This calibration should be completed before work is started on the laser. Natural drift of around 10um may occur temperature variations in the room throughout a few days
Calibration is the most accurate when the desired zoom level used when working, is the zoom level used when calibrating
Example: If you need to be on zoom level 4 to work with your sample, please use zoom level 4 when performing the crosshair calibration
Before calibrating the crosshair the following should be done:
Load a sample that can be marked easily with the laser (Si-wafer, aluminium, stainless steel)
Ensure the desired wavelength in carbide is selected and the laser is ready to fire
The process type must be in Galvo mode Changing Process Type - Galvo, Stages, IFOV - SOP
Step 1: Draw a crosshair in OptecCAD
In OptecCAD use the crosshair function to open the creation window
If the OptecCAD window cannot be found, type “OptecCAD” in the AutoCAD command area
Create a 1mm crosshair and hit the checkmark to execute
A crosshair should now appear in the middle of the work area
Click on the “LayerCross” layer to select it
Change the type to the desired wavelength to be used
Mark speed and Jump Speed to be set to 30
Power is to be set to visibly mark but a thinner mark is better for accuracy
IR set power to 20
VIS set power to 30
UV set power to 50
Step 2: Zero out ProcessPower
Chose the zoom level most appropriate for your work
performing the calibration at your working zoom level is the most accurate
Focus the laser camera and move to an open area for laser marking
Zero out the X Y Z axis
Ensure X and Y are both zeroed out
Step 3: Run the program from OptecCAD
Before running a program ensure ALL below have been checked
laser doors are closed
Output in Carbide is ON
The area of work is in focus
All axis have been zeroed out
Air supply for the laser is open
In the OptecCAD window, click on the “play” icon to run the program
A window will pop up, ensure the rotation correction is at 0 degrees
Click on “Start Processing” to run the program
Step 4: Move to the center of the laser crosshair
After the process is completed the laser will move back to the zoom camera, the red cross hair will not be perfectly aligned with the laser marking
Do not zero the X and Y
Using the click to move function in ProcessPower or the jogging buttons, move the red crosshair on screen to the middle of the lasered crosshair
The X and Y will now have a non-zero value, this value will be applied later to correct the laser position
Step 5: Apply the crosshair offset to the system
The value in the X and Y field from the previous step will now be used to offset the crosshair
Enter the software configuration window
Select the wavelength that the marking was made with
Hit the “+” button, this will add the X and Y value from ProcessPower into the system offset
Hit the save button to apply the offset
You can now exit the window
Step 6: Validate offset
Jog the laser to a new position
Ensure the laser is in focus and the zoom level used previously is used again
If you used zoom level 4 in calibration use it again when checking and doing work
Zero X-Y-Z in ProcessPower
Run the program from OptecCAD
When the program is complete the camera crosshair should be in the center of the laser marking
If it is not in the center then repeat steps 4-5
The crosshair is now calibrated for the selected wavelength using Galvo, Stages and IFOV process types