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6x6 Square 2D FA MM 62.5/125um Fiber Array with armored tube fiber alignment
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xDétails sur le produit
| Wavelength (nm) | 200~1800 | Largeur de bande d'exploitation (nm) | ± 15 |
|---|---|---|---|
| Perte d'insertion (DB) | ≤ 0,5 (type 0,4) | PDL (DB) | ≤ 005 |
| Puissance de traitement (mW) | ≤300 | Répétabilité (dB) | ≤ ± 0.05 |
| Fiber type | Various single-mode/multi-mode, polarization-maintaining, and double-clad fibers are available. | NA | 0.12/0.22 |
| Attenuation par fibre unique | ¥1 dB/m | Résultat du canal | ≥99 % |
Description de produit
6x6 Square 2D FA MM 62.5/125um Fiber Array with armored tube
The 6x6 two-dimensional fiber array is a high-precision, multi-channel optical component comprising 36 fibers arranged in a 6-row by 6-column configuration. Typically fabricated using silicon-based V-groove or photolithography techniques, it is employed in optical communications, sensing, and laser processing applications to achieve precise fiber positioning, coupling, splitting, and combining. Its critical characteristics include core-to-core distance accuracy, consistency, and low crosstalk.
Feature:
*High-Precision Positioning: Utilizes precision-machined silicon substrates (fiber positioning substrates) to achieve micron-level fiber alignment through photolithography etching or V-groove technology.
*High Consistency: Silicon-based technology eliminates cumulative errors from mechanical cutting, ensuring consistent fiber positioning.
*Low Crosstalk: Precise spacing control guarantees optical signal isolation between channels.
*Versatility: Enables array coupling of fibers, line-to-array conversion (e.g., converting a planar array to a line array), and transmission/reception functionality.
*Customization: Core spacing (distance between fiber centers) ranges from tens of micrometers to several millimeters, with channel counts tailored to meet diverse application requirements.
Application:
*High-Speed Optical Modules: Used in optical transceivers for multi-channel electro-optical conversion and optical path coupling.
*WDM Systems: Applied in wavelength division multiplexer (WDM/WSS) modules for optical signal combining and splitting.
*Fiber Optic Sensing: Constructing high-density sensor arrays.
*Laser Arrays: Enabling precise positioning and control of multiple laser beams.
Specifications:
| Item |
Indicator |
|
Sorting method |
Linear, square, circular, parabolic, compact, and dispersed, customizable |
|
Period of arrangement (μm) |
70 |
| Fiber Diameter(μm) | 50 |
| Fiber type |
Various single-mode/multi-mode, polarization-maintaining, and double-clad fibers are available. |
|
Cycle deviation (μm) |
±1 |
|
Fiber Position Deviation (μm) |
±1 |
|
Cumulative error |
0 |
|
Transmittance |
≥90% |
|
Applicable Bandwidth (nm) |
200~1800 |
|
Numerical Aperture (NA) |
0.12/0.22 |
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