Showing results: 31 - 45 of 93 items found.
-
PulseGen -
land-boards
Pulse Generator for use with an oscilloscope as a Time Domain Reflectometer (TDR).
-
GAO Tek Inc.
Fiber rangers are a form of test equipment functioning similarly to an optical time domain reflectometer (OTDR).
-
TMO350 Series -
T&M Tools Limited Co
TMO350 series Optical Time Domain Reflectometer(OTDR) is the new generation of intelligent meter for the detection of fiber communications systems.
-
GT00ZD00ZY -
GAO Tek Inc.
GAOTek Cable Fault Locator with Time Domain has a reflectometer to locate faults in metallic cables and Intelligent bridge for tesing the broken line
-
4401700 -
BI Communications
The FaultCasterTM is a palm-top Digital Time Domain Reflectometer designed to detect and locate faults on all types of copper cable up to a distance of 2000m (6,000ft).
-
TM1000 -
T&M Tools Limited Co
Designed to aid in the testing of fiber optic cable when using an OTDR. The OTDR LaunchFiber box is used with Optical Time Domain Reflectometers (OTDR's) to help minimize the effects of the OTDR's launch pulse onmeasurement uncertainty.
-
Renesas Electronics Corp.
C is a 1 650 nm Multiple Quantum Well (MQW) structured Distributed Feed-Back (DFB) pulsed laser diode DIP module with single mode fiber and internal thermoelectric cooler. It is designed for light sources of Optical Time Domain Reflectometer (OTDR).
-
APD -
Macom Technology Solutions Holdings Inc.
MACOM’s new Optical Time Domain Reflectometer (OTDR) detector products are based on proprietary Avalanche Photodetector (APD) Technology. The MACOM OTDR products are a low noise, low dark current and highly sensitive inGaAs/GaAs APD operating between 1250nm to 1650nm.
-
Shanghai Fibretool Technology Co.,Ltd.
Designed to aid in the testing of fiber optic cable when using an OTDR. TheOTDR Launch Cable Box is used with Optical Time Domain Reflectometers (OTDRs) to help minimize the effects of the OTDRs launch pulse on measurement uncertainty. Available in many different configurations and fiber lengths.
-
Shanghai Fibretool Technology Co.,Ltd.
Designed to aid in the testing of fiber optic cable when using an OTDR. TheOTDR Launch Cable Box is used with Optical Time Domain Reflectometers (OTDRs) to help minimize the effects of the OTDRs launch pulse on measurement uncertainty. Available in many different configurations and fiber lengths.
-
FiberPal OT-8800 -
Radiantech, Inc.
OT-8800 series instruments are compact, cost-effective, portable and high dynamic range Mini Optical Time Domain Reflectometer (OTDR). By providing all the measurement functions and performance required for optical fiber construction and maintenance, it is designed for full-range fibre fault detection to solve FTTx, CATV and optical LANs problems
-
TX6000 -
BI Communications
The TX6000 is a hand held Time Domain Reflectometer with 11 range scales covering the range 0-6000 meters, with a 7 mater first range scale and a 0.5 meter dead zone near and far end faults are clearly displayed on its 128×64 pixel back light Liquid Crystal Display.
-
TLM-02D -
Hangzhou Tuolima Network Technologies Co., Ltd.
OTDR-02D series Optical Time Domain Reflectometer (OTDR) is an intelligent meter of a new generation for the detection of fiber communications systems. With the popularization of optical network construction in cities and countrysides, the measurement of optical network becomes short and disperse; OTDR-02D is specially designed for that kind of application. It’s economic, having outstanding performance.
-
CM Technologies Inc.
The handheld Time Domain Reflectometer (TDR) consists of CM Technologies’ PCI-3127 high-performance metallic TDR card packaged in a rugged handheld computer form factor. The software interface uses an easy to follow menu structure to assist in acquiring, saving and interpreting TDR signatures – extremely flexible when compared to traditional instrumentation.
-
Megger Group Ltd.
Cable testing can be broken down to different steps of the process, starting with a time domain reflectometer test to look for an incident signal on the line or, in some high resistance situations, VLF testing. These tests will identify a fault, allowing you to move on to pre-locating it. In some low resistance faults this will occur alongside the identification via the TDR.
