Low-dispersion single-mode optical fiber

A single-mode fiber, low dispersion technology, applied in the field of optical communication, can solve the problems of high power cost, unsatisfactory, high cost, and achieve the effects of increasing the effective area, simple manufacturing method, and low attenuation

Active Publication Date: 2020-02-11
SHANTOU HIGH TECH ZONE AOXING OPTICAL COMM EQUIP
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  • Abstract
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AI Technical Summary

Problems solved by technology

[0002] The working range of the 5G fronthaul color light solution is within 1271-1371nm, while the dispersion of traditional G.652 single-mode fiber in the range of 1351-1371nm is relatively large, and the transmission power cost is slightly higher, so APD high-sensitivity detectors are required to detect Do power compensation, and the cost of APD is much higher than PIN detector
Other optical fibers, such as dispersion-flat optical fiber, non-zero dispersion-shifted single-mode fiber, and low-slope non-zero dispersion-shifted single-mode fiber, etc., are optimized for dispersion in the range of 1450nm to 1600nm, which cannot meet the requirements of 5G fronthaul colored light solutions.

Method used

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Embodiment 2

[0057] Example 2 and Example 9 show that the relative refractive index difference of a single raised cladding layer is an annular area integral Δ3×(R3 2 -R2 2 ) is not enough to improve the dispersion slope.

[0058] The practical application of optical fiber has requirements on MFD, dispersion value and bending resistance performance. In order to ensure a large Δ2×(R2 2 -R1 2 ) and Δ3×(R3 2 -R2 2 ), the influence of the second sunken cladding on various parameters is much smaller than that of the first sunken cladding and the convex cladding, so a very deep and wide second sunken cladding can be prepared to improve the bending resistance. Based on the above multi-cladding constraints, in order to reduce the dispersion and attenuation of the material, the method of reducing the doping of germanium in the core layer can be adopted, and the parameters of the core layer can be adjusted and optimized within a certain range. A broadband low-dispersion single-mode fiber with a ...

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Abstract

The invention relates to a low-dispersion single-mode optical fiber, which comprises a core layer and a cladding, and is characterized in that the radius R1 of the core layer ranges from 3 to 5 microns, and a relative refractive index difference delta 1 of the core layer ranges from 0.15% to 0.45%; the cladding sequentially comprises a first sunken cladding, a protruding cladding, a second sunkencladding and an outer cladding from inside to outside; the unilateral width (R2-R1) of the first sunken cladding ranges from 2 to 7 mu m, a relative refractive index difference delta 2 ranges from -0.4% to -0.03%; the unilateral width (R3-R2) of the convex cladding ranges from 2 to 7 mu m, a relative refractive index difference delta 3 ranges from 0.05% to 0.20%, the unilateral width (R4-R3) of the second sunken cladding ranges from 0 to 8 mu m, and a relative refractive index difference delta 4 ranges from 0% to -0.2%; and the outer cladding is a pure silicon dioxide glass layer. The low-dispersion single-mode optical fiber has reasonable design of the core cladding, is convenient in process control, is compatible with an existing G.652 optical fiber, and can have low dispersion in the wave band of 1270-1380 nm.

Description

technical field [0001] The invention relates to a low-dispersion single-mode optical fiber, which belongs to the technical field of optical communication. Background technique [0002] The working range of the 5G fronthaul color light solution is within 1271-1371nm, while the dispersion of traditional G.652 single-mode fiber in the 1351-1371nm band is relatively large, and the transmission power cost is slightly higher, so APD high-sensitivity detectors are required to detect For power compensation, the cost of APD is much higher than that of PIN detectors. Other optical fibers, such as dispersion-flat optical fiber, non-zero dispersion-shifted single-mode fiber, and low-slope non-zero dispersion-shifted single-mode fiber, etc., are optimized for dispersion in the range of 1450nm to 1600nm, which cannot meet the requirements of 5G fronthaul colored light solutions. Therefore, preparing a new type of single-mode fiber compatible with the existing G.652 fiber and having low d...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G02B6/036
CPCG02B6/03644G02B6/03694G02B6/03666G02B6/02271G02B6/02009G02B6/02214
Inventor 闫长鹍肖武丰王润涵王铁军曹蓓蓓程铭
Owner SHANTOU HIGH TECH ZONE AOXING OPTICAL COMM EQUIP
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