|Model||SIL Accuwrite F – 20/30/50/60/100 Watts|
|Power||20 W to 100 W|
|Wavelength||1063 ±3 nm|
|Beam Quality||<1.2 (M2)|
|Output Power Adjustment Range||10 – 100 %|
|Pulse Repetition Rate||20 – 400 KHz|
|Focus Spot Diameter||<0.05mm|
|Working Area||70 X 70/100 X100/150 X 150/200 X 200/300 X 300 mm|
|Max Marking Depth||1.2mm|
|Max Marking Speed||1500 Standard Characters / Second|
|Minimum Line Width||0.05mm|
|Repetition Accuracy||±0.003 mm|
|Operation System||Windows XP /7/8/10|
|Cooling Mode||Air Cooling|
|Ambient Temperature||15°C – 35° C|
|Power Requirement||220v/single Phase/50hz/<600w|
|Life of Laser Module||100000hrs|
|Guide Laser/Red Aiming Beam||Yes 660nm|
Laser marking system is an industrial marking tool integrated with laser marking software to control the galvanometer scanners that produce relative motion between the laser spot and the work-piece.
Laser and optics are heart of the machine, control marking mechanisms system.
Industrial Marking can be done almost too various products and applications with variety of combinations characters and graphics, logos, unique serialised alphanumeric, or one of a number of different bar-code designs. Which are used for all kinds of products for its tractability, anti-counterfeiting, material, batch or manufacturer identification etc.
Laser marking is a device for marking physical surfaces, without physical contact, using laser energy. Laser marking enable editing the mark data (letters and graphics) on a computer, using graphic utilities. In addition to marking, they are also used widely for drilling holes, cutting, trimming, and detailed processing.
Laser markings are used in a variety of industries, such as printing 2D codes on automotive parts, logos on electronic components/electrical devices, lot numbers, Automotive parts, Electronic components/ electrical devices, Machines/tools, Semiconductors/LCDs, Molded parts, Medical instruments
MOPA Fiber Laser
Common fiber lasers and solid-state lasers use mirrors to resonate and amplify the laser. The laser is output by Q-switching. Using this technology, it is difficult to produce a reliable, durable laser with high quality and -flexibility. MOPA all-fiber laser eliminates the resonator structure, and enables a high quality beam with stability, durability and – flexibility.