Description
The 7 × 1 Multi-Mode Pump Combiner (MMPC) stands at the forefront of optical fiber technology, offering unparalleled efficiency and versatility in consolidating multiple pump sources into a single output fiber. Engineered to meet the exacting demands of high-power fiber laser systems, the MMPC ensures robust performance across diverse industrial applications. Its design integrates proprietary pulling and packaging techniques, guaranteeing durability and reliability in harsh environments.
With the capability to support pump wavelengths ranging from 900 nm to 1000 nm, and accommodating a variety of fiber types including Nufern 105/125 and MMF 220/242, 0/400, 30/250 DCF, 20/400 DCF, the MMPC provides flexibility to adapt to specific operational requirements. This combiner is particularly suited for applications in high-power fiber lasers, where it enhances power transfer efficiency while minimizing losses. Its wavelength insensitivity further enhances compatibility with different laser diode configurations, ensuring seamless integration into existing optical systems.
The MMPC's application extends beyond industrial laser systems to include telecommunications, research and development, and optical sensing. It facilitates reliable optical signal transmission and amplification in telecommunications networks, supports cutting-edge research in fiber optics and photonics, and enhances precision in optical sensing and instrumentation applications.
Overall, the 7 × 1 Multi-Mode Pump Combiner (MMPC) represents a pinnacle of innovation and reliability in optical componentry, empowering industries and researchers alike to achieve superior performance and efficiency in their optical fiber systems.
7 × 1 Multi-Mode Pump Combiner (MMPC)
Specifications
Splitting Ratio: | Other |
---|---|
Central Wavelength: | 900 nm |
Power Handling: | > 100W |
Return Loss: | 50 dB |
Product Type: | 7 × 1 |
Pump Wavelength Range: | 900 - 1000 nm |
Fiber Type For Input (Pump Channel): | Nufern 105/125 (0.15 NA or 0.22 NA) |
Fiber Type For Output: | MMF 220/242, 0/400, 30/250 DCF, 20/400 DCF |
Max. Input Pump Power: | 7 × 100 W |
Min. Multimode Power Transfer Efficiency: | 94 (Typ.95) % |
Features
- High Power Transfer Efficiency: Ensures maximum utilization of pump power with minimal losses, optimizing overall system performance
- Wavelength Insensitive Design: Supports a broad range of pump wavelengths (900 - 1000 nm), accommodating various laser diode configurations
- Customizable Fiber Types: Offers flexibility with different fiber types for input and output channels, including Nufern 105/125 and MMF 220/242, 0/400, 30/250 DCF, 20/400 DCF, tailored to specific application needs
- Particular Pulling and Package Technique: Incorporates proprietary techniques for fiber pulling and packaging, ensuring robustness and longevity under challenging environmental conditions
- Custom Configurations Available: Allows for bespoke configurations to meet unique customer requirements, enhancing versatility in integration
Applications
- High Power Fiber Lasers: Provides efficient power combining for high-energy laser systems used in cutting-edge manufacturing processes like welding, cutting, and additive manufacturing
- Industrial Laser Systems: Enables precise material processing in industrial applications where high laser power and reliability are critical
- Telecommunications: Facilitates high-performance optical transmission and amplification in telecommunications networks
- Research and Development: Supports advanced research in fiber optics, photonics, and optical sensing technologies
- Optical Sensing and Instrumentation: Enhances sensitivity and accuracy in optical measurement and sensing applications
Frequently Asked Questions
What is the 7 × 1 Multi-Mode Pump Combiner (MMPC)?
Can the MMPC be customized?
What is the operational temperature range for the MMPC?
What should be considered when ordering the MMPC?
How does the MMPC ensure high power transfer efficiency?
What are the benefits of using the MMPC in fiber laser systems?
Is the MMPC suitable for both industrial and research applications?
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