The Fast Connector (Field Assembly Connector or Field terminated fiber connector, quickly assembly Fiber connector) is a revolutionary field installable optical fiber connector that requires no epoxy and no polishing, this connector during the installation process does not require any adhesive and curing process. The unique design of the patented mechanical splice body incorporates a factory-mounted fiber stub and a pre-polished ceramic ferrule, They are widely used in FTTx, Connecting up Renovation of Computer/controlling Room applications.
The Fast connectors have a potential fiber connector station time of less than 30 seconds, including preparation. Apart from the standard fiber preparation tools, no other specialized tools are required in conjunction with the PC range of connectors; however APC variants require some additional tooling.
Using this onsite assembly optical connector, it is possible to improve the flexibility of optical wiring design as well as reducing the time required for fiber termination. The Fast connector series are already a popular solution for optical wiring inside buildings and floors for LAN & CCTV applications and with the expansion of FTTH, is already proving itself.
We provide field installable high reliability SC/PC, SC/APC Fast connectors, our using our top quality Ceramic Ferrules with reliable and superior optical performance, their cable tensile test complied with Telcordia GR-326-CORE.
In Stock
Fast Connector
The Fast Connector (Field Assembly Connector or Field terminated fiber connector, quickly assembly Fiber connector) is a revolutionary field installable optical fiber connector that requires no epoxy and no polishing, this connector during the installation process does not require any adhesive and curing process. The unique design of the patented mechanical splice body incorporates a factory-mounted fiber stub and a pre-polished ceramic ferrule, They are widely used in FTTx, Connecting up Renovation of Computer/controlling Room applications.
Reviews
There are no reviews yet.