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Hybrid Optical and Electrical Stranded Loose Tube Cable GDTS
NEWSUN
39
Hybrid Optical Cable is a versatile solution that combines optical fiber and copper wire in a single cable. This design simultaneously meets the needs for high-speed data transmission and equipment power supply.
The cable's internal structure typically consists of two distinct units:
Optical Fiber Unit: Composed of multiple optical fibers, dedicated to high-speed data transmission.
Copper Wire Unit: Responsible for transmitting power signals.
These units are specially designed and shielded to ensure optical and electrical signals do not interfere with each other during transmission. This makes it widely applicable in campus networks, communication base stations, fiber-to-the-home (FTTH) setups, security surveillance systems, and other fields requiring integrated power and data delivery.
Robust Performance: Superior mechanical integrity and thermal stability under varying conditions
Unified Solution: Innovative hybrid design addresses both power delivery and signal transmission needs
Streamlined Operations: Enhanced power management capabilities minimize coordination requirements and maintenance workload
Cost Efficiency: Reduces procurement expenses and saves on construction costs
Primary Application: Specifically designed for BBU-RRU interconnections in distributed base station systems
Versatile Deployment: Supports both underground conduit and aerial installation methods
Hybrid Optical Cable is a versatile solution that combines optical fiber and copper wire in a single cable. This design simultaneously meets the needs for high-speed data transmission and equipment power supply.
The cable's internal structure typically consists of two distinct units:
Optical Fiber Unit: Composed of multiple optical fibers, dedicated to high-speed data transmission.
Copper Wire Unit: Responsible for transmitting power signals.
These units are specially designed and shielded to ensure optical and electrical signals do not interfere with each other during transmission. This makes it widely applicable in campus networks, communication base stations, fiber-to-the-home (FTTH) setups, security surveillance systems, and other fields requiring integrated power and data delivery.
Robust Performance: Superior mechanical integrity and thermal stability under varying conditions
Unified Solution: Innovative hybrid design addresses both power delivery and signal transmission needs
Streamlined Operations: Enhanced power management capabilities minimize coordination requirements and maintenance workload
Cost Efficiency: Reduces procurement expenses and saves on construction costs
Primary Application: Specifically designed for BBU-RRU interconnections in distributed base station systems
Versatile Deployment: Supports both underground conduit and aerial installation methods
Type | O.D. (mm) | Weight (Kg/km) | Tensile strength Long/short term (N) | Crush Long/short term (N/100mm) | Structure |
GDTS-02-24Xn+2×1.5 | 11.6 | 157 | 600/1500 | 300/1000 | Structure I |
GDTS-02-24Xn+2×2.5 | 12.5 | 190 | 600/1500 | 300/1000 | Structure I |
GDTS-02-24Xn+2×4.0 | 14.6 | 241 | 600/1500 | 300/1000 | Structure II |
GDTS-02-24Xn+2×5.0 | 15.0 | 282 | 600/1500 | 300/1000 | Structure II |
GDTS-02-24Xn+2×6.0 | 15.7 | 300 | 600/1500 | 300/1000 | Structure II |
GDTS-02-24Xn+2×8.0 | 16.9 | 383 | 600/1500 | 300/1000 | StructureII |
1. Xn refers to fibre type.
2. 2*1.5/2*2.5/2*4.0/2*6.0/2*8.0 indicates the number and size of copper wires.
3. Hybrid cables with different numbers and sizes of copper wires can be provided on request.
4. Hybrid cables with different fibre counts can be provided on request.
Cross section (mm2) | Max. DC resistance of single conductor (20 ℃)(Ω/km) | Insulation resistance (20℃)(MΩ.km) | Dielectric strength KV, DC 1min Dielectric strength KV, DC 1min | ||
Between each conductor and other metal members connected in cable | Between conductors | Between conductor and metallic armor | Between conductor and steel wire | ||
1.5 | 13.3 | No less than 5,000 | 5 | 5 | 3 |
2.5 | 7.98 | ||||
4.0 | 4.95 | ||||
5.0 | 3.88 | ||||
6.0 | 3.30 | ||||
8.0 | 2.47 | ||||
Type | O.D. (mm) | Weight (Kg/km) | Tensile strength Long/short term (N) | Crush Long/short term (N/100mm) | Structure |
GDTS-02-24Xn+2×1.5 | 11.6 | 157 | 600/1500 | 300/1000 | Structure I |
GDTS-02-24Xn+2×2.5 | 12.5 | 190 | 600/1500 | 300/1000 | Structure I |
GDTS-02-24Xn+2×4.0 | 14.6 | 241 | 600/1500 | 300/1000 | Structure II |
GDTS-02-24Xn+2×5.0 | 15.0 | 282 | 600/1500 | 300/1000 | Structure II |
GDTS-02-24Xn+2×6.0 | 15.7 | 300 | 600/1500 | 300/1000 | Structure II |
GDTS-02-24Xn+2×8.0 | 16.9 | 383 | 600/1500 | 300/1000 | StructureII |
1. Xn refers to fibre type.
2. 2*1.5/2*2.5/2*4.0/2*6.0/2*8.0 indicates the number and size of copper wires.
3. Hybrid cables with different numbers and sizes of copper wires can be provided on request.
4. Hybrid cables with different fibre counts can be provided on request.
Cross section (mm2) | Max. DC resistance of single conductor (20 ℃)(Ω/km) | Insulation resistance (20℃)(MΩ.km) | Dielectric strength KV, DC 1min Dielectric strength KV, DC 1min | ||
Between each conductor and other metal members connected in cable | Between conductors | Between conductor and metallic armor | Between conductor and steel wire | ||
1.5 | 13.3 | No less than 5,000 | 5 | 5 | 3 |
2.5 | 7.98 | ||||
4.0 | 4.95 | ||||
5.0 | 3.88 | ||||
6.0 | 3.30 | ||||
8.0 | 2.47 | ||||
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