Contact Us

    PMF-421P-FA16 Polarization Maintaining Fiber Alignment System

    PMF-421P-FA16 Polarization Maintaining Fiber Alignment System

    ModelPMF-421P-FA16

    Place of Origin: Shenzhen, China

    Product Description:
    FA polarization maintaining fiber alignment system is designed by Shenzhen Neofibo Technology Limited and is specifically designed for FA alignment of optical fibres in a complete row. Customised horizontal and vertical grid lines ensure that the angular deviation after alignment is much less than ±3 degrees.

    Main Features:
    * Specially designed for FA fibre alignment, with high efficiency against axes.
    * Heat-cured FA fiber alignment.
    * HD camera imaging 100-800x magnification for effective control of alignment angles less than ±3 degrees.
    * Multiple horizontal and vertical raster lines to ensure fast and slow axis consistency.
    * precise control of the three-axis adjustment frame, with a fine adjustment accuracy of ±0.01mm.
    * Internal and external light sources to ensure clear imaging of the end face of the deflection-preserving fibres.
    * 600x500mm optical stage for easy system expansion.
    * direct heating and curing of the fiber in the fiber insert or capillary tube after the catenary alignment is completed
    * 0~360 degrees adjustment angle of the spindle.

    Technical Parameters.:

    Model PMF-421P-FA16
    Brand Neoscope
    Function FA polarization maintaining fiber alignment system, in-line curing, end face inspection
    Applicable inserts Standard: FA inserts

    Options: FC, SC, LC, MT, mini MT inserts, glass capillary positioning pieces

    Curing method Heat curing or UV curing
    Heating temperature 85~150℃ adjustable
    Heating time 4~6 minutes
    Heating power 80~100W, 220V, 50Hz
    Swivel angle 0~360°adjustable
    Number of counter-rotators 1pc
    Counter-rotators Four axis adjustable
    FA insert holder One axis adjustable
    Imaging system Three axis adjustable
    Illumination source Built-in and external light source