AutoStrip II Window Stripping Unit

8oz Solvent Dispenser with Touch-and-Go Pump

Optical Fiber Splicing/Processing System; Heat Source <300->3,000 °C; Splicing of 125-2,000 µm Dia. Fibers; Automatic Bidirectional Tapering ≤175 mm Length; Semi-automatic Cleaving of Fibers ≤500 µm Dia. 3SAE Technologies’ CMS Combiner Manufacturing System is the supplier’s latest and most advanced optical fiber splicing/processing system. The CMS is specifically designed to maintain production level repeatability for multi-kilowatt class high-power fiber combiners and other fused optical components. The CMS system operates in partial vacuum and is utilizing the unique “Thermally Stabilized Plasma™” technology which generates an extremely repeatable and stabilized heat source with a wide dynamic range of operation from <300 °C to >3000 °C. This makes the CMS ideal for repeatable glass processing and high-volume optical component manufacturing. The main CMS functionalities are:SPLICING Splicing of 125 to 2000 µm fibers supported Automatic alignment with an exclusive <50 nm X and Y fiber positional resolution Automatic pitch and yaw alignment End cap splicing for cylindrical, chamfered and tapered end caps TAPERING Taper lengths of up to 175 mm supported in bidirectional mode Automatic taper creation via intuitive software interface or manual table editing Exclusive "Table Based Tapering™" software included for easy user level single direction or bidirectional taper program creation and nearly infinite engineer level process control CLEAVING Semi-automatic in-situ cleaving of fibers up to 500 µm Adjustable precision cleaving location via image feedback Key Features: Extremely Repeatable Glass Processing Heat Source Ideal for High-volume Optical Component Manufacturing With a Range of Operation From <300 °C to >3000 °C Unsurpassed Heat Source Circumferential Thermal Uniformity for Symmetrical Ultra-low Loss Tapering and Reduced Thermally Induced Component Stress Contamination-free Heat Source Capable of Producing Ultra-high-strength Multi-kilowatt Class Optical Components Fastest Cycle Times Based on Standard Splice, Taper and Cleave Cycle Times Averaged Together In-situ Cleaver Included for Fiber Diameters ≤500 µm Applications: Splicing/Processing of Optical Fibers; Repeatable Glass Processing; High-volume Optical Component Manufacturing; Maintaining Production Level Repeatability for Multi-kilowatt Class High-power Fiber Combiners and Other Fused Optical Components

Rapid Loading of up to 19 Fibers; Fiber Fixtures for 700, 870 µm Outer Diameter & Custom; Air Gap Fiber Bundle/Capillary 10 µm; Fiber Cleaning With Ultrasound & Chemical; Separate Cleaning and Loading Stages; Onboard Heater 3SAE Technologies’ Capillary Speed Loader (CSL) facilitates rapid loading of up to 19 fibers into a capillary. Using the CSL, fiber bundles can be loaded into a capillary with as little as 10 μm of air gap between the bundle and the capillary. The CSL utilizes a funnel shaped capillary to hold the capillary during the fiber loading process. The system uses an ultrasonic cleaner in conjunction with acetone or chemical of choice, to lubricate and remove static from the fibers during the loading stage. The ultrasonic cleaner features one touch operation with a user adjustable cycle and visual and audible notifications. Two individual reservoirs facilitate separate cleaning and loading stages. The CSL also includes an onboard heater to expedite the evaporation process of the acetone after loading. The CSL Capillary Speed Loader includes standard fixturing for 700 μm and 870 μm outer diameter capillaries. Custom sizes are available on request. Key Features: Rapid Loading of up to 19 Fibers into a Capillary Separate Cleaning and Loading Reservoirs One-touch Ultrasonic Operation Onboard Heater Application: Rapid Loading of Fiber Bundles with up to 19 Fibers into a Capillary

Carbide Tip Fiber Optic Scribe

Ruby Tip Fiber Optic Scribe The  45-357 Reversible-Blade Fiber Optic DualScribe™ has a double-ended Ruby blade with a 30° single-bevel edge,

Sapphire Tip Fiber Optic Scribe The  45-358 Sapphire scribe comes with blue handle for easy identification

Fiber Type Large Diameter (LD); Fiber Cladding 400-2,000 µm; Non-angle or Angle Polishing <0.30-15° Typ.; Cycle Time 1-3 min; Scrap Fiber Waste <2 mm Typ. Large diameter (LD) optical fibers are increasingly important in the development of new optical technologies. Cleaving these fibers presents many challenges, more so as the fiber diameter increases. Low angle offsets and smooth, flat end faces are required. Many fibers are non-round or have internal structures that interfere with conventional cleaving. With some fibers priced in hundreds of euros per meter, the length of cutoff scrap must be minimized. 3SAE Technologies’ EPS II End Face Preparation Station meets these challenges with a novel, polishing-based design that now features both flat and angle polishing. The results are consistent, even for shaped fibers. The end faces are flat and highly polished. EPS II is not an adapted connector polisher – it is a purpose-built large diameter (LD) optical fiber preparation unit optimized for splicing and other large diameter fiber termination applications. Choose from a selection of standard programs, or create and store a custom program for a specific fiber. Selectable programs ensure repeatable performance and the bright, clear LCD screen guides the user with the correct action for each step. No special skill or “touch” is required –the EPS II’s precision fixturing holds the fibers precisely, and the automated system lowers the fibers smoothly onto the adjustable-speed polishing plate. A filtered-air final cleaning/drying system is used to dry the fiber after cleaning in the included 3SAE Technologies Ultrasonic Cleaner, a purpose-built ultrasonic fiber cleaner that was designed specifically for fiber applications. Many years of splicing experience went into the functional, ergonomic design that ensures consistent cleaning results. When the preparation process is complete, the fiber end faces are flat, low-angle and ready for splicing. Less than 2 mm of scrap length means less wasted expensive fiber and allows more accurate placement of splices and components. Key Features: Angled Polishing Capabilities High First-pass Yield Lowest Available Cleave Angles: <0.30° Typical Scrap Fiber Waste: <2 mm Typical Fiber Cladding: 400 to 2,000 µm Angle Cleaving: Up to 15° of Rotation (From Vertical) Cycle Time: 1 to 3 min Per Fiber Typical Easy Handling, No Additional Fiber Handling System Required Operator Independent No PC Required Power Supply: 24 VDC External Dimensions: 299.7 x 292 x 223.5 mm Compressed Air: Max 95 psi, 0.6 SCMF Applications: Splicing of Large Diameter (LD) Fibers up to 2,000 µm Fiber Cladding; Other Large Diameter (LD) Fiber Termination Applications