Optical Time-Domain Reflectometer features handheld strap.
Press Release Summary:
Designed for Fiber-to-the-x network testing, Model 6416 locates faults or breaks of optical fiber and measures physical characteristics including length, transmission loss, and splice loss. Operating for more than 10 hr on single charge, it features event dead zone of 1.6 m, resolution of 0.25 m, and 65,535 sampling points. Unit has anti-reflective TFT LCD and dual USB interfaces which support USB stick and direct cable download to PC via ActiveSync.
Original Press Release:
Optical Time-Domain Reflectometer with Handheld Strap
Toronto, Canada - GAO Comm (www.GAOComm.com) has launched its palm-sized optical time-domain reflectometer (OTDR) designed for Fiber-to-the-x (FTTx) network testing. The handheld OTDR is used in the manufacture, construction and maintenance of fiber optic communication systems. It locates faults or breaks of optical fiber and measures the physical characteristics including length, transmission loss and splice loss.
This compact optical time-domain reflectometer, model 6416, features a short event dead zone of 1.6m, a high resolution of 0.25m, 65535 sampling points and a long operating time of more than 10 hours on a single charge. The lightweight OTDR offers four optional wavelengths including 1310nm, 1550nm, 1625nm and 1490nm. It supports Bellcore GR196 file format for file management. This rugged OTDR provides dual USB interfaces supporting both USB stick and direct cable download to a PC via ActiveSync. It is equipped with an anti-reflective TFT LCD screen for clear view and a comfortable strap for easy carrying.
Visit www.GAOComm.com for more information or to purchase this product online.
For any sales inquires please contact:
1-877 585-9555 ext. 601 - Toll Free (USA & Canada)
1-416 292-0038 ext. 601 - All Other Areas
sales@gaocomm.com
About GAO Comm
GAO Comm (www.GAOComm.com) is an international leading provider of communication test instruments, equipment for the installation, testing and maintenance of communications infrastructures.
