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

Specifications

Splitting Ratio: Other
Central Wavelength: 1064 nm
Power Handling: > 1W
Return Loss: 50 dB
Product Type: (2+1)×1
Pump Wavelength Range: 900 - 1000 nm
Signal Wavelength Range: 1060 nm
Fiber Type For Input (Pump Channel): 105/125 (0.15 NA, or 0.22 NA)
Fiber Type For Input (Signal Channel): 10/125 DCF, 20/130 DCF
Fiber Type For Output: 10/125 DCF, 20/130 DCF
Signal Channel Insertion Loss: <0.5 dB
Typ. Pump Efficiency: 94 %
Min. Pump Efficiency: 92 %
Max. Input Pump Power: 2 × 5 or 2 × 30 W
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Features


  • High Power Transfer Efficiency: Ensures efficient combining of pump and signal powers, maximizing output performance

  • Wide Wavelength Range: Supports a broad spectrum of wavelengths, enhancing application flexibility

  • Proprietary Tapering Technique: Utilizes advanced fiber tapering techniques for superior performance and reliability

  • Custom Configurations Available: Offers tailored solutions to meet unique project requirements

  • Low Signal Channel Insertion Loss: Maintains high signal integrity with insertion loss of less than 0.50 dB

  • High Pump Efficiency: Typical pump efficiency of 94% and minimum pump efficiency of 92%, ensuring maximum power delivery

  • Robust Packaging Options: Available in various package dimensions to suit different installation needs

  • High Input Power Handling: Capable of handling high input pump power, with a maximum of 2 × 30 W

  • Stable Performance: Operates reliably within a wide temperature range, from 0 to +65°C for operation and -40 to +85°C for storage

Applications


  • Fiber Lasers and Amplifiers: Ideal for combining pump and signal channels in high-power fiber laser and amplifier systems

  • High Power EDFA Feedthrough: Enhances the efficiency and performance of Erbium-Doped Fiber Amplifiers in high-power applications

  • CATV Amplifiers: Suitable for use in cable television amplifier systems, ensuring high power handling and signal integrity

  • Optical Fiber Communications: Improves performance in fiber optic communication networks by combining multiple signals with high efficiency

  • Research and Development: Useful in experimental setups requiring precise and efficient power combining for various optical applications

  • Telecommunications Networks: Supports high-power signal transmission in telecommunications infrastructure, enhancing network reliability and performance

  • Medical and Industrial Lasers: Applicable in medical and industrial laser systems where high power and efficiency are critical