Used Lutronic eCo2 Fractional Laser
Year: 2010
Make: Lutronic
Model: eCo2
Condition: Excellent
Category: Fractional Laser
Description:
Fractional Scanner Handpiece
5- 120
1- S120
2- 300
1- 1000
1- CO2 Lens Kit
2-Laser Safety Glasses
Manual
Marketing materials.
Key
Power cord
Eyewear
Device Type |
Radio Frequency CO2 Laser |
Emitted Wavelenght |
10600 nm |
Transmittion Medium |
Articulated Arm with Scanner and Surgical Handpiece |
Pulse Mode |
Static or Dynamic with Scanner – Continuous, Pulsed and Superpulsed with Surgical Handpiece |
Pulse Energy |
240 mJ Max |
Pulse Density |
400 spots/cm2 Max. |
Spot Size |
120-1000 um with Scanner , 0.2-1.0 mm Surgical |
Treated Area |
Max 14 x 14 mm |
Pulse Duration |
4us – 5ms |
Output power |
30 W Continuous Mode |
Repetition Rate |
1-700 Hz Manipolo Chirurgico , 10-200 Hz Manipolo Scanner |
Aiming Beam |
Red 615nm Adjustable |
User Interface |
LCD Display Touchscreen |
Cooling |
Air Cooling |
Power Specifications |
AC 220-230V 50Hz 600VA |
CE Certification: |
Yes |
Altezza |
187 cm |
Profondità |
45 cm |
Larghezza |
36 cm |
Peso |
48 Kg |
More info
The CO2 laser beam heats and vaporizes the skin tissue , instantly removing the superficial layers of the skin. Each fractional micro spot creates a thermal zone. Intact cells around the treated area help the healing process . This process induces cell regeneration. The contraction is immediate and the structural improvement of the skin you start to see about one week after the procedure .
The fibroblasts respond in a natural way by producing collagen, elastin and glycosaminoglycans , which begin the process of restructuring of the skin . eCO2 combines the laser beam to 10,600 nm with 3 different types of tip , with the possibility to have a penetration depth of from 50 microns to 2.4 mm . Using a proprietary algorithm called the patented Controlled Chaos Technology ( CCT) , eCO2 distributes the treated every laser beam as far as possible from the previous one , in order to maximize the dissipation of heat. This method results in the optimization of the fractional thermal relaxation time of the tissue, with a consequent healing process faster and less painful.