FreeScan Combo+

		Blue Laser & Infrared Light	An innovative combination of blue laser and infrared light ensures accurate results in various scenarios, improving both efficiency and quality.			Four 3D Scanning Modes to Cover All Types of Workpieces	Multiple-line mode with 26 (FreeScan Combo) or 50 (FreeScan Combo+) laser lines for overall scans	Fine scanning mode with 7 parallel laser lines to acquire intricate details	Deep hole scanning mode with 1 single laser line	Infrared light mode for quick scans without markers			A Wise Choice for Metrology	The FreeScan Combo Series' laser scanning modes can achieve industrial-grade accuracy of 0.02 mm*, making it ideal for metrology applications.	*Based on VDI/VDE 2634 and ISO 10360, sphere-spacing error is assessed with traceable length artifacts and markers by measuring these at different locations and orientations within the working volume, in the accuracy lab certified with ISO/IEC 17025 under environmental conditions: temperature 20 ± 0.5°C; humidity 40 ~ 60% RH.			Fast Scan Speed	It's multiple line mode projects up to 50 laser lines (FreeScan Combo + version) and scan at speeds of up to 3,600,000 points/sec			 	Powerful and Ergonomic	The FreeScan Combo Series boasts an ergonomic, compact, and lightweight design that makes 3D scanning convenient and easy.	The optimized camera angle makes it more suitable for working in narrow and complex environments, allowing for fast data capture in seams.			 	 	Infrared Light Scanning	For feature-rich workpieces, the infrared light scanning mode is ideal. It captures parts quickly and efficiently without the need for markers.			 	 	 	Metrology Kit	Magnetic marker balls for fast setup and easy positioning, Metrology Kit is perfect for handheld laser 3D scanners with smooth scanning workflows.			 	 	 	 	WorldSkills Designated Competition Model	FreeScan Combo Series is designated as the official model for the Mechanical Engineering CAD Skill in WorldSkills Competitions.	It supports competitors in rapidly capturing complex geometries and transforming them into precise digital models for engineering analysis and design.