![]() ![]() A comprehensive line of measurement options is available to extend the capability of all three configurations including extended wavelength range, numerical aperture capability for multimode fibers, plus geometry characterization of several types of specialty fibers. The 2300 is available in a variety of configurations including the combined spectral loss and geometry system, as well as specialized spectral loss or fiber geometry systems. The 2300's higher data acquisition speed provides additional cost reduction and test station throughput. The resultant elimination of redundant fiber preparation and handling alone enables fiber and cable manufacturers to reduce the time and expense associated with these "short fiber" measurements by more than 50 %. At wavelengths just below the cut-off, a few modes may be guided, whilst multi-mode fiber operates far below the second order cut-off point. Cut-off wavelength is important because, in most cases, it determines your choice of fiber type. The new 2300 Fiber Analysis System is the first optical fiber test instrument to combine these two critical measurements on the same test station. The second order mode cut-off wavelength (commonly shortened to cut-off) refers to the wavelength above which the fiber is single-mode only at wavelengths above the cut-off will the fiber guide be single-mode. cut-off wavelength) and fiber geometry characterization. The new industry standard for spectral loss and geometryįor over 30 years, Photon Kinetics' 2200 Fiber Analysis and 2400 Fiber Geometry Systems have been considered the industry standards for single-mode spectral loss (e.g. ![]()
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