130W 808nm 200μm Fiber Coupled Power Diode Laser
Description
The GKER Photonics GK-808130200S is a high-performance fiber-coupled power diode laser designed to deliver robust and stable laser output for demanding applications. With an impressive output power of 130 watts and a center wavelength of 808 nm, this diode laser is ideal for use in various industrial, biomedical, and research settings. Its narrow spectral width of 5 nm (FWHM) ensures precise wavelength stability and performance consistency.
The laser features a core diameter of 200 μm and a numerical aperture (NA) of 0.22, optimizing light coupling and transmission efficiency. The pigtail length of 2.0 meters provides flexibility in system integration. Equipped with SC/SMA905 connectors, the GK-808130200S integrates seamlessly with existing optical systems.
The laser operates with a typical current of 10.0 A and voltage of 48 V, and boasts a conversion efficiency of 31%, making it an efficient choice for applications requiring high optical power and efficiency. This diode laser is engineered for reliability, delivering excellent performance across a range of applications.
130W 808nm 200μm Fiber Coupled Power Diode Laser
Specifications |
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|---|---|
| Laser Type: | Continuous Wave (CW) |
| Fiber Type: | Multi-Mode |
| Wavelength: | 808 nm |
| Output Power: | 130000 mW |
| Fiber Core Diamater: | 200 um |
| Fiber Cladding Diameter: | - um |
| Output Power: | 130 W |
| Center Wavelength: | 808 nm |
| Spectral Width(FWHM): | 5 nm |
| 95% Power NA: | 0.17 - |
| Core Diameter: | Min:196 Typ:200 Max:204 μm |
| Numerical Aperture: | Min:0.20 Typ:0.22 Max:0.24 - |
| Pigtail Length: | 2.0 m |
| Connector: | SC/SMA905 - |
| Operating Current: | 10.0 A |
| Operating Voltage: | 31 V |
| Conversion Efficiency: | 48 % |
Features
- High Output Power: Delivers up to 130 watts for demanding applications
- Precise Wavelength: Center wavelength of 808 nm for targeted performance
- Narrow Spectral Width: 5 nm FWHM for stable and accurate wavelength control
- Efficient Light Coupling: Core diameter of 200 μm and NA of 0.22
- Flexible Integration: 2.0-meter pigtail length for versatile system setup
- Robust Connectivity: SC/SMA905 connectors for reliable optical coupling
- Efficient Operation: Conversion efficiency of 31% for optimal power utilization
Applications
- Industrial Processing: Ideal for high-power laser cutting, welding, and material processing
- Biomedical Research: Suitable for applications such as phototherapy and laser-induced fluorescence
- Scientific Instrumentation: Useful in spectroscopy and other research applications requiring high-intensity light
For pricing, technical or any other questions please contact the supplier
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How to order?
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Ships from:
China
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Sold by:
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On FindLight:
since 2024
Frequently Asked Questions
The laser can deliver up to 130 watts of optical power, making it suitable for high-power applications requiring robust performance.
The laser operates at a center wavelength of 808 nanometers (nm), which is ideal for various medical and industrial applications.
The laser features a spectral width (Full Width at Half Maximum, FWHM) of 5 nanometers (nm), ensuring a narrow emission band for precise wavelength control.
The fiber used with this laser has a core diameter of 200 micrometers (μm), which facilitates efficient power delivery and compatibility with various fiber optic systems.
The fiber has a numerical aperture (NA) of 0.22, allowing for good light collection and coupling efficiency, which is crucial for maintaining high performance.
The pigtail length of the laser is 2.0 meters, providing flexibility in system integration and ensuring adequate distance for optimal placement.
The laser is equipped with SC/SMA905 connectors, ensuring compatibility with standard fiber optic interfaces and simplifying integration into existing setups.
The laser operates with a current of 10.0 amperes (A), which should be taken into account for power supply and cooling requirements.
The operating voltage of the laser is 48 volts (V), which should be matched with appropriate power supplies for stable operation.
The laser has a conversion efficiency of 31%, indicating how effectively electrical power is converted into optical power. This efficiency is crucial for minimizing energy losses and optimizing performance.