MTP 16 Jumper,Multimode fiber(OM4),Type C,MTP 16 Jumper APC (Male) to MTP 16 Jumper APC (Male),OFNP-Plenum,1m (3.28ft)~100m (328.08ft)

Description MTP 16 Jumper MTP® jumpers enable smooth upgrades to higher bandwidth in data centers when paired with our trunk assemblies. Commonly deployed for cabinet-level interconnections, MTP® cables offer a more economical solution than labor-intensive on-site terminations. Designed to support high-density fiber installations, they help maximize space utilization and simplify cable organization. MTP®-16 connectors are well-suited for 16-fiber multimode parallel optics, including 400G QSFP-DD SR8 module connections. Note: US Conec MTP® connectors comply fully with MPO interface standards and feature patented innovations, improved mechanical accuracy, tested durability, and superior optical performance over standard MPO connectors.   MTP 16 Jumper Advantage Specifications Connector A：US Conec MTP®-16 Male (with guide pins) with Offset Key Connector B：US Conec MTP®-16 Male (with guide pins) with Offset Key Polish Type：APC to APC Fiber Mode：OM4 50/125μm Wavelength：850/1300nm Fiber Count：16 Fibers Polarity：Type C Cable Outside Diameter (OD)：3.0mm Cable Jacket：Plenum (OFNP) Min. Bend Radius (Optical Fiber)：7.5mm Min. Bend Radius (Fiber Cable)：20/10D (Dynamic/Static) Connector Durability：500 times Tensile Strength：80/240N (Long/Short Term) Insertion Loss：0.35dB Max (0.15dB Typ.) Return Loss：≥20dB Attenuation at 850nm：≤2.3dB/km Attenuation at 1300nm：≤0.6dB/km Operating Temperature：-10 to 60°C (14 to 140℉) Storage Temperature：-10 to 70°C (14 to 158℉) *MTP is a registered trademark of US Conec Ltd.   MTP Jumper Cable Polarity The MTP® 16-fiber Type C male connector is a high-performance multi-fiber interconnect solution designed for advanced data center cabling and parallel optics. Type C polarity uses a pairwise crossover mapping, meaning that each pair of adjacent fibers is crossed to ensure proper alignment of transmit (Tx) and receive (Rx) channels between two connected devices. For example, in a 16-fiber Type C configuration: Fiber 1 ↔ Fiber 2, Fiber 3 ↔ Fiber 4, Fiber 5 ↔ Fiber 6 … Fiber 15 ↔ Fiber 16. This pairwise crossover provides direct Tx-to-Rx connectivity for duplex applications and parallel transmission systems. As a male connector, the MTP® Type C plug incorporates two guide pins that align precisely with a female connector during mating, ensuring low insertion loss and high return loss.   MTP Jumper Cable Key Features: Connector type: MTP® 16-fiber male (with alignment pins) Fiber count: 16 fibers in a single-row MT ferrule Polarity standard: Type C (pairwise crossover mapping) Cable jacket types: OFNR, OFNP, LSZH, with standard coding colors (OS2 = yellow, OM3/OM4 = aqua/violet, OM5 = lime green) Performance: Ultra-low insertion loss and optimized optical performance, exceeding generic MPO standards   MTP Jumper Cable Applications: Parallel optical transceivers: Suitable for 400GBASE-DR4, 200GBASE-DR4, and other 16-fiber parallel systems requiring crossover polarity Structured cabling systems: Used in backbone and interconnect cabling where pairwise crossover simplifies duplex routing High-density environments: Ideal for modular cassettes, patch panels, and backbone trunks in hyperscale and enterprise data centers Migration-ready designs: Supports seamless transitions from 40G/100G to 200G/400G optical networks   MTP Jumper Cable Advantages: Pairwise crossover polarity: Ensures proper Tx/Rx connectivity without additional cross-patch cabling High-density design: 16 fibers in a compact connector reduce space and cable congestion Reliable alignment: Male guide pins provide precise mating with female connectors Scalable for next-gen speeds: Compatible with high-speed transmission protocols for evolving data center needs   MTP 16 Jumper Advantage 100% use low-loss connectors Each MPO patch cord is fully tested for insertion loss & return loss, 100% tested, and batch goods are not sloppy Each line guarantees 3D geometric dimensions and end face integrity, imported equipment measures 3D, and dust-free workshops ensure cleanliness Affordable price, quality assurance, source manufacturers take both quality and price into consideration All materials have passed REACH/ROHS environmental protection requirements and are of export quality Adequate inventory, complete materials, and efficient production Customization of special specification MPO patch cords, fast delivery   MTP 16 Jumper SPIN-LEAF connection method MTP 16 Jumper Application High-speed interconnection in data centers It is used for direct connection of 40G/100G optical modules, supports 400G high-speed transmission, and can improve wiring density and transmission efficiency. For example, 400G QSFP-DD DR4 optical modules can be directly connected through MPO/MTP-8 multimode fiber jumpers. High-density wiring scenarios In the backbone wiring of data centers, MTP/MPO trunk fiber jumpers are used in conjunction with adapter modules to achieve interconnection and cross-connection between devices, saving 45% of wiring space. Branch jumpers are used to connect devices with different rates (such as 10G and 40/100G devices). 100G/400G transmission expansion Supports branch connection of 100G QSFP28 optical modules to 4 25G SFP28 optical modules, or interconnection of 100G CFP optical modules to another CFP. Fiber-to-Building Applications It is used for fiber-to-the-building (FTTB) wiring to meet the needs of high-density fiber access.   MTP 16 Jumper Test Series MTP 16 Jumper Polarity Test Process ‌End face cleaning: Use special equipment to remove end face contaminants to avoid affecting the test accuracy. Morphology detection: Analyze the end face microstructure through 3D imaging technology to detect surface roughness, scratches and other defects. Insertion loss test: Measure the contact loss between the fiber end face and the connector ferrule to evaluate the signal transmission quality. Polarity verification: Confirm the correspondence between the number of fiber cores and the connector guide hole to prevent communication failure caused by wrong connection. MTP 16 Jumper Test Key Indicators Cleaning efficiency: It must reach more than 98% to ensure that there are no residual stains on the end face. ‌Detection accuracy: The resolution of 3D morphology detection must be less than 1.5μ, and the insertion loss error must be controlled within 0.3dB. Test time: It takes about 10 seconds to detect a single fiber core of a 12-core MPO jumper, and the overall test takes about 2 minutes. MTP 16 Jumper cable Test Common Problems Pollution sensitivity: Tiny particles on the end face will cause increased loss, and non-contact cleaning methods are required to protect the end face.