(1+1)×1 PM Pump and Signal Combiner (PMMPC Series)

Specifications

Splitting Ratio: Other
Central Wavelength: 1064 nm
Power Handling: > 1W
Return Loss: 50 dB
Product Type: PM (1+1)×1
Pump Wavelength Range: 900 - 1000 nm
Signal Wavelength Range: 1060, 1550 nm
Fiber Type For Input (Pump Channel): Nufern 105/125 (0.15 NA, or 0.22 NA)
Fiber Type For Input (Signal Channel): PM 980, PM 1550, PM-6/125 DC, or PM-8/125 DC
Fiber Type For Output: PM-6/125 DC, or PM-8/125 DC
Signal Channel Insertion Loss: <0.5 dB
Min. Pump Efficiency: 90 %
Max. Input Pump Power: 1 × 10 or 1 × 30 W
Package Dimensions: P1: 50 (L) × 5 (W) × 5 (H) or P2: 70 (L) × 12 (W) × 8 (H) mm
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Features


  • High Coupling Efficiency: Ensures optimal power transfer between pump and signal channels, maximizing system performance

  • Wide Wavelength Range: Accommodates various wavelengths, offering flexibility for different applications and laser sources

  • Proprietary Fiber Tapering Technique: Utilizes advanced tapering methods to enhance signal integrity and reduce losses

  • Custom Configurations Available: Tailored solutions to meet specific project requirements, providing versatility and adaptability

  • Minimized Signal Channel Insertion Loss: Maintains signal fidelity by reducing losses during transmission, ensuring accurate data transfer

  • High Pump Efficiency: Efficiently combines pump power while minimizing energy wastage, enhancing overall system efficiency

Applications


  • PM Fiber Lasers: Ideal for high-power PM fiber laser systems, ensuring precise control and efficient power transfer

  • Pump Combiner with PM Signal: Enables seamless integration of pump and signal channels in fiber laser amplifiers, ensuring optimal performance

  • Multi-Kilowatt Fiber Lasers: Suitable for high-power fiber laser applications, such as materials processing, laser cutting, and welding

  • Optical Fiber Communications: Facilitates reliable signal transmission in optical fiber communication systems, ensuring data integrity and quality

  • Research and Development: Valuable tool for researchers and engineers in laboratories, supporting advanced optical experiments and studies

  • Telecommunications Networks: Vital component for telecommunications infrastructure, supporting signal amplification and transmission in fiber optic networks