GJFJH(GJYFJH/GJYFJCH) non-metallic strength member, LSZH sheath, non-self-supporting round optical drop cable (or self-supporting round optical drop cable), the optical cable is directly covered with high bonding strength outside the single-mode or multi-mode fiber The tight sleeve material is made of tight sleeve fiber, which uses high-strength aramid as the strengthening element, and is made by extruding a layer of LSZH on the outside. The structure of the self-supporting circular optical drop cable is to increase the metal steel strand suspension wire.
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Description
GJFJH(GJYFJH/GJYFJCH) non-metallic strength member, LSZH sheath, non-self-supporting round optical drop cable (or self-supporting round optical drop cable), the optical cable is directly covered with high bonding strength outside the single-mode or multi-mode fiber The tight sleeve material is made of tight sleeve fiber, which uses high-strength aramid as the strengthening element, and is made by extruding a layer of LSZH on the outside. The structure of the self-supporting circular optical drop cable is to increase the metal steel strand suspension wire.
Technical data
| No. of cable | 12 | |||
| Fiber Model | OM3 | |||
| Tight lines | Material | LSZH | ||
| Thickness(±0.03)mm | 0.32 | |||
| Diameter(±0.06)mm | 0.9 | |||
| Strength Member | Material | Aramid Yarn | ||
| Outer Sheath | Material | LSZH | ||
| Thickness(±0.2)mm | 1.0 | |||
| Colour | violet | |||
| Cable Diameter(±0.2)mm | 6.2 | |||
| Cable Wetght(±5)kg/km | 40 | |||
| Attenuation | 1310nm | dB/km | 0.4 | |
| 1550nm | 0.3 | |||
| Allowable Tensile Strength | Short Term | N | 660 | |
| Long Term | 200 | |||
| Allowable Crush Resistance | Short Term | N/100mm | 1000 | |
| Long Term | 200 | |||
| Min. bending radius | Without Tension | 10.0×Cable-φ | ||
| Under Maximum Tension | 20.0×Cable-φ | |||
| Temperature range (℃) |
Installation | -20~+60 | ||
| Transport&Storage | -40~+70 | |||
| Operation | -40~+70 | |||
Tight lines Colours
| NO. | 1 | 2 | 3 | 4 | 5 | 6 |
| Colour | Blue | orange | green | brown | gray | white |
| 7 | 8 | 9 | 10 | 11 | 12 | |
| red | black | Yellow | Violet | Pink | Aqua | |
Main mechanical & environmental performance test
| Characteristic | Characteristic | Characteristic | Characteristic |
| Optical properties | |||
| Attenuation | 1310nm 1550nm 1625nm |
≤0.35 ≤0.21 ≤0.23 |
dB/km dB/km dB/km |
| Attenuation Value | 1310~16250nm | ≤0.035 | dB/km |
| Difference attenuation between | 1285~1310nm 1310nm 1525~1575nm 1550nm 1480~1580nm 1550nm |
≤0.03 ≤0.02 ≤0.04 |
dB/km dB/km dB/km |
| Macro bending sensibility | @1550nm @1625nm @1550nm @1625nm |
≤0.25 ≤1.0 ≤0.75 ≤1.5 |
Radius 15mm, 10 circle Radius 15mm, 10 circle Radius 10mm, 1 circle Radius 10mm, 1circle |
| Zero dispersion wavelength | 1300~1324 | nm | |
| A zero-dispersion slope | ≤0.092 | ps/(nm2.km) | |
| dispersion conefficient | @1285-1340nm @1550nm @1625nm |
-3.4-3.4 ≤18.0 ≤22.0 |
ps/(nm2.km) |
| Cable cut-off wavelength(λcc) | ≤1260 | nm | |
| Mode field diameter (MFD) | 1310nm 1550nm |
8.4-9.2 9.3-10.3 |
μm μm |
| Attenuation discontinuities | 1310nm 1550nm |
≤0.05 ≤0.05 |
dB dB |
| Geometric characteristics | |||
| Core diameter | 0.7 | μm | |
| Cladding Diameter | 125±0.7 | ||
| Cladding roundness | ≤0.7 | % | |
| Coating diameter | 245±7 | μm | |
| Coating / packagae concentricity error | ≤12.0 | ||
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