Opt Lasers' Series of High-Power Blue Laser Sources – Delivering Precision Power
We are proud to present you Opt Lasers' series of high-power blue laser sources designed for a range of industrial applications. Our blue laser modules operate at a short wavelength, specifically in the range of 400 – 480nm, which is effectively absorbed by various materials. Leveraging high-power blue GaN laser diodes and advanced optical design, we have developed compact, high-power, and high-brightness laser sources for industrial use. These laser sources are the result of two separate European R&D projects and hard work of our team.
Our high-power laser sources are available in three distinct series: FS-Series, OEM-Series, and FC-Series. Each series offers different power levels, ranging from 15W up to 100W. We also offer custom-made laser modules with power levels exceeding 100W. With our dedicated R&D team and state-of-the-art laboratory, we can create customized laser sources within short turnaround times
FS-Series High-Power Laser Sources - Designed for Rapid Engraving, Cutting and Sintering
The FS-Series Laser Sources are specifically engineered to achieve maximum brightness and the smallest spot size, with a square-like shape. Our laser sources employ compression optics technology which was developed by our R&D team, enabling exceptional performance in engraving, marking, and powder sintering applications. Key features include:
- High Brightness
- Small and Square-Like Spot Size
- Compact Dimensions
- Easy Integration
- No Additional Cooling is Required
As the standard product FS-Series laser sources are available in two wavelengths, namely 405nm and 450nm, with power levels ranging from 15W up to 60W of pure optical power. These laser sources are ideally suited for galvo scanning systems, where their full potential can be harnessed. If the laser source with different parameters is required we are capable of designing customized solution for your application.
Specifications
| FS-15-V | FS-30-V | FS-30-B | FS-50-B | |
| Center Wavelength | 405 nm | 450 nm | ||
| Optical Power | 15 W | 30 W | 30 W | 50 W |
| Typical Beam Size | 14 x 14 mm | |||
| Typical Beam Divergence | 0.8 mRad | |||
| Minimum Spot Size1 | 130 um | |||
| Laser's Electro-to-Optical Efficiency | 25 % | 25 % | 28 % | 24 % |
| Max. Power Consumption | 75 W | 130 W | 200 W | 300 W |
Measured with 160mm F-theta lens
OEM-Series High-Power Blue Laser Source – Cost-Effective Solution for Industrial Applications
The OEM-Series Laser Sources offer cost-effective laser modules for a wide range of applications. Laser sources from this series are ideal for melting, welding, burning, sintering, cladding and metal hardening. Key features of the series include:
- Cost-Effectiveness
- Possibility to Work with Large Spot Size
- Even More Compact Dimensions
- Easy Integration
- Passive or Active Cooling
These laser sources are available at two wavelengths, 405nm and 450nm, with power levels ranging from 15W up to 70W of optical power.
Specifications
| OEM-15-V | OEM-30-V | OEM-30-B | OEM-50-B | |
| Center Wavelength | 405 nm | 450 nm | ||
| Optical Power | 15 W | 30 W | 30 W | 50 W |
| Typical Beam Size | 8 x 12 mm | |||
| Typical Beam Divergence | 8 mRad | |||
| Minimum Spot Size1 | 1000 um | |||
| Laser's Electro-to-Optical Efficiency | 25 % | 25 % | 28 % | 24 % |
| Max. Power Consumption | 75 W | 130 W | 200 W | 300 W |
FC-Series High-Power Laser Source – High-Power Delivery Anywhere
The FC-Series Laser Modules are designed to provide precision power delivery to remote locations, making them ideal for applications where the laser source needs to be placed at a distance from the working space. In case of fiber coupled lasers power density / brightness is decreased but a perfect shape laser spot can be achieved.
- Remote Location of Laser Source
- "Ideal" Circular Spot with Even Power Distribution
- Easy Integration and Installation
- Available with Different Fibers
Fiber-coupled laser sources have superior advantage in instalation and integration in large systems over other types of high-power laser sources. Fiber coupled laser sources do not have to be aligned, adjusted or placed in specificaly pre-defined location. Additionally, fiber coupled lasers can be placed far away from the working area, or even in another room.
Specifications
| OEM-15-V | OEM-30-V | OEM-30-B | OEM-50-B | |
| Center Wavelength | 405 nm | 450 nm | ||
| Optical Power | 15 W | 30 W | 30 W | 50 W |
| Fiber Core Size1 | 200 um | 400 um | 200 um | 400 um |
| Fiber NA | 0.2 | |||
| Fiber Connector Type | SMA 905 | |||
| Laser's Electro-to-Optical Efficiency | 22 % | 22 % | 25 % | 21 % |
| Max. Power Consumption | 75 W | 130 W | 200 W | 300 W |
Performance Comparison of High-Power Blue Lasers Based on the Technical Solution
Direct Laser Processing
Direct Laser Processing with Movable XY Mirrors
Galvo Laser Scanning System
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Key Features
- Smallest Possible Spot Size
- Short Working Distance
- Highest Power Density
- High-Pressure Air Assistance
Key Features
- Large Working Area
- Small Spot Size
- Moderate Processing Speed
- High-Pressure Air Assistance
- Remote location of laser source
Key Features
- Highest Processing Speed
- Long Working Distance
- Long Depth of Focus
- Compact Setup
Performance Comparison
| FS-Series Laser Sources | OEM-Series Laser Sources | Fiber-Coupled Laser Sources | |
| Spot size at working distance 170mm | 150 x 150 um | 1000 x 1000 um | D=2500 um |
| Spot size at working distance 50mm | 50 x 50 um | 350 x 350 um | D=800 um |
| Typical spot profile |  |
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EU Project
Nazwa beneficjenta: TOMORROW’S SYSTEM Limited Liability Company
Project title: "Development of a multi-diode laser source technology based on diodes with wavelengths in the range of 350-550 nm, allowing modification of laser beam parameters to optimize cutting, engraving and sintering processes of materials used in industry."
Grant agreement number: POIR.01.01.01-00-0526/20-00
Project value: 5 253 477.21 PLN
Grant value: 3 751 829.24 PLN
Project no: POIR.01.01.01-00-0526/20 is co-financed by the European Union with funds from the European Regional Development Fund under the Intelligent Development Operational Program 2014-2020
The project is carried out under the competition of the National Center for Research and Development: 3/1.1.1/2020 Fast Track 3_2020