MPO to LC 12 Core Breakout Cable
High-Density Fiber Fanout Solution for Data Center Interconnects
The MPO to LC 12 Core Breakout Cable is designed to provide efficient fiber distribution between high-density MPO/MTP backbone systems and LC-based network equipment. Featuring one MPO/MTP connector terminated to six duplex LC connectors, this breakout cable enables seamless migration from parallel optics to duplex fiber connectivity.
Manufactured with premium single mode or multimode fiber and precision connectors, the cable delivers low insertion loss, reliable optical performance, and simplified deployment for modern data center environments.
Key Features
- MPO/MTP to LC Duplex Breakout Design
- 12 Fiber High-Density Architecture
- Supports 40G and 100G Network Applications
- Factory Pre-Terminated and Tested
- Low Insertion Loss and High Reliability
- Plug-and-Play Installation
- Available in OS2, OM3, and OM4 Fiber Types
- RoHS and REACH Compliant
Technical Specifications
- Fiber Count: 12 Fibers
- Connector A: MPO/MTP Male or Female
- Connector B: 6 × LC Duplex Connectors
- Fiber Type: OS2 / OM3 / OM4
- Insertion Loss: ≤ 0.35 dB
- Return Loss: ≥ 60 dB (Single Mode)
- Jacket Material: LSZH / OFNR / OFNP
- Standard Lengths: 1m, 3m, 5m, 10m or Customized
Applications
- Data Centers
- 40G to 10G Network Migration
- 100G to 25G Ethernet Connectivity
- Spine-Leaf Architectures
- Switch and Server Interconnections
- High-Density Patch Panel Systems
OEM & Customization
OEM and ODM services are available, including:
- OS2 / OM3 / OM4 fiber options
- Male or Female MPO/MTP connectors
- Type A or Type B polarity
- Custom cable lengths
- Private label packaging
- Custom labeling and configurations
Why Choose Our MPO to LC 12 Core Breakout Cable?
Designed for next-generation data center infrastructure, our MPO to LC breakout cable provides a scalable, high-density, and cost-effective fiber connectivity solution. With factory-tested performance and rapid deployment capability, it helps simplify network upgrades while ensuring reliable optical transmission.