The LEO 532 laser is a LEO laser which is equipped with an additional integrated nonlinear frequency conversion module. Due to its shorter wavelength of 532 nm, the LEO 532 facilitates smaller structure sizes compared to the LEO laser operating at 1064 nm.
Additionally, there are certain materials that can be better processed with 532 nm lasers due to absorption characteristics. The LEO 532 is therefore used whenever the machining with 1064 nm delivers insufficient results. This can be the case with processing glass or red colored materials such as plastics, lacquered products or non-ferrous metals.
Apart from that, the LEO 532 laser has similar characteristics as the other LEO lasers.
The air-cooled, low-maintenance lasers stand out because of their robustness, they are easy to operate and present an excellent price-performance-ratio. Due to their outstanding beam profile and pulse energy level LEO lasers are well suited for applications that require a high level of precision, like the generation of high definition patterns or filigree engravings.
LEO 532 lasers are diode pumped solid state lasers (DPSSL) with an acousto-optic modulator as a q-switching device. By adjusting pulse energy as well as pulse repetition frequency to the particular application, the mutable pulse repetition frequency enables the user to fully benefit from the whole range of output power. This is especially useful when not only precision and quality but also process speed has to be taken into account.
Of course the laser is against optical back reflections.
Nd: YAG; λ = 532 nm
|Max. average power||
|Pulse peak power||
8 kW @ 7 kHz
7 kHz – 100 kHz
|Beam diameter (exit)||
10° C – 35° C
|El. power consumption||
max. 0,8 kW
90 – 264 VAC, 47 – 63 Hz
|Dimensions & weight
L x W x H
447 x 148,4 x 165 mm 12,2 kg
laser control unit:
472,5 x 482 x 133 mm 19″ 16,5 kg
* different cable lengths upon request
Technical data as a Adobe Acrobat document:
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