Indoor Multimode Breakout Fiber Optic Cable
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Product Details:
| Model Number | OM3-IB-XX |
|---|---|
| Minimum Order Quantity: | 1 Kilometer/Kilometers |
| Packaging Details: | 2km/roll |
Detailed Product Description
RoHS PVC/LSOH Jacket
Ease of stripping
OM3 50/125um breakout indoor fiber
Anti-corrosion/water/ultraviolet radiation
Indoor Multimode Breakout Fiber Optic Cable
Fiber optic cables are qualified to meet or exceed the TIA/EIA-568 Commercial Building Telecommunications Wiring Standard. Distribution and interconnect fiber optic cables can all be used in commercial buildings, in a variety of applications and they are either riser-rated (UL OFNR/CSA FT4) or plenum-rated (UL OFNP/CSA FT6).
Indoor Multimode Breakout Fiber Optic Cable
Features
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Semi tight buffer fibre ease of stripping
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Aramid yarn as strength member make cable have excellent tensile strength
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Excellent performance of anti-torsion
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The outer jacket material have many advantages such as anti-corrosion, anti-water, anti-ultraviolet radiation, flame-retardant and harmless to environment etc.
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All dielectric structure protect it from
Electrical Characteristics:
| Geometry Characteristics | ||
| Core Diameter(μm) | 50±2.5 | |
| Core Non-Circuarity(%) | ≤5.0 | |
| Cladding Diameter(μm) | 125.0±1.0 | |
| Cladding Nom-Circularity(%) | ≤1.0 | |
| Coating Diameter(μm) | 245±7 | |
| Coating/Cladding Concentricity Error(μm) | ≤12.0 | |
| Coating Non-Circularity(%) | ≤6.0 | |
| Core/Cladding Concentricity Error(μm) | ≤1.0 | |
| Delivery Length(km/reel) | Up to 8.8 | |
| Optical Characteristics | ||
| Attenuation(dB/km) | 850nm | ≤2.3 |
| 1300nm | ≤0.6 | |
| OFL Bandwidth(MHz km) | 850nm | ≥1500 |
| 1300nm | ≥500 | |
| Effective Model Bandwidth@850nm(MHz.km) | ≥2000 | |
| Application support distance on | ||
| 10 Gigabit Ethemet SX 850nm(m) | 300 | |
| Gigabit Ethernet SX 850nm(m) | 1000 | |
| Gigabit Ethernet LX 1300(m) | 600 | |
| 40 & 100 Gigabit Ethernet 850nm(m) | 100 | |
| DMD Speciflction | See Note 1 | |
| Numerical Aperture | 0.200±0.015 | |
| Group Refractive lndex | 850nm | 1.484 |
| 1300nm | 1.477 | |
| Zero Dispersion Wavelength(nm) | 1295-1320 | |
| Zero Dispersion Slope(ps/(nm2.km) | 1295-1300nm | ≤0.001 |
| 1300-1320nm | ≤0.11 | |
| Macrobending induced loss | 850nm | ≤0.50 |
| 100 tums @ 30mm radius | 1300nm | ≤0.50 |
| Backscatter Characteristics(1300nm) | ||
| Step(Mean of bldirectional measurement)(dB) | ≤0.10 | |
| Lrreguarities over fibre length and point discontinuity(dB) | ≤0.10 | |
| Attenuation uniformity(dB/km) | ≤0.08 | |
| Environmental Characteristics(850nm&1300nm) | ||
| Temperature dependence lnduced attenuation | ||
| at-60°Cto+85°C(dB/km) | ≤0.10 | |
| Temperature-humidity cycling induced attenuation | ||
| at-10°Cto+85°C,98%RH (dB/km) | ≤0.10 | |
| Watersoak dependence induced attenuation | ||
| at 23°Cfor 30 days (dB/km) | ≤0.10 | |
| Damp heat dependence induced attenuation | ||
| at85°C and 85% RH,for 30days (dB/km) | ≤0.10 | |
| Dry heat aging at 85°C(dB/km) | ≤0.10 | |
| 1.DMD speciflcations are copmliant with and more stringent than the requlrementof IEC 60793-2-10and TIA-492AAAC | ||
Material:
Jacket material: RoHSPVC, LSOH
Fiber Type Option:
- OS1-9/125 G-652.D Single mode fiber
- OM1-62.5/125 Multimode fiber
- OM2-50/125 Multimode fiber
- OM3-50/125 Multimode fiber
- OM4-50/125 Multimode fiber