3D Marking Head

Keywords: 3D marking system, mark head, dynamic focusing, 3D, 2D

Feb 12, 2021 View: 1235 Data Sheet

Online submission 15671598018 info@SintecLaser.com

LSJC Series 3D Marking Heads (Dynamic Focusing Scanners)

Part number	Max entrance dia. mm	DC power supply, V	Dimension LxWxH,mm
LSJC-xxxx-3D7210	10	24
LSJC-xxxx-3D2207	12	24	262x110x110
LSJC-xxxx-3D8220	20	24
LSJC-xxxx-3D8230	30	24	556.3x176x158
LSJC-xxxx-3D8330	30	24

Part Number	LSJC-1064-10-3D7210-300	LSJC-355-10-3D7210-200	LSJC-xxxx-12-3D2207
Input Aperture	10mm	10mm	12mm
Mark field	300x300mm	200x200mm
Linearity	99.9%	99.9%	99.9%
Small step response time	0.3ms	0.3ms	0.45ms
Maximum Scan Angle	±15°	±15°	±15°
Resolution	12μrad	12μrad	12μrad
Repeatability	8μrad	8μrad	8μrad
Working Temperature	0-45℃	0-45℃	0-45℃
Storage Temperature	-10 to +60℃	-10 to +60℃	-10 to +60℃
Input Voltage	±24VDC	±24VDC	±24VDC
Interface Signal Digital	XY2-100	XY2-100	XY2-100
Dimension(L×W×H)			262x110x110

Part Number	LSJC-1064-20-3D8220-500	LSJC-10.6-30-3D8230-300	LSJC-10.6-30-3D8330-1200
Input Aperture	20mm	30mm	30mm
Mark field	500x500mm	300x300mm	1200x1200mm
Linearity	99.9%	99.9%	99.9%
Small step response time	0.8ms	1.2ms	1.2ms
Maximum Scan Angle	±15°	±15°	±15°
Resolution	12μrad	12μrad	12μrad
Repeatability	8μrad	8μrad	8μrad
Working Temperature	0-45℃	0-45℃	0-45℃
Storage Temperature	-10 to +60℃	-10 to +60℃	-10 to +60℃
Input Voltage	±24VDC	±15VDC	±15VDC
Interface Signal Digital	XY2-100	XY2-100	XY2-100
Dimension(L×W×H)		556.3x176x158

LSSL Series 3D Marking Heads

1. LSSL excelliSHIFT 3D Marking Heads

Our new excelliSHIFT extends a 2D scan head into a highly dynamic 3D system. Based on tried-and-proven galvanometer technology, its completely new design drastically improves dynamic performance compared to conventional z-axes. The Z-scanner is no longer a limiting factor, so that identical acceleration can be achieved in all in all three spatial directions. This opens up entirely new possibilities for laser processing of 3-dimensional, complexly-shaped surfaces. Moreover, the new technology uses no transmissive optical components. That means dispersion effects are avoided when working with different wavelengths, and thermal-lens effects are minimized, too.

Features:

Highest reliability due to field-proven galvanometer technology
High-dynamic processing of complex 3D-surfaces
Designed without transmissive optical components
Flat field correction of pre-focused systems without dynamic limitations
Position-independent mounting

Applications:

Micromachining
Marking of curved surfaces
Deep engraving
Ultra-fast 3D processing

Specifications:

Part number	LSSL-14-excelliSHIFT
Aperture	14mm
Wavelength	515nm – 532nm, 1030nm – 1070nm (1)
Beam expansion	1-fold
Tracking error	0.1ms
Beam guidance	Reflective
Dimensions WxHxD	(115x160x142)mm3
Weight	3.7kg
Laser power (with cooling)	120W, green; 200W, IR
Focus range (2)	±14mm
Focus speed in image field (2)	Up to 30m/s

(1) Other wavelengths availabe on request

(2) With f-theta lens f = 160mm; at large focal lengths, corresponding higher values are achieved

2. Z-Scanner Module

We also offer Z-Scanner modules. The varioSCAN can extend XY scan systems into 3D beam deflection systems. The laser focus is guided along the contour of the workpiece being processed, thus enabling processing in three dimensions.

During the scanning process, a perging optic in the varioSCAN is positioned with high dynamics along the optical axis with respect to a stationary focusing optic. This produces a change in the system’s overall focal length, synchronized with the mirror motion. The varioSCAN focusing unitcan thereby expand 2D scan systems into 3-axis scan systems.

Specifictions:

	varioScan 20	varioScan 40
Beam input aperture	Up to 8mm	Up to 16mm
Output aperture	Up to 20mm	Up to 40mm
Motor – maximum lens travel	±1mm	±1.5mm
Motor – tracking error	0.9ms	1.4ms
Motor – typical travel speed	≤140mm/s	≤100mm/s
Motor – repeatability	<1µm	<1µm
Motor – nonlinearity	1.5% FS	1.5% FS
Motor – long-term drift (over 8 hours, at constant environmental conditions)	<6µm	<10µm
Power requirements	±(15+1.5)V DC, max. 1.5A each	±(15+1.5)V DC, max. 1.5A each