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OUTDOOR FIBER OPTIC CABLE
At Aimit Fiber, our outdoor fiber optic cables are engineered to withstand the most demanding environments. Crafted to resist UV radiation, temperature extremes, and harsh weather conditions, our cables ensure uninterrupted connectivity in all outdoor settings.
OUTDOOR FIBER OPTIC CABLE
Our fiber optic cables utilize ultra-thin strands of glass or plastic to transmit data through light, enabling rapid and efficient communication over long distances. The core of each cable carries light, encased in cladding that maintains signal integrity through total internal reflection, ensuring optimal performance.
High Bandwidth: Delivers superior speed and performance compared to traditional copper cables.
Immunity to Interference: Resists electromagnetic interference for reliable transmission.
Longer Distance: Ensures consistent signal quality over extended distances.
Main Models:
Stranded Loose tube cable:GYTA, GYTS, GYTY53, GYTA53, GYFTY, GYHTY, GYFTY53;
Central Tube Cable: GYXS, GYXTW,GYXY,GYFXY,GYXTZW
Special Cable: ADSS, GYTC8A,GYTC8S,GYTC8Y
Outdoor fiber optic cable Types
Armored Fiber optic cable
Equipped with steel tape, aluminum tape, or steel wire for enhanced protection.
ADSS Fiber Optic Cable
Self-supporting and designed for installation without conductive metal.
Figure 8 Fiber Optic Cable
Aerial, self-supporting cable with a figure 8 shape and hanging wire.
Hybird Fiber optic cable
Combines optical fiber with coaxial cable for versatile broadband solutions.
Aerial Fiber Optic Cable
Features air and micro blown fiber for rapid installation and flexibility.
Air Blown Fiber Optic Cable
Air blown fiber and micro blown fiber cable for fast installation in the ground
Direct Buried Optic Cable
Designed for direct burial in the ground, offering rugged performance.
Duct Fiber Optical Cable
Duct fiber optic cable can be used in the ground
OUTDOOR FIBER OPTIC CABLE FEATURES
- Versatile Diameters: Available in various sizes to meet project-specific needs.
- Easy Installation: Simplified deployment process for quicker setup.
- Optimal Performance: Low dispersion and attenuation for high-quality transmission.
- Weatherproof: Designed with water-blocking features to ensure reliability in all weather
- Robust Build: Crush-resistant with a corrugated steel and PE sheath for durability.
Outdoor Fiber Optic Cable Applications
Outdoor fiber optic cables are engineered to endure the most challenging environmental conditions, including extreme wind, sun exposure, cold temperatures, and ground shifts. Their robust design makes them the optimal choice for outdoor applications, widely utilized in a variety of settings:
- Telecommunications Networks
- Data Center Connections
- Broadband and Internet Infrastructure
- Utility and Infrastructure Projects
AIMIT:your trusted Fiber Optic cable manufacturer
- Factory Production: No intermediaries, direct from our facilities.
- Efficient Production: 13 production lines with a daily output of at least 1* 40HQ container.
- Comprehensive Testing: In-house laboratory for rigorous testing and quality assurance.
- OEM/ODM Support: Tailored solutions for over 100 telecom operators globally.
Fiber optic cable manaufcturing process
Fiber Optic Cable Manufacturing Process
- Coloring Fibers: Applying color codes for easy identification.
- Bundling Fibers: Grouping fibers into a core.
- Loose Tubing Fibers: Enclosing bundled fibers in protective tubing.
- Fibers Stranding: Arranging fibers in a specific configuration.
- Attenuation Testing: Evaluating signal loss characteristics.
- Packing: Preparing finished cables for shipment.
Please note that actual production in a fiber cable factory can be more intricate, but these steps provide a simplified overview for better understanding.
Find Other Fiber Optic Products
We are also manufacture Indoor Fiber Optic Cable, Customized fiber optic cable, MPO/MTP Cable with good quality and competitive quotation.
Have you find the cable you need or ask for customized support?
Some answer may you want to know
Outdoor fiber optic cables are designed to withstand environmental factors such as UV radiation, moisture, temperature extremes, and physical stress. They are used for outdoor installations to provide reliable data transmission.
Outdoor cables are built with additional protective layers and materials to resist environmental challenges, such as waterproofing, UV protection, and reinforced sheathing, unlike indoor cables which are not designed for such conditions.
Common types include armored cables, ADSS (All-Dielectric Self-Supporting) cables, figure 8 cables, aerial cables, air-blown cables, and direct buried cables.
Armored fiber optic cables have an extra layer of protection, such as steel tape or wire, that shields the fibers from physical damage, rodent attacks, and harsh environmental conditions.
ADSS (All-Dielectric Self-Supporting) fiber optic cable is designed to be self-supporting without the need for metallic supports. It is used in aerial installations and is resistant to weather and environmental factors.
A figure 8 fiber optic cable is an aerial cable that features a self-supporting design with a figure 8 shape, making it easy to install on poles without additional hardware.
Air-blown fiber optic cable uses compressed air to blow the fiber into pre-installed ducts. This allows for easy and quick installation or future upgrades without replacing the entire cable.
Direct buried fiber optic cable is designed to be buried directly in the ground without additional conduit. It features extra protection against moisture and physical damage.
Fiber optic cables offer higher bandwidth, better performance over long distances, immunity to electromagnetic interference, and increased reliability compared to traditional copper cables.
Consider factors such as environmental conditions, installation method, required bandwidth, and physical protection needs. Consult with a fiber optic specialist to select the most suitable cable type.
Outdoor fiber optic cables typically have a lifespan of 20-30 years, depending on environmental conditions and installation quality.
Yes, outdoor fiber optic cables are designed with waterproof features to prevent water ingress and ensure reliable performance in wet conditions.
Outdoor fiber optic cables are engineered to operate in a wide range of temperatures, typically from -40°C to +70°C (-40°F to +158°F), depending on the specific cable design.
Aerial cables are installed above ground on poles, while direct buried cables are placed directly in the ground. Each type is suited for different installation environments and requirements.
Consider factors such as cable routing, environmental protection, accessibility, and compliance with local regulations. Proper installation practices ensure optimal performance and longevity.
Regular inspections for physical damage, monitoring for signal quality, and ensuring proper protection against environmental factors are key to maintaining outdoor fiber optic cables.
Common issues include physical damage, water ingress, rodent attacks, and signal degradation due to environmental factors. Regular maintenance and proper installation can help mitigate these issues.
Yes, damaged fiber optic cables can be repaired through splicing or replacing the affected sections, depending on the extent of the damage.
Testing can be done using tools such as optical time-domain reflectometers (OTDR) and fiber optic testers to check signal strength, loss, and continuity.
Single-mode cables are used for long-distance communication with higher bandwidth, while multi-mode cables are used for shorter distances and have a larger core diameter.
Outdoor fiber optic cables are designed with UV-resistant materials to prevent degradation and ensure long-term performance when exposed to sunlight.
High-density cables offer a compact design, increased fiber count, and space-saving benefits, making them suitable for environments with limited space.
Hybrid cables combine fiber optic and coaxial cables in a single bundle, offering flexibility for various applications, including broadband and telecommunications.
Yes, outdoor fiber optic cables can be customized to meet specific requirements, such as cable length, fiber count, and protective features.
