8 Cores MPO To FC Fan Out Patch Cord

The 8 Cores MPO To FC Fan Out Patch Cord is an MPO harness cable that is ideal for a high density environment (like fiber patch panels, QSFP and SFP+ ports, media converters or routers). It is made of laser optimized OM3 50/125 um multimode fiber with LSZH/OFNP/OFNR fire-retardant jacket.

High Density

MPO fan-out patch cords are used to connect multiple devices with different connector interfaces. The cables are designed for high-density connections between 40G QSFP+ SR4 network equipment and provide a direct connection from the structured cabling to the active transceiver. The cable consists of several tight-buffer optical fibers with one end terminated with a male or female MPO connector and the other end usually with LC connectors. These high-density patch cords are ideal for high speed applications and work well for a wide range of applications such as data centers and switch cabinets.

MTP / MPO pre-connectorized multi-fiber optic cables are becoming more popular for fiber installation projects because they save time and money by eliminating the need for on-site termination or splicing. OM4 MPO-to-LC breakout cords can be made with different combinations of fiber counts, fiber mode, connector type and length, to meet the specific requirements of your network.

In addition to MPO-to-LC patch cords, we also offer a variety of MPO cassettes for those who need more organized fiber distribution. For example, our MPO cassettes with 12 or 24 fibers have a 12- or 24-fiber mini MPO fan-out cable in the back side and six duplex LC connectors in the front. These MPO cassettes are ideal for distributing optical signals from a central office to the desktop.

High Performance

MPO fanout patch cords allow you to easily transition from ribbon fiber to individual connector ports in a wide variety of applications. They are also commonly known as harness cables or hyrda mpo-fanout-patchcord cables, and are ideal for high density environments (fiber patch panels, 40GBASE-SR4 switches, routers and media converters). They provide dependable connections between network equipment with MPO/MTP connectors and save space by eliminating the need for front panel ports on switch or device.

MPO / MTP pre-connected cable is factory-terminated and tested to ensure consistent transmission performance, reducing installation time. They are a cost-effective solution compared to on site termination and splicing, and offer reliability and quality in critical application areas like data center connections. MPO / MTP cables are available with an array of connector types, including LC, LC uniboot, SC and FC, and can be customized to meet specific applications.

Our mpo-fanout-patchcord can be connected to a single MPO connector on one end and duplex LC connectors on the other, reducing overall cable size and improving fiber management. Our MPO fanout patches can be used in both multimode and single mode applications and are designed to deliver high speed, reliable data transmission with low insertion loss. We offer a wide selection of MPO-LC patch cords in a variety of lengths and connector configurations, including a 1-to-2 version that allows three eight-fiber MPO/MTP trunk cables to be joined to a 24-fiber permanent link for migration to 100GbE.

Easy to Install

MPO Fan out Patch Cords, also called MPO breakout cables, are a high density backbone solution for fiber rack system. They can be terminated with MPO connector on one end and LC, SC, or ST connectors on the other end to meet various requirements. They work from MPO cassettes and are designed for high speed applications that require both performance and quick installation.

They come with tightly tolerance ceramic ferrules ensuring consistent low loss. These MPO-LC patch cords are available in single-mode (OS2) or multi-mode OM4 fiber and can be ordered in different lengths. For plenum environments, our single-mode MPO-LC fan out cable comes in a 5m (approximately 15ft) length with an OS2 jacket.

These MPO-LC fiber jumpers are an ideal solution for 10G, 40G, and 100G data center networks. They can be used in parallel interconnections between devices, micro modules, active optical cables, and other situations that require a large number of MPO/MTP connections. These cables also feature lower insertion loss to ensure signal transmission reliability and optimal network performance.

These MPO cables have a high density of up to 72 fibers in a single jacket. They provide the bandwidth capacity required for high-speed data transmission in modern data centers, data center allowing them to meet the growing demand for higher connectivity and performance. Moreover, these cables offer better cable management and can be easily plugged in to MPO patch panels.

Durable

MPO fan-out patch cords are highly durable, making them a perfect choice for high-density data center networks. They feature ruggedized MPO connectors that can withstand repeated insertions, and they can be used in a variety of indoor environments. They also have low insertion loss, which helps ensure reliable signal transmission.

The 8 Cores MPO To FC Fan Out Patch Cord features Corning/YOFC OM4 fibers, which deliver excellent performance over short to medium distances. They are also designed to withstand the stress of repeated bending, which means they can be easily routed over long distances without losing connectivity or suffering damage. In addition, this cable has a standard jacket that makes it safe for use in plenum spaces within buildings.

When paired with an MPO cassette, the MPO to LC fan out cable can be used to create a high-density connection between 40GBASE-SR4 network devices and QSFP transceivers. The cable provides a high-speed, low-loss path between the MPO interface and multiple LC connections.

MPO to LC fan-out cables are factory-terminated, which reduces installation time and ensures consistent quality. They are also tested for performance to ensure they deliver a stable, reliable connection. With these advantages, MPO to LC fan-out patch cables are ideal for high-density data centers and other applications that require a large number of optical fiber connections.