Featuring a very fast response time, they allow sharp images to be captured even of fast-moving objects.
- Very short light pulses in the order of micro- and nanoseconds. This allows the action to be frozen and to obtain sharp images of fast-moving objects.
- Highly intense light during the pulse, guaranteeing good visibility even in low light conditions.
- Control over the frequency and duration of the light pulses for greater control of the scene, adapting to various application needs.
- Ultra-fast strobe operation (less than a microsecond).
- Integrated high-power super-fast main driver.
- Very high peak power (~kW).
- Integrated FPGA for real-time control, filtering, protection and synchronisation of modules.
- Advanced flash technology to generate fast and intense light pulses.
- Possibility for synchronisation with camera or image acquisition systems.
- Optimises image quality by reducing motion blur.
- They allow the action to be frozen in sharp images of fast-moving objects like parts in a production line, free-falling objects or moving machinery.
- The use of short light pulses helps reduce the effect of motion blur in images, improving the vision of the object’s details and characteristics.
- Detection of defects, imperfections and flaws that would otherwise be difficult to identify with continuous lighting.
- Inspection of moving products on production lines, for example defect detection on mechanical parts, inspection of fast-moving labels and pharmaceutical products.
- High-speed photography to capture sharp images of fast-moving objects like droplets, explosions or moving fragments.