236, IEC 61034
IEC 60332-3 catA and C, IEC 60754-1, IEC 60754/2
Norms SHF2 only:
Oil reistant:                 IRM 902 (IEC 60811-404)
Ozone resistant:         IRV 902 (IEC 60811-403)
Approval: DNV CERTIFICATE NO. E-11775
Date                 Rev.
16.03.2015      1               Armour
Multimode fibres MM 62.5
IEC 60793-2-10
Type A1b Telecordia GR-20-core
MM 62.5 OM1+
HiCap
MM50 ITU-T G651.1
IEC 60793-2-10
Type A1a.1 Telecordia GR-20-core
MM50-OM3 ISO/IEC 11801
IEC 60793-2-10
Type A1a.2 Telecordia GR-20-core
MM50-OM4
ISO/IEC 11801
IEC 60793-2-10
Type A1a.2 Telecordia GR-20-core
ITU-T type G 651
Core Diameter mm 62.5 ± 2 62.5 ± 2 50 ± 2 50 ± 2 50 ± 2
Core non-circularity % <_ 5 <_ 5 <_ 5 <_ 5 <_ 5
Cladding Diameter mm 125 ± 1,0 125 ± 1,0 125 ± 1,0 125 ± 1,0 125 ± 1,0
Coating Diameter mm 245 ± 5 245 ± 5 242 ± 5 242 ± 5 242 ± 5
Cladding non-circularity % 0,7 0,7 0,7 0,7 0,7
Core/cladding concentricity error mm <_ 1,0 <_ 1,0 <_ 1,0 <_ 1,0 <_ 1,0
Coating/cladding concentricity error mm <_ 10 <_ 10 <_ 6 <_ 6 <_ 6
Numerical Aperture mm 0.275 ± 0.015 0.275 ± 0.015 0.200 ± 0.015 0.200 ± 0.015 0.200 ± 0.015
Proorf test kpsi >_ 100 >_ 100 >_ 100 >_ 100 >_ 100
Attenuation
Bandwith
at 850 nm db/km (max) <_ 3,5 <_ 2,8 <_ 2,8 <_ 2,8 <_ 2,8
at 1300 nm db/km (max) <_ 1,0 <_ 0,7 <_ 0,8 <_ 0,8 <_ 0,8
at 850 nm MHz x km >_ 200 >_ 250 >_ 500 >_ 1500 >_ 3500
at 1300 nm MHz x km >_ 500 >_ 1000 >_ 500 >_  500 >_  500
1 G BASE Ethernet SX 850 nm m 275 500 600 1000 1100
1 G BASE Ethernet LX 1300 nm m 550 1000 550 550 600
1 G BASE SR 850nm m 35 65 86 300 550
1 G BASE LX4 1300 nm m 300 450 300 300 300
Single mode fibres
Single mode SMR 9/125/250 Single mode SMR LWP 9/125/250 Non-zero Dispersion Single mode
ITU-T type G652.B G652.D G655 G654
Mode Field diameter
(MDF)
at 1310 nm
at 1550 nm
mm
mm
9.2 ± 0.4
9.2 ± 0.4

9.2 ± 0.5

12 ± 0.5
Cladding Diameter mm 125 ± 1 125 ± 0.7 125 ± 1 125 ± 1
Coating Diameter mm 245 ± 10 245 ± 5 245 ± 10 245 ± 10
at 1310 nm db/km (max) <_ 0.38 <_ 0.35
Attenuation at 1383 nm
at 1550 nm
db/km (max)
db/km (max)

<_ 0.25
<_ 0.33
<_ 0.25

<_ 0.25

<_ 0.19
at 1625 nm db/km (max) <_ 0.28 <_ 0.28 <_ 0.21
Zero dispersion wavelength l0 1302 – 1322 1302 – 1322
Chromatic Disper-
sion
at 1285 –
1330nm
ps/nm x km <_ 0.35 <_ 0.35
at 1550 nm ps/nm x km <_ 18.0 <_ 18.0
at 1530 –
1565 nm
ps/nm x km 5.5 to 10.0 22
at 1565 –
1625 nm
ps/nm x km 7.5 to 13.0
PDM at 1550 nm ps/vkm <_ 0.20 <_ 0.20
1 G BASE Ethernet SX 1310 nm m 10000 10000
1 G BASE Ethernet LX 1550 nm m 40000 40000
1 G BASE SR 1310nm m 10000 10000
1 G BASE LX 1550 nm m 40000 40000