FTTX Multi-Tube

12F-576F Single Sheath - Micro Duct - 250 Um

Cable Construction Details:

• Fiber Count: Configurations available from 12 fibers to 576 fibers, distributed across multiple loose tubes for high-density applications.

• Fiber Type: 250 µm single-mode fibers, ensuring bend insensitivity and reliable optical performance.

• Tube Design: Multi-Tube Construction: Fibers are arranged in multiple color-coded loose tubes, filled with thixotropic jelly for fiber protection and water-blocking. The number of loose tubes increases with fiber count, ensuring compact organization and scalability.

• Central Strength Member: A fiber-reinforced plastic rod is positioned centrally to provide structural stability and resistance to bending or mechanical stresses.

• Fillers: Filler elements are used as needed to maintain the circular structure and balance of the cable.

• Water-Blocking Features: Water-swellable yarns throughout the cable ensure excellent resistance to moisture ingress, enhancing reliability in wet environments.

• Outer Sheath: UV-resistant sheath provides protection against environmental conditions, including UV exposure, while meeting fire safety regulations.

• Cable Diameter: The overall diameter varies between 8 mm and 14 mm, depending on fiber count and structural requirements.

• Color Coding: Fibers and loose tubes are color-coded according to industry standards for easy identification and efficient splicing.

• Rip Cord: A rip cord is included under the sheath for easy and precise removal of the outer sheath during installation.

• Sequential Markings: Meter markings on the outer sheath ensure accurate length measurement, aiding in efficient installation and reducing waste.

Compatible with Duct Installations, Pulled and Blown:

Standard Cross-Section Layout for 576 Fibers:

Special Features:

• High Fiber Density: Accommodates 12 fibers to 576 fibers, with a multi-tube design, making it suitable for high-density applications and large-scale network deployments.

• 250 µm Fiber Technology: Uses 250 µm single-mode fibers, offering efficient space utilization without sacrificing signal quality or performance.

12F-576F Single Sheath - Micro Duct - 200 Um

Cable Construction Details:

• Fiber Count: Configurations available from 12 fibers to 576 fibers.

• Fiber Type: 200 µm single-mode fibers for enhanced bend performance and high-density applications.

• Tube Design: Multi-Tube Construction: Fibers are distributed across multiple loose tubes, offering excellent flexibility and fiber protection. Loose tubes are filled with thixotropic gel for cushioning and water-blocking. The number of tubes increases with fiber count for optimized packing and organization.

• Central Strength Member: A central strength member provides structural stability and resists bending or deformation.

• Filler Elements: Non-fiber-containing filler rods are included as needed to maintain the circular shape and structural balance of the cable.

• Water-Blocking: Water-swellable yarn protects the fibers from water ingress for long-term reliability.

• Outer Sheath: Made from UV-resistant material for environmental protection and compliance with fire safety standards.

• Sheath Dimensions: Diameter varies depending on the fiber count, ranging from 8 mm to 14 mm, ensuring compatibility with standard microduct systems.

• Color-Coded Fibers and Tubes: Fibers and tubes are color-coded following industry standards to simplify identification during splicing and maintenance.

• Rip Cord: Integrated rip cord beneath the sheath for easy and precise sheath removal during installation.

• Markings: Sequential length markings on the outer sheath for accurate cutting and measurement.

Compatible with Duct Installations, Pulled and Blown:

Standard Cross-Section Layout for 576 Fibers:

Special Features:

• High Fiber Capacity: Accommodates 12 fibers to 576 fibers, with multiple loose tubes for organized and high-density fiber management.

• 200 µm Fiber Technology: Utilizes 200 µm single-mode fibers, enabling a smaller cable diameter without compromising fiber count or performance.