High Power (6+1)×1 Backward Pump and Signal Combiner (HPBPC Series)

Name: High Power (6+1)×1 Backward Pump and Signal Combiner (HPBPC Series)
Brand: GKER Photonics
Availability: InStock

Description

The High Power (6+1)×1 Backward Pump & Signal Combiner (HPBPC Series) represents the pinnacle of efficiency and reliability in power combining technology. Engineered to handle the demands of high-power fiber laser systems, this combiner seamlessly integrates up to six multimode pump diodes, efficiently channeling their output into a double-clad fiber. Simultaneously, it enables the transmission of several kilowatts of signal power with minimal insertion loss, making it an indispensable component in cutting-edge laser applications.

Crafted with precision and utilizing a proprietary fiber tapering technique, the HPBPC Series boasts unparalleled coupling efficiency, ensuring maximum power transfer with minimal signal loss. Its compatibility with a range of fiber types allows for versatile integration into various laser systems, offering flexibility and adaptability across different applications.

Specifications

Splitting Ratio:	Other
Central Wavelength:	1060 nm
Power Handling:	> 100W
Return Loss:	50 dB
Product Type:	Backward pump ( 6 + 1 ) ×1
Pump Wavelength:	900 - 1000 nm
Signal Wavelength:	1060 - 1080 nm
Fiber Type For Input (Pump Channel):	200/220, NA=0.22/0.46 or 220/242, NA=0.22/0.46
Fiber Type For Input (Signal Channel):	20/400, NA=0.065/0.46
Fiber Type For Output (Signal Channel):	20/400, NA=0.065/0.46 or 25/400, NA=0.065/0.46
Max. Signal Channel Insertion Loss:	0.2 dB
Typ. Pump Efficiency:	98 %
Min. Pump Efficiency:	97 %
Input Pump Power:	500 × 6 W
Input Signal Power:	3000 W
Max. Backward Pump Power Handling:	300 W

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Features

High Power Handling: Capable of handling up to 3000 W of backward pump power, facilitating robust and reliable operation

High Coupling Efficiency: Engineered with precision and utilizing proprietary tapering techniques to ensure maximum power transfer

Proprietary Fiber Tapering Technique: Incorporates advanced fiber tapering methods to optimize coupling efficiency and minimize signal loss

Suitable for Different Fiber Types: Compatible with various fiber types, offering flexibility and adaptability across different laser systems

Low Signal Channel Insertion Loss: Enables the transmission of several kilowatts of signal power with minimal loss, ensuring optimal system performance

Maximum Backward Pump Power Handling: Withstands high-power pump diode outputs, ensuring reliable operation in demanding environments

Typical Pump Efficiency: Achieves a typical pump efficiency of 98%, ensuring efficient power transfer and minimizing energy wastage

Minimum Pump Efficiency: Maintains a minimum pump efficiency of 97%, ensuring consistent performance and reliability

Applications

High Power Fiber Laser Systems: Essential component in high-power fiber laser systems used in industrial cutting, welding, and material processing applications

Fiber Amplifiers: Integral for boosting the power of optical signals in telecommunications, defense, and aerospace applications

Industrial Material Processing: Enables precise and efficient material processing in industries such as automotive, aerospace, and electronics manufacturing

Defense and Aerospace Applications: Used in defense and aerospace applications for laser-based targeting, ranging, and communication systems

Medical Laser Systems: Facilitates the delivery of high-power laser beams for surgical, diagnostic, and therapeutic medical procedures

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Frequently Asked Questions

What is a backward pump and signal combiner, and how does it work?

The backward pump and signal combiner is a specialized optical component designed to efficiently combine the output powers from multiple pump diodes into a single double-clad fiber, while simultaneously transmitting high-power signal laser beams in the opposite direction. It achieves this by utilizing advanced fiber tapering techniques to ensure maximum power transfer and minimal signal loss.

What is the maximum power handling capacity of the HPBPC Series?

The HPBPC Series is capable of handling up to 3000 W of backward pump power, making it suitable for high-power fiber laser systems and other demanding laser applications.

What is the typical pump efficiency of the HPBPC Series?

The HPBPC Series achieves a typical pump efficiency of 98%, ensuring efficient power transfer and minimizing energy wastage.

What are the operating temperature and storage temperature ranges for the HPBPC Series?

The HPBPC Series operates within a temperature range of 0 to +50°C and can be stored within a temperature range of -40 to +85°C, ensuring reliable performance in various environmental conditions.

What package types are available for the HPBPC Series?

The HPBPC Series is available in P05 and P10 package types, with P05 packaging being sufficient for conventional products. However, for special products, customers are advised to contact sales for further information.

Can the HPBPC Series be customized for specific requirements?

Yes, custom configurations are available for the HPBPC Series. Customers can specify parameters such as signal wavelength, pump wavelength, fiber type, and package type to meet their specific application needs.