Fiber Optic Cable ADSS Single Jacket PE Span 50 to 200M
Tags: Fiber Optic Cable, ADSS, All Dielectric Self-Supporting
All-Dielectric Self-Supporting (ADSS) fiber optic cable designed for aerial installations, specifically for relatively shorter spans ranging from 50 meters to 200 meters. It is commonly used in various outdoor communication networks to provide high-speed data transmission and connectivity. ADSS cable adopts the twisted structure of loose sleeve layer, 250 μm optical fiber is inserted into the loose tube made of high modulus materials, and the loose tube is filled with waterproof compounds. The loose tube ( and filling rope ) is twisted around the non-metallic center reinforcing core ( FRP ) to synthesize a compact cable core. The gap of the cable core is filled with a water-blocking yarn and a water-blocking belt longitudinally wrapped by the cable core, and then the aramid fiber that plays a reinforcing role is twisted. Finally, the polyethylene ( PE ) outer sheath or the electric mark ( AT ) outer sheath is extruded.
When it comes to aerial cablings or outside plant (OSP) deployments, ADSS cable will provide an efficient and optimal solution in most of the cases. The remarkable advantages of this ADSS fiber cable are twofold: reliable and cost-effective.
ADSS cable is ideal for installation in distribution as well as transmission environments. Since the ADSS cables provide an optimal solution for a broader combination of fiber counts and span lengths, more and more aerial cabling system designers tend to adopt them for telecommunications, like power utilities, telcos, and private network groups. Combining convenience and cost-effectiveness, an aerial fiber-optic deployment requires this kind of fiber optic cables for better performance.
Fetures
- Allow to be constructed and installed without interruption of power supply;
- Superior resistance to electric marks with AT sheath. The maximum inductive at the operating point of AT jacket can reach 25kV;
- Track -Resistant outer jacket available for the high voltage (>35KV); HDPE outer jacket available for the high voltage (≤35KV);
- Light weight, small cable diameter, reducing the load and impact caused by ice and wind impact and load on towers;
- Excellent tensile and temperature properties;
- IEEE P 1222 technical standard, and meets the IEC 60794-1 standard and DLT 788-2016 standard;
Technical Data of Fiber
No. | Items | Unit | Specification | |
G.652D | ||||
1 | Mode Field Diameter | 1310nm | μm | 9.2±0.4 |
1550nm | μm | 10.4±0.5 | ||
2 | Cladding Diameter | μm | 124.8±0.7 | |
3 | Cladding Non -Circularity | % | ≤0.7 | |
4 | Core -Cladding Concentricity Error | μm | ≤0.5 | |
5 | Coating Diameter | μm | 245±5 | |
6 | Coating Non-Circularity | % | ≤6.0 | |
7 | Cladding-Coating Concentricity Error | μm | ≤12.0 | |
8 | Cable Cutoff Wavelength | nm | λcc ≤1260 | |
9 | Attenuation(max.) | 1310nm | dB/km | ≤0.36 |
1550nm | dB/km | ≤0.22 | ||
Structure and Size
Fiber count | Structure | Fiber per tube | Thickness of outer jacket (mm) | Outer jacket material | Cable diameter (mm) |
4 | 1+6 | 4 | 1.5-1.7 | PE | 10.0±0.5 |
6 | 1+6 | 6 | 1.5-1.7 | PE | 10.0±0.5 |
8 | 1+6 | 8 | 1.5-1.7 | PE | 10.0±0.5 |
12 | 1+6 | 6/12 | 1.5-1.7 | PE | 10.0±0.5 |
24 | 1+6 | 6/12 | 1.5-1.7 | PE | 10.0±0.5 |
36 | 1+6 | 6/12 | 1.5-1.7 | PE | 10.0±0.5 |
48 | 1+6 | 8/12 | 1.5-1.7 | PE | 10.0±0.5 |
72 | 1+6 | 12 | 1.5-1.7 | PE | 10.0±0.5 |
96 | 1+8 | 12 | 1.5-1.7 | PE | 12.0±0.5 |
144 | 1+12 | 12 | 1.5-1.7 | PE | 15.5±0.5 |
Note: The above data is for reference. For more technical information, please feel free to contact us.
Application
- Electric utility distribution power lines– Framed in supply or communications space
- Aerial and Underground duct
- Enterprise OSP networks
- Fiber-to-the-X networks
