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| Place of Origin | China |
| Brand Name | Fiberplan |
| Certification | ISO 9001; TÜV certificate |
| Model Number | ADSS |
Double Sheath Kevlar Yarn Reinforced ADSS Fiber Optic Cable
Description
ADSS (All-Dielectric Self-Supporting) cables feature a loose tube stranded construction to ensure optimal
performance and durability. The optical fibers are securely housed in high modulus plastic tubes filled with
a water-resistant compound, effectively protecting them from moisture. These tubes, along with fillers, are
stranded around a central strength member made of non-metallic FRP (Fiber Reinforced Plastic), forming
a compact and circular cable core.
For enhanced protection, the core is filled with a compound and encased in a thin polyethylene (PE) inner
sheath. A layer of stranded aramid yarn is then applied over the inner sheath for additional reinforcement.
Finally, the cable is finished with an outer sheath, which can be either polyethylene (PE) for standard
applications or anti-tracking (AT) for high electrical stress environments.
This robust construction ensures that ADSS cables are highly durable, moisture-resistant, and capable
of withstanding various environmental conditions. Ideal for both aerial and underground installations,
these cables provide reliable performance across a wide range of applications.
Application
1. The design of ADSS cables considers the real-time conditions of overhead power lines, ensuring optimal
performance and durability in such environments.
2. PE outer sheaths are used for power lines below 110kV, while AT outer sheaths are utilized for power lines
operating at 110kV and above to provide enhanced protection.
3. Specific design elements, including the quantity of aramid yarn and the stranding process, are tailored
to meet varying span requirements effectively. This ensures reliable cable operation across different
installation scenarios.
Characteristics
1. Enables installation without needing a power shutdown, minimizing service disruptions during deployment.
2. The lightweight and compact diameter reduce strain from ice, wind, towers, and backpropagation loads,
enhancing the cable's durability and overall performance.
3. Engineered for a 30-year lifespan, providing long-term reliability and cost-effectiveness in infrastructure
projects.
4. Demonstrates robust tensile strength and temperature resilience, ensuring consistent performance across
diverse environmental conditions.
Cable construction details
| Number of fiber | 24-144 core | |||||||
| Filling rope | 2.0mm | |||||||
| Moisture Barrier | Water blocking system | |||||||
| Central strength member | material | FRP/FRP with PE | ||||||
| size | 2.1mm | |||||||
| Tube-filling | Tube filling compound | |||||||
| filler | PP tube/ PVC tube | |||||||
| Inner sheath | material | PE | ||||||
| Loose tube | material | PBT | ||||||
| diameter | Ф2.2mm(outer/inner) | |||||||
| Outer sheath | material | PE/HDPE | ||||||
| diameter | 11±0.2mm | |||||||
Fiber color
|
Number of fiber 8 cores per tube |
1 | 2 | 3 | 4 | 5 | 6 |
| Blue | Orange | Green | Brown | Grey | White | |
| 7 | 8 | 9 | 10 | 11 | 12 | |
| Red | Black | Yellow | Violet | Pink | Aqua | |
| Color 13~24 will be marked with a black tracer. For black color no need marked black tracer, will use nature color instead. | ||||||
Cable Mechanical characteristic
| core | Cable diameter | Weight | |||||
| 2 core to 60core | 12±0.2mm | 140±3kg/km | |||||
| 72core | 13±0.2mm | 190±3kg/km | |||||
| 96core | 14.5±0.2mm | 220±3kg/km | |||||
| 144core | 16.5±0.2mm | 240±3kg/km | |||||
| Rec.daily max working tension | 88kN | ||||||
| Max. Allowable working tension | 32.7KN | ||||||
| Modulus of elasticity | 37KN/mm2 | ||||||
| Min Bending Radius(mm) | Operation | 240mm | |||||
| Installation | 390mm | ||||||
| Extra load | Extra load 0.5% ~ 0.7% | ||||||
| Ice | 5mm | ||||||
| Wind speed | 35m/s | ||||||
Fiber characteristic
| Fiber style | Unit | SM G652 |
SM G652D |
MM 50/125 |
MM 62.5/125 |
MM OM3-300 |
|
| condition | nm | 1310/1550 | 1310/1550 | 850/1300 | 850/1300 | 850/1300 | |
| attenuation | dB/km | ≤ | ≤ | ≤ | ≤3.0/1.0 | ≤3.0/1.0 | |
| 0.36/0.23 | 0.34/0.22 | 3.0/1.0 | ---- | ---- | |||
| Dispresion | 1550nm | Ps/(nm*km) | ---- | ≤18 | ---- | ---- | Dispresion |
| 1625nm | Ps/(nm*km) | ---- | ≤22 | ---- | ---- | ||
| Bandwith | 850nm | MHZ.KM | ---- | ---- | ≧400 | ≧160 | Bandwith |
| 1300nm | MHZ.KM | ---- | ---- | ≧800 | ≧500 | ||
| Zero dispersion wavelength | nm | 1300-1324 | ≧1302, ≤1322 |
---- | ---- | ≧ 1295, ≤1320 |
|
| Zero dispresion slope | nm | ≤0.092 | ≤0.091 | ---- | ---- | ---- | |
| PMD Maximum Individual Fibr | ≤0.2 | ≤0.2 | ---- | ---- | ≤0.11 | ||
| PMD Design Link Value | Ps(nm2*k m) |
≤0.12 | ≤0.08 | ---- | ---- | ---- | |
| Fibre cutoff wavelength λc | nm | ≧ 1180, ≤1330 |
≧1180, ≤1330 |
---- | ---- | ---- | |
| Cable sutoff wavelength λcc |
nm | ≤1260 | ≤1260 | ---- | ---- | ---- | |
| MFD | 1310nm | um | 9.2±0.4 | 9.2±0.4 | ---- | ---- | ---- |
| 1550nm | um | 10.4±0.8 | 10.4±0.8 | ---- | ---- | ---- | |
| Numerical Aperture(NA) |
---- | ---- | 0.200±0.015 | 0.275±0. 015 |
0.200±0 .015 |
||
| Step(mean of bidirectional measurement) |
dB | ≤0.05 | ≤0.05 | ≤0.10 | ≤0.10 | ≤0.10 | |
| Irregularities over fiber length and point |
dB | ≤0.05 | ≤0.05 | ≤0.10 | ≤0.10 | ≤0.10 | |
| Dicontinuity | |||||||
| Difference backscatter coefficient |
dB/km | ≤0.05 | ≤0.03 | ≤0.08 | ≤0.10 | ≤0.08 | |
| Attenuation uniformity | dB/km | ≤0.01 | ≤0.01 | ||||
| Core dimater | um | 50±1.0 | 62.5±2.5 | 50±1.0 | |||
| Cladding diameter | um | 125.0±0.1 | 125.0±0.1 | 125.0±0.1 | 125.0±0.1 | 125.0±0.1 | |
| Cladding non-circularity | % | ≤1.0 | ≤1.0 | ≤1.0 | ≤1.0 | ≤1.0 | |
| Coating diameter | um | 242±7 | 242±7 | 242±7 | 242±7 | 242±7 | |
| Coating/chaffinch concentrically error |
um | ≤12.0 | ≤12.0 | ≤12.0 | ≤12.0 | ≤12.0 | |
| Coating non circularity | % | ≤6.0 | ≤6.0 | ≤6.0 | ≤6.0 | ≤6.0 | |
| Core/cladding conentricity error | um | ≤0.6 | ≤0.6 | ≤1.5 | ≤1.5 | ≤1.5 | |
| Curl(radius) | um | ≤4 | ≤4 | ---- | ---- | ---- | |
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