The MTP® OM4 50/125 Multimode 12-Fiber Trunk Cable Type A represents a cutting-edge solution for high-density network environments demanding superior performance and reliability. This meticulously engineered cable features US Conec MTP® female connectors on both ends, offering a robust Type A (straight through) configuration that ensures seamless connectivity and signal integrity.
Designed to excel in data centers, enterprise networks, and high-speed communications infrastructure, this OM4 fiber cable boasts an impressive Effective Modal Bandwidth of 4700 MHz/km at 850nm. It supports 10Gb transmissions up to 550 meters and 40/100Gb transmissions up to 150 meters, making it an ideal choice for applications requiring high bandwidth and low latency.
The cable's core construction utilizes premium Corning® glass, with a 50µm core and 125µm cladding, ensuring optimal light transmission and minimal signal loss. Its OFNP (Plenum) rated aqua jacket, measuring 3.0mm in outer diameter, not only facilitates easy identification but also complies with stringent fire safety standards for installation in plenum spaces.
Compatibility with both LED and VCSEL laser light sources enhances the cable's versatility across various network architectures. The integrated push-pull mechanism of the MTP® connectors facilitates quick and secure connections, simplifying installation and maintenance procedures.
Each cable undergoes rigorous 100% factory testing, with a detailed report included in every package, ensuring uncompromised quality and performance. The addition of protective dust caps safeguards the connectors from environmental contaminants, maintaining the cable's integrity during storage and installation.
This MTP® OM4 trunk cable excels in applications requiring high-density fiber terminations, offering significant space savings and cost reductions in installation and maintenance. Its superior bandwidth capabilities and low insertion loss (< 0.3 dB) make it an excellent choice for future-proofing network infrastructure against increasing data transmission demands.