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Ebocom - A Leading Fiber Optic Cable Manufacturer in China
2 Years
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| Brand Name : | EBOCOM |
| Model Number : | OPGW |
| Certification : | ISO TLC |
| Price : | EXW ≥2000m $0.32/M ≥5000m $0.3/M |
| Supply Ability : | 5000MS/day |
| Delivery Time : | 5-8 days |
Product Description:
OPGW (Optical Ground Wire) is a type of optical fiber cable used in overhead lines that performs a dual function. It protects both power lines (from lightning strikes) and high-speed data communication fibers. Located atop transmission towers, OPGW cables are crucial in today's utility communications systems.
OPGW cables typically consist of the following components:
Central Fiber Unit: This consists of a single-fiber system with a stainless steel or aluminum launch tube.
Protective Tube: This is a steel tube, aluminum launch tube, or aluminum tube that encases the optical fibers.
External Strength Members: These are aluminum-coupled steel wires and aluminum alloy wires that provide mechanical support and electrical conductivity.
These materials achieve a balance between strength, electrical conductivity, and optical safety.
Main features:
Dual-Purpose: Combining grounding and communications functions in
one cable reduces the need for separate cables and lowers overall
installation costs.
Lower Installation Cost: The per-kilometer installation cost is
lower than buried fiber optic cable.
Easy Installation: It can be installed over existing power lines
without shutting down the power, as it can be laid while energized.
No Increase in Tower Load: Its diameter and weight are similar to
those of traditional grounding wires, so it does not impose
additional mechanical loads on the tower.
Electrical Fault Resistance: Provides a safe path for fault
currents and lightning strikes, protecting optical fibers from
damage.
Environmental Resistance: Fiber is protected by a durable, sealed
metal sheath, effectively withstanding various environmental
factors.
High-Capacity Data Transmission: Supports high-speed, long-distance
data, voice, and video communications.
High Signal Quality: Low attenuation and signal loss ensure
reliable data transmission.
Power Grid and Smart Grid Applications: Improves grid operations:
Enables real-time monitoring, fault location, and control of the
grid, improving efficiency and reliability.
Smart Grid Compatibility: Supports advanced features such as remote
monitoring and automated control systems.
Future-Ready: Fiber optics can meet current and future
communication needs, making the grid more adaptable to new
technologies.
Structure & Technical Specifications:
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