2000nm (2+1)×1 Multimode Pump and Signal Combiner (MMPC Series)

Specifications

Splitting Ratio: Other
Central Wavelength: 2000 nm
Power Handling: > 1W
Return Loss: 50 dB
Product Type: (2+1)×1
Pump Wavelength: 793 nm
Signal Wavelength: 2000 nm
Fiber Type For Input (Pump Channel): Nufern 105/125 (0.15 NA or 0.22 NA)
Fiber Type For Input (Signal Channel): Nufern SM-GDF-10/130-15FA
Fiber Type For Output: Nufern SM-GDF-10/130-15FA
Signal Channel Insertion Loss: <0.6 dB
Typ. Pump Efficiency: 92 %
Min. Pump Efficiency: 90 %
Max. Input Pump Power: 2 × 5 or 2 × 30 W
Document icon Download Data Sheet Download icon

Features


  • High Power Transfer Efficiency: Ensures optimal transfer of power between pump and signal channels, maximizing overall system performance

  • Wavelength Insensitive: Capable of operating across a broad range of wavelengths (793 nm for pump and 2000 nm for signal), providing flexibility in various optical applications

  • Advanced Pulling and Packaging Technique: Incorporates proprietary techniques for superior mechanical strength and optical alignment, ensuring reliable long-term operation

  • Custom Configurations Available: Offers flexibility to tailor configurations to specific project requirements, enhancing integration and functionality

  • Compact and Durable Design: Available in multiple package dimensions (P1: 50 mm (L) × 5 mm (W) × 5 mm (H), P2: 70 mm (L) × 12 mm (W) × 8 mm (H)), facilitating easy installation and integration into existing optical systems

Applications


  • High Power Fiber Laser Systems: Enables efficient combining of pump sources with signal channels to generate high-intensity laser outputs for industrial and scientific applications

  • High Power Erbium-Doped Fiber Amplifiers (EDFA): Supports signal amplification in telecommunications networks, enhancing signal strength and transmission efficiency

  • CATV Amplifiers: Facilitates reliable distribution of high-quality video and data signals in cable television networks, ensuring robust performance and signal integrity