China FTTH Drop Cables 1 Core/2 Core/4 Core/6 Core, Figure 8 Drop Cables, Find details about China FTTH Drop Cable, Drop Cable from FTTH Drop Cables 1 Core/2 Core/4 Core/6 Core, Figure 8 Drop Cables
Telecommunication FTTH Indoor Fiber Optic Cable
1. Recommended Laying Methods:
Used as access building cable
Used in indoor cabling, especially used for FTTH.
2. Structure Characters:
Good mechanical and environmental characteristics.
Flame retardant characteristics meet the requirements of relevant standard.
The mechanical characteristics meet the requirements of relevant standard.
Soft, flexible, easy to lay and splice, and with big capacity data transmission.
Meet various requirements of market and clients.
3. Technical Data:
Fiber Counts | Cable Dimension (mm) | Cable Weight (kg/km) | Tensile (N) | Crush (N/100mm) | Min.Bend radius (mm) | Range of Temperature (co) | |||
Long Term | Short Term | Long Term | Short Term | Dynamic | Static | ||||
1-2 | 3.1*2.0 | 8.2 | 60/100 | 100/ 200 | 500/ 1000 | 1000/ 2000 | 20H | 10H | -20~+60 |
|
ITEMS | UNITS | SPECIFICATION |
Attenuation | dB/km | ≤0.4 at 1310nm ≤0.3 at 1550nm |
Chromatic Dispersion | ps/nm.km | ≤3.5 at 1285nm ~ 1330nm ≤18.0 at 1550nm |
Zero Dispersion Wavelength | nm | 1300 ~ 1324 |
Zero Dispersion Slope | ps/nm2.km | ≤0.095 |
Cut-off Wavelength (λcc, 22m of a cabled fiber) | nm | ≤1260 |
Mode Field Diameter | um | 9.2±0.5 |
Mode Field Concentricity | um | ≤0.8 |
Cladding Diameter | um | 125±1.0 |
Cladding Non-circularity | % | ≤1.0 |
Coating cladding concentricity error | um | ≤12.5 |
Coating Diameter | um | 245±10 |
Bending loss (Bare fiber) Radius :7.5mm x 1 turn | dB | ≤0.5 at 1550nm |
Proof Test | kpsi | ≥100 |