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An optical fiber’s naturally diverging light emission must be converted into a parallel beam of light using collimators.The majority of available fiber-optic collimators are made for thin fibers with low NA.
The majority of these standard products are unable to collimate high NA fibers, such as Polymer Optical Fibers (POF) and Hard Polymer Cladding Fibers, without significantly reducing output power (see Appendix for a discussion of the reasons why special high NA collimators are required).
TheGlobal Fiber Collimators market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
The company has added seven fiber optic collimators to its standard lineup, all of which are intended for superior performance when collimating over extended ranges.
The company has added seven fiber optic collimators to its standard lineup.The company’s patent-pending laser fusion technology is used in each design.
In this method, the fiber is directly attached to the back of the collimating lens, which reduces the complexity and cost of packaging.
The products are made to perform better over longer collimation distances specifically.The addition of a beam collimator with a 600-micron diameter and very low (typically 0.5 dB) and very flat (typically +0.3 dB) insertion loss per pair of collimators over a separation distance of 100 mm to 150 mm is especially important for many optical switching applications.
The miniature housing of this design has the same 1.65 mm diameter as the original 430-micron beam collimator.
Additionally, custom packages are now available for collimating assemblies with larger diameters.In the next generation of optical networking products, such as optical cross connects, add-drop multiplexers, wavelength switches, matrix switches, and high channel count DWDM modules, standard beam diameters of up to 7.5 mm are proving to be crucial components.
