Electrox Scorpion Rapide Fiber LaserThe ultimate laser for marking, engraving, etching and pulsed micro-machining
Scorpion Rapide Laser Overview
High resolution marking of metals, plastics and many other materials
- Ideal for high speed, high resolution operations on a
wide range of materials including metals and plastics - Complete control of the laser beam parameters
to permit a wide range of marking finishes - Extremely low operational cost and virtually
maintenance free - Up to 20kW peak power with 70W average power
Main FeaturesThe Scorpion Rapide offers a wider range of optic fiber galvo based laser processing solutions
Single Mode M2 <1.3 Generating very fine features <20 microns with high power stability and large depth of field |
Z Mode M2 ~1.0 <1.6 Provides an excellent beam quality for generating very fine features with a slightly greater spot size than the single mode for improved productivity |
Low Mode M2 <2 General marking applications giving slightly larger spots and features that are more appropriate to making marks visible to the naked eye |
High Mode M2 ~3.2 Offering higher pulse energies, and peak powers and even larger spots ideal for wide lines, filled font type applications and large area coverage |
TechnicalSpecificationsPowerful, high-speed, accurate CO2 laser marking solution
Product Selection Parameters
Laser | Frequency Range (KHz) |
Average Power (W) |
Max. Peak Power (kW) |
Max. Pulse Energy (mJ) |
Pulse Duration (nS) |
SCORPION II LT | 0.1-200 | 20 | 14 | 0.8 | Fixed 250 |
SCORPION II ZIP | CW, 0.1-1000 | 20 | 12 | 1 | Variable, 3-500 |
SCORPION IV HHS | CW, 0.1-1000 | 38 | 20 | 1.25 | Variable, 9-250 |
SCORPION V SHS | CW, 0.1-1000 | 50 | 7 | 0.55 | Variable, 9-250 |
SCORPION VII ZRM | 0.1-200 | 70 | 10 | 1 | Fixed 250 |
Marking Area Parameters
Flat Field Focal Length (mm) | Max.square Marking Field (mm) | (øD) Max. Marking Diameter (mm) | (Fd) Working Distance (mm) | *Spot Size (typical) | |||
S Mode | Z Mode | L Mode | H Mode | ||||
100 | 60 | 85 | 106 | 18 µm | 21 µm | 25 µm | 43 µm |
163 | 100 | 140 | 184 | 25 µm | 28 µm | 35 µm | 60 µm |
254 | 160 | 220 | 323 | 36 µm | 41 µm | 50 µm | 86µm |
350 | 220 | 310 | 432 | 50 µm | 58 µm | 70 µm | 120 µm |
410 | 250 | 350 | 512 | 59 µm | 69 µm | 82 µm | 141 µm |
Marking Area Parameters
Laser Type | EF Technology | Pulse duration | 25ns (10kHz) |
Wavelength | 1064nm | Power stability | ±3% |
Pulse frequency | CW, 0.1–150kHz | Beam quality | <3mm.mrad (M2 <2) |
Max. marking speed | 10,000 mm.s-1 | Control electronics | 19 inch rack mounted (5U) module |
Operating temperature | 10W: 617.5x194x186mm 30W:658x236x237mm | Optical unit protection | IP52 |
Max. laser average power | 0.2mJ (I) and 0.4mJ (II & II*) | Supply requirement | Single phase + Earth, 50 or 60Hz; 100 - 240V. Power 250W |
Max. pulse energy | 10kW (I) 20kW (II & II*) | Weight | Laser 12Kg, Control Unit 21Kg |
*Beam expander and galvo mirror dependent
Laser Specifications
Laser Type | Yb:Fiber | Power stability | ±1% |
Wavelength | 1060–1080nm | Control electronics | 19 inch rack mounted (5U) module |
Max. marking speed | 10,000 mm.s-1 | Supply requirement | Single phase + Earth, 50 or 60Hz; 100 - 240V. Power 250W |
Operating temperature | Up to 40oC (non condensing) | Weight | Laser 12Kg, Control Unit 21Kg |
*Beam expander and galvo mirror dependent