The Picosecond laser marker is a modern tool used for marking or engraving components with great precision. The characteristic infrared wavelength interacts effectively with all metallic materials and numerous plastic materials. This source belongs to the Ultrafast laser category and is characterized by laser pulse durations in the order of picoseconds. The optical fiber architecture ensures versatility and durability over time with very high quality standards. This laser allows for permanent, high-resolution markings without consumables. The picosecond laser offers significant advantages in terms of marking quality and is ideal for the Medical, Home Appliance, and Jewelry sectors, where high contrast markings and corrosion resistance are crucial.
The picosecond fiber laser represents one of the most advanced technologies in the field of industrial marking, thanks to its ability to emit ultrashort laser pulses in the order of picoseconds (10-12 seconds). This very brief interaction time significantly reduces the thermal effect on materials, minimizing the formation of heat-affected zones (HAZ) and preventing melting or deformation of the marked material. The extreme precision allows for markings with very fine details, perfect for applications requiring very high resolution and sharpness. The optical fiber architecture not only increases the robustness and reliability of the system but also allows for a flexible configuration, ideal for integration into automated production lines. Furthermore, the high energy efficiency of the picosecond fiber laser helps reduce operating costs. Thanks to its ability to generate high-contrast and corrosion-resistant markings, this type of laser is particularly appreciated in the medical, home appliance, and jewelry sectors, where aesthetic quality and durability of markings are of crucial importance.
EFL 100
150 ± 10
87 (61X61)
EFL 160
225 ± 10
140 (100X100)
EFL 254
325 ± 10
220 (150X150)
EFL 330
395 ± 10
290 (205X205)
EFL 420
500 ± 10
424 (300X300)
In this mode, the laser operates without a control PC, making it suitable for integration into production lines where space is limited. No operator interface is necessary, and installation time is significantly reduced.
In an automated environment, as an alternative to FlyCAD, there is the FlyPowermark software with a completely customizable operator interface. We can manage various data input methods, for example, access to the company’s factory system (database, web services, TCP/IP protocols). Furthermore, being potentially able to manage an infinite number of lasers, it is possible to design the application to simultaneously control all the lasers present on the production line.
