All Dielectric Self-Supporting (ADSS) cables, available in configurations such as 24, 48, and 96 cores, are designed to effectively span lengths of 80m, 100m, and 120m. These cables are engineered for optimal performance with unique properties that make them suitable for various applications.
One of the key features of ADSS cables is their all-dielectric design, which allows them to be installed without the need for metallic supports. This not only enhances their resistance to environmental factors, such as moisture and electrical interference, but also reduces installation costs and complexity. Additionally, ADSS cables boast high tensile strength and thermal resistance, ensuring reliable performance in diverse weather conditions.
Applications of ADSS Fiber Optic Cables
ADSS fiber optic cables find extensive use in telecommunications, utility networks, and data transmission systems. They are particularly valuable in overhead installations, where they can be strung between utility poles, minimizing the requirement for additional infrastructure. These cables are also utilized in smart grid applications, enabling efficient communication between various components in electric networks. Their insulating properties make them ideal for use in high-voltage areas, allowing safe deployment in sensitive zones.
Current Global Demand for ADSS Fiber Optic Cables
As we analyze the current global market, several countries are demonstrating significant demand for ADSS fiber optic cables. The The American market, especially Latin America, Canada, and various European nations are among the leading consumers, spurred by the expansion of telecommunications infrastructure and the shift towards smart grid technologies. Additionally, emerging markets in Asia-Pacific, particularly India and China, are rapidly adopting ADSS cables as part of their infrastructure modernization efforts.
In conclusion, the unique characteristics of All Dielectric Self-Supporting cables, combined with their wide-ranging applications, position them as a critical solution in the ever-evolving landscape of global telecommunications and utility networks. With growing demand in various regions,
ADSS cables are poised to play a crucial role in the future of communication technology.
Cable Performance
Item
|
Contents
|
Value
|
6/12/24
|
48
|
72
|
96
|
Structure
|
Type
|
1+6
|
1+6
|
1+8
|
1+12
|
Loose tube
|
Max Fiber counts/tube
|
6
|
12
|
12
|
12
|
Outer diameter (mm)
|
1.9±0.1
|
2.2±0.1
|
2.2±0.1
|
2.2±0.1
|
Central strength member
|
Material
|
FRP
|
Diameter (mm)
|
1.4
|
1.6
|
2.0
|
3.5
|
PE layer diameter (mm)
|
--
|
--
|
|
|
Peripheral strength member
|
Material
|
FRP
|
Sheath
|
Material
|
HDPE
|
Color
|
Black
|
Thickness (mm)
|
Nominal: 1.6
|
Cable diameter(mm) Approx.
|
9.8±0.2
|
10.0±0.2
|
11.8±0.3
|
13.8±0.5
|
Cable weight(kg/km) Approx.
|
128
|
131
|
148
|
152
|
Fiber parameter
Item
|
Unit
|
Specification
|
Fiber Type
|
G.652D
|
Mode field diameter
|
1310nm
|
μm
|
9.2±0.4
|
1550nm
|
μm
|
10.4±0.8
|
Cladding diameter
|
μm
|
125.0±1
|
Cladding non-circularity
|
%
|
≤1.0
|
Core/cladding concentricity error
|
μm
|
≤0.5
|
Coating diameter
|
μm
|
245±5
|
Coating non-Circularity
|
%
|
≤6.0
|
Coating/cladding concentricity error
|
μm
|
≤12.0
|
Cable cut-off wavelength
|
nm
|
≤1260
|
Attenuation Coefficient
|
1310nm
|
dB/km
|
≤0.36
|
1550nm
|
dB/km
|
≤0.22
|
Proof stress level
|
kpsi
|
≥100
|