Customization: | Available |
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Application: | Communication, Optical Fiber |
Type: | Fiber Optic Cable |
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Cable Type | Central Loose Tube fiber optic cable GYXTW |
Fiber Type | SM G.652D |
Application | Long-distance communication, LAN |
Recommended installation methods | Aerial |
Environment | Outdoor |
Temperature Range | -40ºC to 70ºC |
Technical parameter of ITU-T G.652D (B1.3) single-mode optical fiber | |||
Characteristics | Conditions | Specified Values | Units |
Optical Characteristics | |||
Mode field diameter (MFD) | 1310nm 1550nm |
9.2±0.4 10.4±0.8 |
µm µm |
Cut-off wavelength (λcc) | ≤1260 | nm | |
Attenuation coefficient | 1310nm 1383nm 1550nm |
<0.35 <0.35 <0.22 |
dB/km dB/km dB/km |
Macro bending loss | φ75mm, 100circles, at 1550nm | ≤0.1 | dB |
Attenuation non-uniformity | ≤0.05 | dB | |
Dispersion coefficient | 1288~1339nm 1271~1360nm 1550nm |
≤3.5 ≤5.3 ≤18 |
Ps/(nm.km) Ps/(nm.km) Ps/(nm.km) |
Zero dispersion wavelength | 1300~1324 | nm | |
Max zero dispersion slope | ≤0.093 | Ps/(nm2.km) | |
Group index of refraction (typical value) | 1310nm 1550nm |
1.466 1.467 |
|
Geometric characteristic | |||
Cladding diameter | 125.0±1.0 | µm | |
Core/cladding concentricity error | ≤0.8 | µm | |
Cladding non-circularity | ≤1.0 | % | |
Coating diameter | 245.0±10 | µm | |
Cladding/coating concentricity error | ≤12.0 | µm | |
Coating non-circularity | ≤8 | % | |
Diameter of colored coating | 250.0±15 | µm | |
Mechanical characteristic | |||
Curling (radius) | ≥4 | m | |
Proof stress | >0.69 | Gpa | |
Coating strip force | Average value Peak value |
1.0-5.0 1.3-8.9 |
N N |
Dynamic stress corrosion susceptibility parameter (nd value) | ≥20 |
Item | Description | |
Model No | GYXTW | |
1. Fiber count | 4-18 | 20-24 |
2. Cable Diameter | 7.4±0.2mm | 8.0±0.2mm |
3. Cable Weight | 56KG | 69KG |
4. Loose Tube | ||
-Material | PBT | |
-Outer diameter | 2.0 mm | 2.6mm |
-Thickness | 0.3mm | |
-Type of filling compound | Jelly | |
5.Strength member | ||
-Material | Steel wire | |
-Outer diameter | 1.0 mm | |
-Number | 2 pcs | |
6.Armor | ||
-Material | Corrugated steel tape | |
7. Water-blocking system | ||
-Material | Filling Compound | |
8.Outer Sheath | ||
-Material | HDPE | |
-Thickness | 1.8mm±0.2mm | |
9. Sheath marking | ||
-Type of marking | Laser printing |
Item | Testing | Test Method | Test Result |
1 | Tensile strength IEC 60794-1-E1 |
Long-term:1500N Short-tern: 600N Cable length: ≥50m |
Loss change≤0.1dB@1550nm No fiber break and no sheath damage |
2 | Impact IEC 60794-1-E4 |
Height: 1m Weight: 1kg Impact spot: ≥5 Impact cycle: at lease 3 cycle per spot |
Loss change≤0.1dB@1550nm No fiber break and no sheath damage |
3 | Repeated Bending IEC 60794-1-E6 |
Bending diameter: 25X the cable outer diameter Applied load: 25kg Bending cycle: 30times Bending speed: 1 cycle per 2s |
Loss change≤0.1dB@1550nm No fiber break and no sheath damage |
4 | Torsion IEC 60794-1-E7 |
Torsion length: 1m Applied load: 25kg Torsion angle: ±90 or +180 Twist cycle: ≥10 times |
Loss change≤0.1dB@1550nm No fiber break and no sheath damage |
5 | Water Penetration IEC 60794-1-F5B |
Water height: 1m Cable length: 3m Keeping time: 24hours |
No water leaked from the opposite end of cable |
6 | Temperature IEC 60794-1-F1 |
Temperature step:+20°C->-40°C°C >+70°C->+20°C Keeping time: 24hours per each step Cycle:2times |
Loss change≤0.1dB@1550nm No fiber break and no sheath damage |
7 | Compound flow IEC 60794-1-E14 |
Sample length: 30cm Temperature: 70ºC±2ºC Keeping time: 24hours |
No compound flow |
8 | Sheath high voltage test | On line test DC 12t kV(t-sheath thickness mm) |
No sheath broken down |