Combiner Manufacturing System

What is it?

The Combiner Manufacturing System, CMS, is our 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 operates is partial vacuum and is utilizing the unique Thermally Stabilized Plasma™ technology, which generates an extremely repeatable and stabilized heat source with a vide 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.

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.

• Embedded electrode cooling system included for up to 100% duty cycle operation.

• Exclusive automatic alignment of Pitch and Yaw included with <0.01 degree resolution for endcap or tapered glass splicing and pre-taper alignment.

• Exclusive two and three electrode operation modes supported to maximize heat zone dimensional flexibility.

• Exclusive standard and controlled atmospheric pressure modes supported to provide the best possible application flexibility and repeatability.

• Orthogonal view 5mp vision system with telecentric lenses providing 4.2mm wide x 3.5mm tall field of view at up to 75 frames per second.

• Live process monitoring via full resolution video imaging of the molten glass without under or overexposure.

• Optional 50nm resolution, optical encoder system available on both fiber platforms and the heat zone Z Axis for real world thermally insensitive positional feedback.

• In situ cleaver included for <10um-1000um.

• Splicing of 125um to 2mm supported.

• Exclusive <50nm X and Y fiber positional resolution of over the full stroke of 10mm.

• Taper lengths of up to 175mm supported in bidirectional mode.

• Exclusive „Table Based Tapering™“ software included for easy user level single direction or bidirectional taper program creation and nearly infinite engineer level process control.*

*User can adjust both fiber platform locations, the heat zone location, and the arc power setting 25 times per second for the entire process