4 Channel Micro Connect Mt Fiber Connector Glass For High Speed Data Transmission

Fiber arrays utilize a V-groove structure to precisely arrange multiple optical fibers. Its core components, including a plug, slot, and fiber docking mechanism, ensure submicron alignment with the pinholes of the MT ferrule. This design enables parallel transmission of 12, 16, or 24 optical fibers within a single interface, significantly improving connection density and stability. Combined with high-precision polishing, this technology minimizes insertion loss to less than 0.3dB, providing reliable physical layer support for 400G optical modules.

In AI data centers and 5G fronthaul networks, MT connectors utilize a multi-channel parallel transmission architecture to boost single-channel speeds to over 100G. Its rectangular ferrule structure accommodates 12-24 optical fibers, while an elastic sleeve maintains connection stability, meeting the low latency and high throughput requirements of 800G active cables. For example, fiber arrays utilizing Lambda Splitting technology can increase bandwidth efficiency by 50%, effectively optimizing data center interconnect performance.

For hyperscale data centers, MT connector micro-connection technology enables mass deployment through automated assembly processes. Pre-terminated MT patch cords replace traditional single-core cable bundles, increasing cabinet space utilization by over 80%. Zirconia ceramic ferrules, combined with a slotted sleeve clamping mechanism, ensure a mating and unmating lifespan exceeding 1,000 cycles, significantly reducing maintenance costs.

Using an active alignment system to compensate for mechanical tolerances, the micro-connection of MT connectors to fiber arrays achieves a breakthrough insertion loss of less than 0.15dB. The 8° bevel polish (APC) design delivers return loss exceeding 60dB, while the three-dimensional position adjustment system controls fiber center offset to within 0.1μm. This technology is particularly suitable for long-distance transmission scenarios, significantly reducing the impact of signal reflections on transmission quality.

The optimized micro-connection system utilizes a press-lock mechanism and keyed design to prevent mis-mating, maintaining a stable insertion and removal force below 4.9N. The integrated software package, compatible with the CMIS 5.2 specification, simplifies the development process for QSFP-DD and OSFP cable products. Working in tandem with wavelength division multiplexing and parallel transmission, the system supports 32 channels of simultaneous transmission, providing underlying support for AI computing networks.