
CNL 1M OM4 B12 MPO LC4 DX BkO Aq M-B
- CPR Cca compliant
- Method B polarity harness
Product Specification
Box Content
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Overview
This 1m OM4 BASE-12 MPO female to 4 x LC duplex breakout cable provides a high performance pre-terminated fibre assembly engineered for dense optical switching environments and modular data centre architectures that prioritise scalability, repeatable quality, and reduced installation time. Manufactured with OM4 50/125 micron multimode fibre, it delivers elevated bandwidth for short reach parallel-optics deployments and supports 40G and 100G QSFP connectivity across enterprise, colocation, and hyperscale networks. The BASE-12 MPO female connector terminates twelve fibres in a single precision ferrule, reducing pathway congestion and simplifying backbone deployment compared with multiple duplex jumpers. Each fanout leg transitions to LC duplex connectors, enabling structured and disciplined server, switch, and panel connections while preserving airflow, improving rack serviceability, and maintaining predictable low-loss optical performance across mission-critical links.
Technical Features
- Fiber Type: High-Speed OM4 multimode fiber, 50/125 micron, optimized for 850nm and 1300nm wavelengths
- Connectivity: BASE-12 with one 12-fiber female MPO connector breaking out into four LC duplex pairs (8 fibers used for 40G/100G)
- Polarity: Method B "Crossover/Reversed" mapping for correct transmit-receive alignment
- Insertion Loss: Low insertion loss, typically 0.35 dB; Return loss ≥30 dB
- Fire Safety: CPR Cca Rated for public-sector and high-occupancy commercial buildings
- Jacket: LSZH (Low Smoke Zero Halogen) outer sheath for safety; aqua color for OM4 identification
- Design: Compact 3.0mm cable diameter reduces rack congestion and improves airflow
- Bandwidth: Supports 100G data transmission up to 150 meters
- Compatibility: Hardware ready for high-density switches such as Dell Networking S4048-ON, Z9100-ON, Force10 MXL blades
- Factory Terminated: Pre-terminated and tested for plug-and-play reliability