96 Strand Indoor Plenum Rated OM3 Pre-Terminated ...

Our QuickTreX® Custom Pre-Terminated Fiber Optic Assemblies have a longstanding reputation for quality and reliability. When we receive your custom order, we build the assembly to your specifications using the finest materials to our exacting standards. The assembly is made in the USA by skilled technicians under controlled conditions and comes to you fully tested and ready for immediate installation.

If you want to learn more, please visit our website optec.

Our indoor plenum rated jacket assemblies are rated for all indoor installations, including plenum rated spaces. A cable rated for plenum installation will have low-smoke characteristics as defined by the NFPA (National Fire Protection Agency).

Typical Applications Include: 

• Headend Termination to a fiber "backbone"
• Termination of fiber rack systems
• Multi-floor deployment where select fibers are used at each floor
• Intra-building "backbones"

Standard QuickTreX® Micro-Distribution Features:

If you are looking for more details, kindly visit micro optics assembly.

• All Pre-Terminated Micro-Distribution Assemblies will be custom made at the time of your order, built with Corning® fiber and premium components to your specifications.
• All micro-distribution assemblies will be constructed using 12 strand grouped breakouts. Each strand will be reinforced with 2mm furcation tubing which helps ruggedize each strand and help protect it during installation. Each strand will include a sequential numerical label. Each 12 strand breakout kit will also be sequentially labeled to help identify each strand on opposite ends of your assembly.
• The buffer tubes will be securely fastened to each 12 strand breakout kit using high strength adhesive type heat shrink tubing.
• The first main breakout will be 12 inches from the main jacket and each group of 12 strands will include a 36" breakout. The main 12 inch breakouts kits will include a 6" stagger.
• The connectors itself will also be staggered to minimize the size of the pulling basket which will be approximately 1".
•  Heat shrink tubing will be used at:

1. 1. The transition from the buffer tubes to the cable jacket.
   2. The transition of each 12 strand inner cable to the breakout kit
   3. Where the basket meets with the turn buckle (pull eye hook)
   4. Where the basket ends and connects with the cables jacket

• One wrap around label will be attached to each end of the cable assembly for identification. The label text includes the cable part number and a unique serialized number.
• Pulling Eyes (pulling baskets), if equipped are made from super strong polyethylene mesh and feature a free-spinning buckle to eliminate twisting of the cable during the pull.

Micro-Distribution Features:

• Perfect for High Density Infrastructures
• Saves Space in Data Racks, Cabinets, and Closets
• Constructed of the highest quality materials 
• Made to exacting industry standards 
• Tested to meet or exceed EIA/TIA 568/ GR-409-CORE
• All aramid tensile strength members within sub-units
• Smaller cable diameter & more flexibility  

The assembly (align-&-attach) of micro-optical elements, fiber-optic connections and/or optoelectronic chips and components in to finished and qualified photonic devices is what we at ficonTEC categorize as photonics assembly & test. To a degree, this incorporates &#;packaging&#; too. Typical devices include telecom/datacom transceivers (TOSA/ROSA/BOSA), infrastructure devices for 5G networks, 3D laser scanners for use in commercial sensing as well as automotive and aerospace (lidar) systems, integrated photonic integrated circuits (PICs), high-power multi-emitter laser assemblies, micro-optical and optofluidic systems, integrated camera modules, and much more.

Advanced automation of the assembly process steps requires multi-axis, sub-micron-accuracy (passive/active) component alignment, and subsequent bonding using (UV-) epoxy compounds, thermal-based or laser soldering and/or laser welding. In particular, all manufacturing steps need to be compliant with stringent and often individual requirements for yield, process repeatability and performance reliability, while still enabling minimal process cycle time and minimum downtime.

In-production devices, from simple devices such as laser diode chips and VCSELs, all the way up to the more complex devices noted above, all additionally need testing both at various stages during assembly and at &#;end-of-line&#;. This often encompasses burn-in, LIV tests, beam and spectral characterization, as well as device design validation and performance verification.

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