MPO/MTP 48 Core High Density Trunk Cable
Ultra High-Density Fiber Solution for Hyperscale and AI Data Centers
The MPO/MTP 48 Core High Density Trunk Cable is designed for next-generation data centers requiring maximum fiber density, scalability, and high-speed connectivity. Featuring 48 fibers within a compact cabling system, this trunk cable significantly optimizes rack space utilization and simplifies high-capacity backbone deployment.
Pre-terminated with precision MPO/MTP connectors, the cable delivers low insertion loss, reliable optical performance, and rapid plug-and-play installation. It is an ideal solution for hyperscale data centers, AI clusters, cloud computing environments, and high-density network infrastructures supporting 100G, 400G, and emerging 800G applications.
Key Features
- MPO/MTP 48 Fiber High-Density Architecture
- Supports 100G / 400G / 800G Network Applications
- Factory Pre-Terminated for Rapid Deployment
- Low Insertion Loss and High Reliability
- Maximizes Rack Space Efficiency
- Available in OS2, OM3, and OM4 Fiber Types
- Plug-and-Play Installation
- RoHS and REACH Compliant
Technical Specifications
- Fiber Count: 48 Fibers
- Connector Type: MPO/MTP Male or Female
- Fiber Type: OS2 / OM3 / OM4
- Polish Type: UPC
- Insertion Loss: ≤ 0.35 dB (Standard), Elite Low-Loss Optional
- Jacket Material: LSZH / OFNP / OFNR
- Operating Temperature: -20°C to +70°C
- Standard Lengths: 1m, 3m, 5m, 10m, Custom Length Available
Applications
- Hyperscale Data Centers
- AI and High-Performance Computing (HPC)
- Cloud Computing Infrastructure
- Spine-Leaf Network Architecture
- High-Density Patch Panel Systems
- 100G, 400G and 800G Ethernet Networks
OEM & Customization
OEM and ODM services are available, including custom fiber types, connector configurations, cable lengths, polarity options, private label packaging, and project-specific labeling.
The MPO/MTP 48 Core High Density Trunk Cable provides a future-ready backbone solution for modern data center environments, delivering exceptional density, scalability, and optical performance for mission-critical network infrastructures.