Wirewerks Sm B/I 2F 1.2mm lc/apc-lc/apc, 18m; CPC-E7LSBLSB-018

Confluent Technology Group

  • $ 14.99
    Unit price per 

In Stock: 180
This product is available.



FOPC, Sm B/I 2F 1.2mm OFNR, lc/apc-lc/apc, 18m; RoHS Compliant, Quality Control,
Telecordia GR-326-CORE-Compliant;
RoHS Compliant- RoHS is a product level compliance based on the European Union's Directive 2002/95/EC, 
the Restriction of the Use of certain Hazardous Substances in Electrical and Electronic Equipment (RoHS).

Quality Control- Quality control (QC) is a process through which a business seeks to ensure that product quality is maintained or improved with either reduced or zero errors. Quality control involves testing of units and determining if they are within the specifications for the final product.

Telecordia GR-326-CORE Compliant- “Generic Requirements for Single-mode Optical Connectors and Jumper Assemblies,” is a specification for single-mode connectors and cable assemblies only. ... Essentially, GR-326 is a performance specification for cable assemblies.

FOPC- Fiber Optic Patch Cord- Wirewerks fiber optic patch cords provide the ideal medium for all your fiber optic interconnect applications. They are designed, manufactured and tested according to protocol and performance dictated by the industry standards. The quality of the components used to build our fiber optic patch cords ensures long lasting and high repeatability connections. Wirewerks offers a wide variety of connector options, jacket colors and diameter as well as different flammability ratings, and have the capability to custom build to meet your most stringent mechanical and performance specifications. All Wirewerks’ patch cords have an identification label and have a unique serial number assigned to them. On each of these labels the part number, serial number, and the length of the patch cord are displayed for easy product recognition and traceability.

SM B/I 2F- Singlemode Bidirectional Duplex fiber- Singlemode fiber optic cable has a small core and only one pathway of light. With only a single wavelength of light passing through its core, singlemode realigns the light toward the center of the core instead of simply bouncing it off the edge of the core as with multimode.  Singlemode is typically used in long-haul network connections spread out over extended areas--longer than a few miles. For example, telcos use it for connections between switching offices. Singlemode cable features a 9-micron glass core.  

Duplex cable consists of two fibers, usually in a zipcord (side-by-side) style. Use duplex multimode or singlemode fiber optic cable for applications that require simultaneous, bi-directional data transfer. Workstations, fiber switches and servers, fiber modems, and similar hardware require duplex cable. Duplex fiber is available in singlemode and multimode.

OFNR- Optical Fiber Nonconductive Riser- OFNR refers to the fiber rating of the cable jacketing. OFNR is the designation given by the National Fire Protection Association (NFPA) to interior fiber-optic cables which contain no electrically conductive component, and which are certified for use in Riser application.

LC/UPC-LC/UPC Connectors-  LC connector. (Lucent Connector) A miniaturized version of the fiber-optic SC connector. It looks somewhat like the SC, but is half the size with a 1.25mm ferrule instead of 2.5mm. UPC connectors are polished with no angle, but APC connectors feature a fiber end face that is polished at an 8-degree angle. With UPC connectors, any reflected light is reflected straight back towards the light source.    UPC connectors are generally used in Ethernet network equipment such as serial devices, media converters, and fiber switches. They are also implemented in telephony and data systems.  They are also blue in color.

*Note- This is a new item.  Please take a look at the pictures of the product to make sure it is the product you intend to buy.  If you have any questions, feel free to contact us for more information.  Thank you for your business!

Part #CPC-E7LSBLSB-018

We Also Recommend