24 Core Fiber Array Micro Mt Connector High Speed Networks Mt Ferrule Connector

The MT fiber optic connector achieves precise alignment of multi-core fibers through a rectangular core and pinhole structure. Its zirconia ceramic core and elastic sleeve design ensure that the center offset of the fiber is less than 1 μ m, significantly reducing insertion loss (<0.3dB). This micro connection technology compensates for mechanical tolerances through an active alignment system, improving connection stability by 50%, making it particularly suitable for harsh environments such as 5G fronthaul and backbone networks. For example, in a 400G optical module, a 12 core MT connector paired with a V-shaped slot structure of the fiber array results in a single channel bit error rate below 10 ^ -12, providing reliable support for high-density networks.

By using an 8 ° inclined polishing (APC type) design, the MT connector optimizes the return loss to better than 60dB, effectively suppressing signal reflection during long-distance transmission. Its three-dimensional attitude adjustment system controls the offset of the fiber center within 0.1 μ m, further reducing the insertion loss to below 0.15dB. In the wavelength division multiplexing system, the 16 core MT connector supports 32 channel synchronous transmission, increasing the single fiber capacity by 4 times. At the same time, the key position anti misconnection design ensures connection reliability, making it particularly suitable for data center interconnection scenarios.

For the 800G optical communication system, the MT connector adopts PRESS locking mechanism and automated assembly process to stabilize the insertion and extraction force below 4.9N, and the docking repeatability error is less than 0.1 μ m. Its multi-channel parallel transmission architecture supports single channel speeds of over 100G, and with Lambda Splitting technology, bandwidth efficiency is increased by 50%. For example, in AI computing power networks, 24 core MT connectors replace traditional cable bundles with pre terminated jumpers, increasing cabinet space utilization by 80% and meeting high-density cabling requirements.

The fiber array forms a complementary structure with a silicon-based V-groove and a guide pin positioning system for MT inserts, and compensates for the difference in thermal expansion coefficient using active alignment technology. This scheme enables sub micron level alignment of 12 core/16 core/24 core optical fibers in a single interface, with insertion loss<0.3dB, and supports multiple end face processing methods such as PC/UPC/APC. Its elastic centering sleeve design maintains long-term connection stability, with a plug-in life of over 1000 times, becoming the standard interface for data center backbone networks.

The collaborative design of MT connectors and fiber optic arrays optimizes network architecture through multi-channel parallel transmission. For example, in a 400G optical module, a 12 core MT connector combined with wavelength division multiplexing technology increases the single fiber capacity to 32 channels. Its low loss characteristics (insertion loss<0.15dB) and high stability (plug life>1000 times) meet the stringent reliability requirements of fiber optic communication, and are widely used in 5G fronthaul, cloud computing, and ultra large scale data center scenarios. (AI generated)