(6+1) × 1/(18+1) ×1 Fiber Pump Signal Combiner

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Specifications

Splitting Ratio: 50/50
Central Wavelength: 800 nm
Power Handling: > 100W
Return Loss: 45 dB
Pump Wavelength: 800~1000nm
Signal Wavelength: 1030~1080nm / 1450~1600nm
Signal Fiber(input): X/125 or X/250 or 20/400
Pump Fiber(input): 105/125 or 200/220 0.15NA / 0.22NA
Output Fiber: Y/125 or Y/250 or 20/400
Signal Insert Loss: <0.7dB
Return Loss: >45dB
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Features


  • High Pump Efficiency: Achieve pump efficiencies of over 90%, 93%, and 95% depending on configuration.

  • Low Insertion Loss: Designed to maintain signal integrity with insertion loss less than 0.7dB.

  • Versatile Wavelength Range: Supports pump wavelengths from 800 to 1000nm and signal wavelengths from 1030 to 1080nm / 1450 to 1600nm.

  • High Power Handling: Capable of handling maximum power of 100W per single port, with options for 200W.

  • Customizable Laser Beam: Laser beam quality (M²) can be customized to meet specific needs.

  • Compact Packaging: Available in multiple package sizes: Φ4×60mm, 70×12×8mm, and 100×15×10mm.

  • Wide Operating Temperature Range: Operates efficiently between 0℃ to +75℃ with a storage temperature range of -40℃ to +85℃.

  • Flexible Configuration Options: Multiple configuration options for port types, operating wavelengths, pump modes, and fiber types.

  • Stable and Reliable: Engineered for integration into medium and high power fiber lasers, amplifiers, and R&D test equipment.

Applications


  • High Power Fiber Lasers: The combiner can be integrated into medium and high power fiber lasers due to its high pump efficiency and low insertion loss.

  • Fiber Amplifiers: Suitable for use in fiber amplifiers, where stable and reliable signal transmission is crucial.

  • R&D Test Equipment: Ideal for research and development test equipment that requires precise and efficient signal combination.

  • Telecommunications: Can be used in telecommunications applications where high efficiency and low loss are essential.

  • Medical Lasers: Applicable in medical laser systems requiring reliable and efficient fiber optic components.

  • Industrial Processing: Suitable for industrial laser processing tasks that demand robust and efficient fiber optic solutions.