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Bend Insensitive 10Gb Multi-mode Fiber -OM5
OM5
Bend Insensitive 10Gb Multi-mode Fiber -OM5
| Next Generation Multimode Optical Fiber (OM5) | |||
| Features | Conditions | Value | Unit |
| Optical Requirements | |||
| Attenuation | 850nm | ≤2.5 | dB/km |
| 953nm | ≤1.8 | dB/km | |
| 1300nm | ≤0.8 | dB/km | |
| Bandwidth | 850nm | ≥3500 | MHz·km |
| 953nm | ≥1850 | MHz·km | |
| 1300nm | ≥500 | MHz·km | |
| Effective Bandwidth | 850nm | ≥4700 | MHz·km |
| 953nm | ≥2470 | MHz·km | |
| Numerical Aperture | - | 0.20±0.015 | - |
| Effective Group Index Of Refraction(Neff ) | 850nm | 1.475 | - |
| 1300nm | 1.473 | - | |
| DMD | - | complies with or exceeds IEC 60793-2-10 | - |
| Zero Dispersion Wavelength | - | 1297~1328 | nm |
| Zero Dispersion Slope | 1295~1310nm | ≤0.105 | ps/(nm2·km) |
| 1310~1340nm | S0≤ 4 (–103) / 840(1–(λ0/840)4) | ps/(nm2·km) | |
| Point Discontinuities | 1300nm | ≤0.10 | dB |
| Geometrical Requirements | |||
| Core Diameter | - | 50±2.5 | μm |
| Core Non-Circularity | - | ≤5.0 | % |
| Cladding Diameter | - | 124.5±1 | μm |
| Cladding Non-Circularity | - | ≤1.0 | % |
| Core-Cladding Concentricity Error | - | ≤1.5 | μm |
| Coating Diameter | - | 245±7 | μm |
| Coating-Cladding Concentricity Error | - | ≤10 | μm |
| Environmental Requirements(850nm & 1300nm) | |||
| Temperature Dependence | -60℃~+85℃ | ≤0.1 | dB/km |
| Water-Soaked Dependence | 23℃, for 30 days | ≤0.1 | dB/km |
| Damp Heat Dependence | 85℃ and 85% RH, for 30 days | ≤0.1 | dB/km |
| Dry Heat | 85℃, for 30 days | ≤0.1 | dB/km |
| Mechanical Requirements | |||
| Proof Test | - | ≥9.0 | N |
| Macro-Bend Induced Attenuation | 850nm | ≤0.1 | dB |
| 2 turns Ф 30mm | 1300nm | ≤0.3 | dB |
| Macro-Bend Induced Attenuation | 850nm | ≤0.2 | dB |
| 2 turns Ф15mm | 1300nm | ≤0.5 | dB |
| Coating Strip Force | Typical Average Force | 1.0~5.0 | N |
| Peak Force | 1.3~8.9 | N | |
| Delivery Length | 1.1~8.8 | km/reel | |
Application
FiberHome multimode optical fiber (OM5) can maximally support current and emerging high-speed Ethernet, fiber channel and fiber optic interconnection applications. In the data center design, it can fully support higher-speed (100Gb/s and 400Gb/s Ethernet, 16Gb/s and 32Gb/s Fiber Channel) data transmission requirements.
Characteristics
Suited to applications in 10 gigabit ethernet and higher bit-rat systems
Precise control of refractive index profile
Designed for use at 850nm and 1300nm, while supporting 850-950nm short-wavelength transmission
Good protection by dual layer UV coating
Excellent strip force stability
Lower macro-bending loss
Good mechanical and environmental performance