Data Communication MT Ferrule 4ch 8ch Micro Connect For Fiber Array Solutions

The fiber array micro connection technology achieves precise arrangement of multiple optical fibers through a V-shaped groove structure. Its core components include plugs, slots, and fiber docking devices, ensuring sub micron alignment with the pin holes of the MT plug core. This design enables parallel transmission of 12 core, 16 core, or 24 core optical fibers in a single interface, significantly improving connection density and stability. Combined with high-precision grinding technology, this technology controls insertion loss within 0.3dB, providing reliable physical layer support for 400G optical modules. In the 5G fronthaul network, the collaborative design of MT connectors and fiber optic arrays increases the single channel speed to over 100G, meeting the requirements of low latency communication.

The MT fiber optic connector adopts a rectangular plug core design, which achieves synchronous alignment of multi-core fibers through guide holes and V-shaped slots in the fiber array. The zirconia ceramic core and elastic sleeve structure ensure that the center offset of the optical fiber is less than 1 μ m and the insertion loss is controlled within 0.3dB. This technology is widely used in data centers, 5G base stations, and cloud computing scenarios, supporting mixed configurations of single-mode and multi-mode optical fibers. For example, in an 800G optical communication system, the MT connector uses a multi-channel parallel transmission architecture to increase the single fiber capacity to 32 channels, meeting the high bandwidth application requirements.

For ultra large scale optical networks, the micro connection technology between fiber arrays and MT connectors achieves batch deployment through automated assembly processes. Its plug-in life exceeds 1000 times, and it is equipped with PRESS locking mechanism to ensure quick connection and disconnection. For example, in backbone network transmission, the 16 core MT connector combined with wavelength division multiplexing technology increases the capacity of a single fiber by four times, while preventing connection errors through key anti misplacement design. This technology is particularly suitable for high-density cabling environments, providing stable support for data center interconnection.

Through active alignment system and 3D attitude adjustment technology, the micro connection between fiber array and MT connector achieves a breakthrough of fiber center offset less than 0.1 μ m. The 8 ° inclined polishing (APC type) design results in a return loss of better than 60dB, significantly reducing signal reflection during long-distance transmission. For example, in AI computing power networks, this technology reduces insertion loss to below 0.15dB and supports hybrid configurations of multimode and single-mode fibers, providing underlying support for 800G optical communication systems.

The optimized fiber array micro connection technology monitors the fiber docking status in real-time through a closed-loop control system and automatically adjusts the position of the guide pin to compensate for mechanical tolerances. Its insertion and extraction force is stable below 4.9N, and it supports CMIS 5.2 standard integrated software packages, simplifying the development process of QSFP-DD and OSFP cable products. In cloud computing environments, this technology provides flexible solutions for high bandwidth applications, ensuring that MT connectors maintain low loss transmission characteristics over long-term use.