Structure Design:
Application:
The design of ADSS cable takes full account of the actual situation of power lines and is suitable for different grades of high voltage transmission lines. Polyethylene ( PE ) sheath can be used for 10 kV and 35 kV power lines. For 110 kV and 220 kV power lines, the optical cable hanging point must be determined by calculating the electric field strength distribution and the electric mark ( AT ) outer sheath must be adopted. At the same time, the amount of aramid fiber and the perfect stranding process were carefully designed to meet the application requirements of different spans.
Main Features:
1. Two Jacket and stranded loose tube design . Stable performance and compatibility with all common fiber types;
2. Track -Resistant outer jacket available for the high voltage ( ≥35KV)
3. Gel-Filled buffer tubes are S-Z stranded
4. Instead of Aramid yarn or glass yarn,there is no support or messenger wire required. Aramid yarn is used as the strength member to assure the tensile and strain Performance
5. Fiber counts from 6 to 288fibers
6. Span up to 1000meter
7. Life expectancy up to 30 years
Standards: GL Technology's ADSS Cable complies with IEC 60794-4, IEC 60793, TIA/EIA 598 A standards.
Advantages of GL Fiber' ADSS Fiber Cable:
1.Good aramid yarn have excellent tensile performance;
2.Fast delivery, 200km ADSS cable regular production time about 10 days;
3.Can using glass yarn instead of aramid to anti rodent.
Colors -12 Chromatography:
Fiber Optic Characteristics:
| Parameters |
Specification |
| Optical Characteristics |
| Fiber Type |
G652.D |
| Mode Field Diameter (um) |
1310nm |
9.1 ± 0.5 |
| 1550nm |
10.3 ± 0.7 |
| Attenuation Coefficient (dB/km) |
1310nm |
≤ 0.35 |
| 1550nm |
≤ 0.21 |
| Attenuation Non-uniformity (dB) |
≤ 0.05 |
| Zero Dispersion Wavelength ( λ0) (nm) |
1300 ~ 1324 |
| Max Zero Dispersion Slope (S0max) (ps/(nm2·km)) |
≤ 0.093 |
| Polarization Mode Dispersion Coefficient (PMDQ) (ps/km1/2) |
≤ 0.2 |
| Cut-off Wavelength (λcc) (nm) |
≤ 1260 |
| Dispersion Coefficient (ps/ (nm·km)) |
1288~1339nm |
≤ 3.5 |
| 1550nm |
≤ 18 |
| Effective Group Index of Refraction (Neff) |
1310nm |
1.466 |
| 1550nm |
1.467 |
| Geometric characteristic |
| Cladding Diameter (um) |
125.0 ± 1.0 |
| Cladding Non-circularity (%) |
≤ 1.0 |
| Coating Diameter (um) |
245.0 ± 10.0 |
| Coating-cladding Concentricity Error (um) |
≤ 12.0 |
| Coating Non-circularity (%) |
≤ 6.0 |
| Core-cladding Concentricity Error (um) |
≤ 0.8 |
| Mechanical characteristic |
| Curling (m) |
≥ 4 |
| Proof Stress (GPa) |
≥ 0.69 |
| Coating Strip Force (N) |
Average Value |
1.0 5.0 |
| Peak Value |
1.3 ~ 8.9 |
| Macro Bending Loss (dB) |
Ф60mm, 100 Circles, @ 1550nm |
≤ 0.05 |
| Ф32mm, 1 Circle, @ 1550nm |
≤ 0.05 |
2-144 Core Double Jackets ADSS Cable Specifications:
|
No. of cable
|
/ |
6~30 |
32~60 |
62~72 |
96 |
144 |
Design
(Strength Member+Tube&Filler) |
/ |
1+5 |
1+5 |
1+6 |
1+8 |
1+12 |
| Fiber type |
/ |
G.652D |
| Central Strength Member |
Material |
mm |
FRP |
Diameter
(±0.05mm) |
1.5 |
1.5 |
2.0 |
2.0 |
2.0 |
| Loose Tube |
Material |
mm |
PBT |
Diameter
(±0.05mm) |
1.8 |
2.0 |
2.0 |
2.0 |
201 |
Thickness
(±0.03mm) |
0.32 |
0.35 |
0.35 |
0.35 |
0.35 |
| MAX.NO./per |
6 |
12 |
12 |
12 |
12 |
| Water Blocking Layer |
Material |
/ |
Flooding Compound |
| Inner Sheath |
Material |
mm |
PE |
| Thickness |
0.9(nominal) |
| colour |
black. |
| Additional Strength Member |
Material |
/ |
Aramid Yarn |
| Outer Sheath |
Material |
mm |
PE |
| Thickness |
1.8(nominal) |
| colour |
black. |
| Cable Diameter(±0.2mm) |
mm |
10.6 |
11.1 |
11.8 |
13.6 |
16.5 |
| Cable Weight(±10.0kg/km) |
kg/km |
95 |
105 |
118 |
130 |
155 |
| Attenuation coefficient |
1310nm |
dB/km |
≤0.36 |
| 1550nm |
≤0.22 |
| Cable breaking strength(RTS) |
kn |
≥5 |
| Working Tension (MAT) |
Kn |
≥2 |
| Wind velocity |
m/s |
30 |
| Icing |
mm |
5 |
| Span |
M |
100 |
| Crush Resistance |
Short Term |
N/100mm |
≥2200 |
| Long Term |
≥1100 |
| Min. bending radius |
Without Tension |
mm |
10.0×Cable-φ |
| Under Maximum Tension |
20.0×Cable-φ |
Temperature range
(℃) |
Installation |
℃ |
-20~+60 |
| Transport&Storage |
-40~+70 |
| Operation |
-40~+70 |
The excellent quality and service of GL's ADSS cable have won the praise of a large number of customers at home and abroad, and the products are exported to many countries and regions such as South and North America, Europe, Asia and UEA. We can customize the number of cores of ADSS fiber optic cables according to customer needs. The number of cores of optical fiber ADSS cable is 2, 6, 12, 24, 48 cores, up to 288 cores.
Remarks:
Detail requirements need to be sent to us for cable design and price calculation. Below requirements are a must:
A, Power transmission line voltage level
B, fiber count
C, Span or tensile strength
D, weather conditions
How to Ensure the Quality and Performance of Your Fiber Optic Cable?
We control the products quality from the raw material to the finish produts All the raw material should be tested to match the Rohs standard when they arrived at our manufacture.We control the quality during the producing process by advanced technology and equipments. We test the finished products according to the test standard. Approved by various professional optical and communication product institution , GL also conduct various in-house testing in its own Laboratory and Test Center. We also conduct test with special arrangement with the Chinese Government Ministry of Quality Supervision & Inspection Center of Optical Communication Products(QSICO).
Quality Control - Test Equipment and Standard:
Feedback: In order to meet the world’s highest quality standards, we continuously monitor feedback from our customers. For comments and suggestions, please, contact us, Email: [email protected].
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