K520F03FN-0.010W Coaxial Packaged Diode Laser
Description
BWT Beijing’s high power diode laser modules are manufactured by adopting specialized fiber-coupling techniques, resulting in volume products with a high efficiency, stability and superior beam quality. The products are achieved by transforming the asymmetric radiation from the laser diode chip into an output fiber with small core diameter by using special micro optics. Inspecting and burn-in procedures in every aspect come to a result to guarantee each product with the reliability, stability and long lifetime.
Our research staffs are constantly improving and innovating the processing technology in the producing process, based on the professional knowledge and experience accumulated in long-terms. We are also continuously developing new products to meet customers’ specific needs.
At BWT Beijing, to provide high quality products with reasonable price is our always goal.
K520F03FN-0.010W Coaxial Packaged Diode Laser
Specifications |
|
---|---|
Laser Type: | Continuous Wave (CW) |
Fiber Type: | Single Mode |
Wavelength: | 520 nm |
Output Power: | 10 mW |
Fiber Core Diamater: | 105 um |
Fiber Cladding Diameter: | 125 um |
Features
- 520nm wavelength
- 10mW output power
- 105µm fiber core diameter
- 0.22N.A.
Applications
- AimingBeam
For pricing, technical or any other questions please contact the supplier
- No registration required
- No markups, no fees
- Direct contact with supplier
-
Ships from:
China
-
Sold by:
-
On FindLight:
since 2019
Frequently Asked Questions
The fiber core diameter of the K520F03FN-0.010W Coaxial Packaged Diode Laser is 105µm.
The acceptable operating range for the K520F03FN-0.010W Coaxial Packaged Diode Laser is 15-35℃, but performance may vary.
The output power of the K520F03FN-0.010W Coaxial Packaged Diode Laser is 10mW.
The wavelength of the K520F03FN-0.010W Coaxial Packaged Diode Laser is 520nm.
Precautions that should be taken when using the K520F03FN-0.010W Coaxial Packaged Diode Laser include avoiding eye exposure to direct or scattered radiation, taking ESD precautions, using a constant current power supply, and ensuring the laser diode is used according to specifications and with good cooling.