Prolink PL-CLC-D-SM LC Duplex Single Mode Fibre Optic Coupler – SM 9/125, Blue, Low Insertion Loss
Overview
Prolink PL-CLC-D-SM is an LC duplex single mode fibre optic coupler designed for professional fibre termination and connection inside fibre patch panels, ODF units, termination boxes, and high-density fibre network environments.
It provides accurate fibre alignment and reliable optical performance for single mode fibre networks, making it suitable for telecom, datacom, LAN/WAN, CCTV backbone, and enterprise fibre infrastructure.
Key Features
• LC duplex fibre optic coupler.
• Supports SM 9/125 μm single mode fibre.
• Designed for patch panels, ODF units, and termination boxes.
• Compact LC connector design for high-density fibre installations.
• Blue coupler color for single mode identification.
• Provides stable optical performance with reliable fibre alignment.
• Suitable for telecom, datacom, LAN/WAN, and CCTV fibre networks.
• Professional solution for clean fibre termination and organized cable management.
Technical Specifications
• Brand: Prolink
• Model: PL-CLC-D-SM**
• Product Type: Fibre Optic Coupler
• Connector Type: LC Duplex
• Fibre Type: Single Mode SM 9/125 μm
• Coupler Color: Blue
• Installation Use: Patch Panels, ODF Units, Termination Boxes
• Application: Telecom, Datacom, LAN/WAN, CCTV Backbone, Fibre Network Infrastructure
Applications
• Fibre optic patch panels.
• Optical distribution frames.
• Fibre termination boxes.
• SFP module fibre connections.
• Telecom and datacom equipment.
• LAN/WAN fibre networks.
• CCTV and low current fibre backbone systems.
Connect Gates Recommendation
Connect Gates recommends Prolink PL-CLC-D-SM for professional single mode fibre optic installations that require reliable LC duplex connections in compact or high-density fibre environments.
It is a suitable choice for network racks, data rooms, ODF units, patch panels, and CCTV fibre backbone systems, especially when the project requires SM 9/125 μm transmission, clean cable management, and stable fibre connectivity.