Feichun Cable Type GLI Flexible Fiber Optic Reeling Cable for Port
Equipment
The Feichun Cable Type GLI Flexible Fiber Optic Reeling Cable is
specifically designed for use in energy chain systems of port
equipment, providing seamless and non-interfering data and signal
transmission.
Type GLI Flexible Fiber Optic Reeling Cable Of Port Equipment
CONSTRUCTION
Strength Core: | high tensile strength aramid fibers |
Inner Sheath: | TPE Compound |
Fiber Optic: | 6 or 12 core single-mode or multi-mode flexible fiber optic |
Reinforcement layer: | Aramid braid for torsion protection |
Outer sheath: | PUR Compound |
Sheath Colour: | Black |
Type GLI Flexible Fiber Optic Reeling Cable Of Port Equipment
TECHNICAL DATA
long term working temperature | 60℃ |
Temperature Range | Fixed Install:-40℃~70℃ Mobile Install:-35℃~70℃ |
Fiber Attenuation | 850mn for 2.5—3.5db/km,1300mn for 0.7—1.5 db/km |
Fiber Bandwidth | 850mn for 160—200MHZ/km,1300mn for 200—500MHZ/km |
Min.Bending radius | Fixed Install:8OD Mobile Install:15OD |
Type GLI Flexible Fiber Optic Reeling Cable Of Port
Equipment SPECIFICATION
Construction mm | Nom.OD of cable mm | Max. OD of cable mm | Ref. weight of cable(Kg/km) |
6×50/125 | 15 | 16 | 380 |
12×50/125 | 15 | 16 | 380 |
18×50/125 | 15 | 16 | 380 |
6×62.5/125 | 15 | 16 | 380 |
12×62.5/125 | 15 | 16 | 380 |
18×62.5/125 | 15 | 16 | 380 |
With its advanced features and robust construction, this cable
ensures reliable communication between machines and equipment in
demanding industrial environments.
Key Features:
- Energy Chain System Compatibility: The cable is designed for use
in energy chain systems of port equipment, providing flexible and
reliable data and signal transmission.
- Non-Interfering Transmission: Engineered for non-interfering data
and signal transmission, the cable ensures seamless communication
between machines and equipment.
- Coolant and Oil Resistance: The cable is resistant to coolants
and oils, ensuring reliable performance even in environments with
exposure to lubricants and other oil-based substances.
- Maximum Load Requirements: Suitable for applications with maximum
load requirements and torsional movements, the cable provides
reliable communication in high mechanical load environments.
- UV Resistance: Designed for both indoor and outdoor applications,
the cable is UV-resistant, making it suitable for use in
environments with exposure to sunlight.
- Pure Quartz Glass Fibers: The fibers of the cable are made of
pure quartz glass, ensuring high-quality data transmission and
reliability.
- Multiple Versions Available: Available in different versions,
including OM1, OM2, OM3, and OM4, the cable meets the requirements
of various office and industrial applications.
- Halogen-Free Construction: Some versions of the cable feature a
halogen-free construction, minimizing the release of toxic gases in
the event of a fire and ensuring safety in industrial settings.
- EMI Protection: The cable provides maximum EMI protection,
ensuring reliable communication in environments with
electromagnetic interference.
Applications:
- Storage and Retrieval Units
- Machine Tools
- Packaging Machines
- Quick-Handling Systems
- Cranes
- Refrigerating Sector
The Feichun Cable Type GLI Flexible Fiber Optic Reeling Cable for
Port Equipment is the ideal solution for seamless communication
between machines and equipment in port environments.
With its advanced features, robust construction, and compatibility
with energy chain systems, it ensures reliable data and signal
transmission, contributing to the efficiency and productivity of
port operations.
Note: This is just part of the standard parameters of our products.
Please contact our Engineer if you need more. And the information
contained within this webpage is for guidance only and is subject
to change without notice or liability. All dimensions and
specifications are nominal and are subject to normal manufacturing
tolerances. All pictures shown are for illustration purposes only.
The actual product may vary. All the information is provided in
good faith and is believed to be correct at the time of
publication.