96 Core SC/UPC Optical Distribution Frame (ODF)


Price:
Sale priceKSh8,450.00

Description

The 96 Core SC/UPC Optical Distribution Frame (ODF) is a high-capacity fibre management solution designed for terminating, organizing, and protecting up to 96 fibre optic cores in telecommunications, data centres, enterprise networks, ISP infrastructure, and FTTH deployments. Equipped with SC/UPC adapters, it provides low-loss, high-performance optical connectivity while ensuring efficient cable organization and simplified network maintenance.

Constructed from durable cold-rolled steel with a corrosion-resistant finish, the ODF is built to withstand demanding network environments while protecting fibre splices, pigtails, and patch cords. Its rack-mount design includes multiple splice trays, cable routing guides, and secure cable entry points to maintain proper bend radius and safeguard fibre cables from damage.

Designed for high-density fibre installations, the 96 Core SC/UPC Optical Distribution Frame offers easy front access for installation, inspection, and maintenance, making it an ideal solution for professional fibre optic network management.

Key Features

  • 96 Core Fibre Capacity - Supports termination and management of up to 96 fibre optic cores
  • SC/UPC Adapters - Delivers low insertion loss and reliable optical performance
  • High-Density Rack-Mount Design - Ideal for data centres, telecom rooms, and enterprise networks
  • Integrated Splice Trays - Organizes and protects fibre splices for simplified maintenance
  • Durable Steel Construction - Heavy-duty metal housing for long-term reliability
  • Efficient Cable Management - Maintains proper fibre routing and minimum bend radius
  • Secure Cable Entry Points - Protects fibre cables from strain and physical damage
  • Front Access Design - Enables quick installation, inspection, and servicing
  • Wide Application - Suitable for FTTH, ISPs, telecommunications, LAN, WAN, and data centre deployments
  • Professional Build Quality - Designed for reliable performance in high-density fibre networks

You may also like

Recently viewed