Coppercam.lic
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How to Use CopperCAM for PCB Prototyping
CopperCAM is a software application that allows you to manage isolation engraving, drilling and cutting of printed-circuit board (PCB) prototypes. It does not directly control a CNC milling machine, but rather outputs files that can be used by external driver software, or data that can be sent to the machine[^3^].
In this article, we will show you how to use CopperCAM to create GCODE files from a PCB design created in Proteus, a popular electronic design automation software. You will need to have both Proteus and CopperCAM installed on your computer, as well as a CNC milling machine and a license file for CopperCAM (Coppercam.lic).
Step 1: Export Gerber Files from Proteus
A Gerber file is a standard format for describing the layout of a PCB. It contains information about the copper layers, drill holes, solder mask, silkscreen and other elements of the board. To export Gerber files from Proteus, follow these steps:
Open your PCB design in Proteus and go to Output > Create Gerber/Excellon Files.
Select the layers that you want to export and click OK. You can choose between top and bottom copper layers, top and bottom solder mask layers, top and bottom silkscreen layers and drill layer.
Choose a folder where you want to save the Gerber files and click OK. Proteus will generate one file for each layer with the extension .gbr or .drl.
Step 2: Import Gerber Files into CopperCAM
Once you have the Gerber files, you can import them into CopperCAM and prepare them for CNC milling. To do so, follow these steps:
Open CopperCAM and go to File > New Project.
Select the folder where you saved the Gerber files and click OK. CopperCAM will automatically detect the files and assign them to the corresponding layers.
You can adjust the settings for each layer by clicking on its name in the left panel. For example, you can change the color, thickness, offset and polarity of the copper layers, or define the tool diameter, depth and speed for the drill layer.
You can also preview the result of each layer by clicking on its eye icon in the left panel. You can zoom in and out with the mouse wheel, or pan with the right mouse button.
When you are satisfied with the settings, go to File > Save Project As and choose a name for your project file.
Step 3: Generate GCODE Files from CopperCAM
The final step is to generate GCODE files from CopperCAM that can be used by your CNC milling machine. GCODE is a standard language for controlling CNC machines. It contains commands for moving the tool along a path, changing its speed, turning it on and off, etc. To generate GCODE files from CopperCAM, follow these steps:
Go to CNC > Generate GCODE Files.
Select the folder where you want to save the GCODE files and click OK. CopperCAM will create one file for each layer with the extension .nc.
You can preview the GCODE files by clicking on their names in the right panel. You can see the tool path in green and red lines, indicating where the tool is on or off. You can also see the estimated time and distance for each file.
To use the GCODE files with your CNC milling machine, you will need to load them into an external driver software that can communicate with your machine. The driver software may vary depending on your machine model and manufacturer. Please refer to your machine manual for more information.
Conclusion
In this article, we have shown you how to use CopperCAM to create GCODE files from a PCB design created in Proteus. CopperCAM is a powerful and easy-to-use software application that can help 9160f4acd4
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