Micro Tube Indoor Outdoor Drop Fiber optic Cable 24 cores for Building Wiring (GJPFXJH)
$1.44
Micro Tube Indoor Outdoor Drop Fiber optic Cable is a popular fiber cable in the market. The drop fiber cable uses multiple 900um flame-retardant tight buffer fibers as optical communication medium, two parallel Fiber Reinforced Plastic (FRP) are placed at the two sides as strength member, then the cable is completed with a flame-retardant LSZH (low smoke, zero halogen, flame-retardant) jacket.
Product Name: Indoor Drop Fiber optic Cable 28 cores flame-retardant LSZH Sheath;
Fiber Type: G657A2
Application:
- Used as access building cable in premises distribution system, especially used in indoor or outdoor aerial access cabling.
- Adopted to core network;
- access network, fiber to the home;
- Building to building installation;
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Micro Tube Indoor Outdoor Drop Fiber optic Cable is a popular fiber cable in the market. The drop fiber cable uses multiple 900um flame-retardant tight buffer fibers as optical communication medium, two parallel Fiber Reinforced Plastic (FRP) are placed at the two sides as strength member, then the cable is completed with a flame-retardant LSZH (low smoke, zero halogen, flame-retardant) jacket.
Features:
- Fiber type: ITU-T- G652D, G657A fiber, G657B fiber
- It has good mechanical and environmental performance
- Flame (or not flame retardant) performance to meet the requirements of the standard
- Mechanical and physical properties of the sheath to meet the relevant standards Soft, flexible and convenient
- Good structure design, easy for branching and splicing
- Small size and light weight, easy for installation
- LSZH sheath ensuring good flame-retardant performance
- Especially applicable to vertical wiring in buildings
Application:
- Used as access building cable in premises distribution system, especially used in indoor or outdoor aerial access cabling.
- Adopted to core network;
- access network, fiber to the home;
- Building to building installation
Transmission Characteristics: G657A2
| Characteristics | Conditions | Specified Values | Units |
| Geometrical characteristics | |||
| Cladding diameter | 125.0±0.7 | µm | |
| Cladding non-circularity | ≤0.7 | % | |
| Coating diameter | 242±5 | µm | |
| Coating/cladding concentricity error | <12 | µm | |
| Core/cladding concentricity error | ≤0.5 | µm | |
| Curl | ≥4 | m | |
| Optical characteristics | |||
| Attenuation | 1310nm | ≤0.4 | dB/km |
| 1383nm | ≤0.4 | dB/km | |
| 1490nm | ≤0.3 | dB/km | |
| 1550nm | ≤0.3 | dB/km | |
| 1625nm | ≤0.3 | dB/km | |
| Attenuation vs. Wavelength max. A difference | 1285~1330nm | ≤0.03 | MHz*km |
| 1525~1575nm | ≤0.02 | MHz*km | |
| Dispersion coefficient | 1550nm | ≤18 | ps/(nm*km) |
| 1625nm | ≤22 | ps/(nm*km) | |
| Zero dispersion wavelength | 1304~1324 | nm | |
| Zero dispersion slope | ≤0.092 | ps/(nm2*km) | |
| Polarization mode dispersion | |||
| PMD maximum individual fibre | ≤0.1 | ps/km1/2 | |
| PMD design link value | ≤0.04 | ps/km1/2 | |
| Cable cut off wavelength | ≤1260 | nm | |
| Mode field diameter | 1310nm | 8.8~9.6 | µm |
| 1550nm | 9.9~10.9 | µm | |
| Group index of refraction | 1310nm | 1.4691 | |
| 1550nm | 1.4696 | ||
| Environmental characteristics | 1310nm、1550nm&1625nm | ||
| Temperature cycling | -60℃ to +85℃ | ≤0.05 | dB/km |
| Temperature-humidity cycling | -10℃ to +85℃4% to 98% RH | ≤0.05 | dB/km |
| Water immersion | 23℃, 30 days | ≤0.05 | dB/km |
| Dry heat | 85℃, 30 days | ≤0.05 | dB/km |
| Damp heat | 85℃, 85%RH, 30 days | ≤0.05 | dB/km |
| Mechanical specification | |||
| Proof test | ≥100 | kpsi | |
| Macro bending induced loss | |||
| 1Turns @10mm Radius | 1550nm | ≤0.5 | dB |
| 1Turns @10mm Radius | 1625nm | ≤1.5 | dB |
| 10Turns @15mm Radius | 1550nm | ≤0.05 | dB |
| 10Turns @15mm Radius | 1625nm | ≤0.30 | dB |
| 100Turns @25mm Radius | 1310&1550&1625 nm | ≤0.01 | dB |
| Dynamic stress corrosion susceptibility parameter | 20 | ||