ARAMA SONUÇLARI

AC power cord for Fujikura Fusion Splicer or Accesories.

AC adapter for Fujiukra Fusion Splicer.

Battery Pack for Fujikura fusion splicer.

The FST-12 is a tool to quickly split a 12-fiber ribbon into individual fibers or sub-groups with separation ratio from 1:11 to 6:6.

The FAT-04 is designed to arrange 250μm coated fibers and to make a temporary ribbon configutation so that the fibers may be mass fusion spliced using the same procedures as conventional ribbon fiber.

The TJ series are designed for temporary jointing of optical fiber andor ribbon by using fiber holder.

Fujikura’s FuseConnect™ with factory pre-polished ferrule, utilizes fusion splicer to terminate the connector in the field. This eliminates polishing, adhesives and crimping in the field, which minimizes the potential for operator error and expensive connector scrap. Fusion splice addresses return loss concerns present in analog optical networks. This advanced process yields true APC performance for SC/APC and LC/APC configuration. The innovative design and simplified field installation makes the FuseConnect™ the ideal choice for various fiber termination and FTTX applications.

The visual fault identifier FVI-01 is a miniature red-laser light source. The red light generated from FVI-01 will be identified at the break point, sharp-bend or high loss connection in coating fiber or fiber cord.

The FLS-20T is rugged and compact designed laser light source, which is used for optical fiber testing. The wavelength is selectable 1310nm and 1550nm for single mode fiber.

FID-30R and FID-31R are optical fiber identifier for telecommunication cable. FID-30R is built-in optical power meter.

Whether splicing similar fiber types or double clad LDF fibers for high power lasers, the FSM-100P+ splicers provide multiple solutions for diverse production needs. The FSM-100　+　series sets the standard for fusion splicing with a multitude of new features designed to make splicing easier.

AFL’s LZM-100 LAZERMaster is a glass processing and splicing system that uses a CO2 laser heat source rather than electrodes, ensuring repeatable performance and low maintenance, and eliminating electrode or filament maintenance and instability. Splicing or adiabatic tapering (to create mode field adapters or pump combiners) can be performed with glass diameters of 2.3 mm or less. The high resolution optical analysis system works in conjunction with on-board firmware for fully automatic splicing, tapering and other glass shaping processes.

SS03 have three holes. The smallest hole is for stripping 250 um cable down to glass fiber. The second hole is for stripping 900 um buffer coating down to 250 um buffer coating. The biggest hole is for stripping 2-3mm fiber jacket down to 900 um buffer coating.

RS03 - 80 is a tool for removing the optical fiber coating for clad diameter 80 μm. By heating and softening the coating, the coating can be easily removed. By using an optional spacer, a short lead (3 mm to 5 mm) is also possible. Fiber holder is compatible with FH - 100 series and FH - 40 series. Furthermore,equipped with new features such as large capacity battery for 600 stripping cycles, 6 times larger than conventional stripper, and wireless link with smartphones for operational parameters adjustment.

The PCS-100 has been designed for stripping polyimide coating optical fibers. Do not attempt to use this machine for other applications. Fujikura Ltd. gives careful consideration and regard to personal injury. Misuse of the machine may result in electric shock, fire and/or serious personal injury.

The APM-101 perform all the steps required to prepare optical fibers before splicing – automatically and with high consistency. This includes stripping the fiber without degrading fiber quality, cleaning fiber with alcohol to remove coating residue, and cleaving consistently at a right angle to the fiber axis. The entire process is complete in as little as 23 seconds.