2kW Narrow Linewidth Single Mode Fiber Laser
  • The Ideal Fiber Laser For High-Power Spectral Beam Combining

    The average spectral bandwidth (20dBRMS) of the 2kW mass-produced laser model is less than 0.25nm, with a center wavelength deviation of no more than 0.1nm and M2<1.5, which make it meet the requirements for ultra-high power spectral beam combining.

  • Compact, Lightweight, and Modular Design Concept

    The oscillator stage and amplifier stage adopt standalone design, making their maintenance easy. Due to the brand new design, the total weight does not exceed 20 kg, and the more the fiber lasers are used for beam combination, the more significant the weight reduction effect is.

  • Adopting 976 nm Highly Efficient Pumping Technology

    The 976 nm highly efficient pumping technology increases the laser's E-O conversion efficiency to over 40%.

  • High Engineering Reliability

    After mass production and harsh environmental testing,this laser model is found to have good reliability and environmental adaptability.

  • Supporting Subsystem Working Mode

    Multiple fiber lasers can form a laser source subsystem that is compatible with unified control and power supply mode, fully meeting the functional requirements of users for laser sources.

Product Description

Based on its independently developed passive components, STR Laser has achieved innovative breakthroughs in pumping technology. The 2kW narrow linewidth single mode fiber laser is its a mass-produced model utilizing the innovative 976nm pumping technology and adopting modular design. Featuring compact structure, good reliability and environmental adaptability, this model meets the requirements for ultra-high power beam combination and finds wide applications in industrial, medical, aerospace, and military fields.

Product Features
The Ideal Fiber Laser For High-Power Spectral Beam Combining

The average spectral bandwidth (20dBRMS) of the 2kW mass-produced laser model is less than 0.25nm, with a center wavelength deviation of no more than 0.1nm and M2<1.5, which make it meet the requirements for ultra-high power spectral beam combining.

Compact, Lightweight, and Modular Design Concept

The oscillator stage and amplifier stage adopt standalone design, making their maintenance easy. Due to the brand new design, the total weight does not exceed 20 kg, and the more the fiber lasers are used for beam combination, the more significant the weight reduction effect is.

Adopting 976 nm Highly Efficient Pumping Technology

The 976 nm highly efficient pumping technology increases the laser's E-O conversion efficiency to over 40%.

High Engineering Reliability

After mass production and harsh environmental testing,this laser model is found to have good reliability and environmental adaptability.

Supporting Subsystem Working Mode

Multiple fiber lasers can form a laser source subsystem that is compatible with unified control and power supply mode, fully meeting the functional requirements of users for laser sources.

Drag to see all products

Product parameters
Optical CharacteristicsUnitSymbolTest ConditionMinTypical ValueMaxRemarks
Operating mode
Continuous
Output powerKWPI=100%22.1
Scalable to 2.5 kW
Center wavelengthnmλ
1030
1080Any value within this range
Spectral widthnm
20dB RMS
0.250.35
Output power instability%



2
Output method

QBH/Fiber
Beam quality

1.41.51.6
Sizemm
620*482*66
WeightKg
24
Power input

VDC
Input power consumptionkW



8
Operating humidity range%

10
85
Operating temperature range

-20
60Customizable
Storage temperature range

-40
70Customizable


Related products
  • Handheld Laser Welders

    Based on the self-developed "small core diameter" laser technology, the STR-HW series handheld laser welders adopt a new dual circuit refrigerant direct cooling system and integrated structural design. These welders can provide customers with such experiences as high effectiveness, large penetration, high energy-efficiency, and high convenience. Because these welders can weld various metal materials, they find broad applications including welding building materials; welding materials used to make home electrical appliances, kitchen hardware and bathroom hardware; sheet metal processing and pipeline processing.

    more
  • Special Welding

    The laser-plasma coaxial hybrid welding technology independently developed by STR eliminates the shortcomings of laser welding or plasma arc welding, and is widely used for precision welding of precision parts in aviation and space applications, of products in high-speed railway, subway and other rail transit applications, and of electronic products, etc. It has been certified that the welder adopting this technology can weld 6mm Series 7 aluminum plates and produce welded joints meeting Level I weld acceptance requirements.

    more
  • Additive Manufacturing Series Fiber Lasers

    AM-XX-I additive manufacturing dedicated fiber lasers developed by STR feature high power stability, high beam quality and highly integrated compact structure, greatly reducing power attenuation, which can find their broad applications in industries such as aviation, space, medical equipment, and automobiles.

    more
Search information
search
Baidu
map