: Sophisticated algorithms, often utilizing Tikhonov regularization or deep neural networks like FlatNet, process these raw sensor measurements to mathematically "unscramble" the scene and produce a clear image.
Unlike a standard end mill, a V-bit cuts wider the deeper it goes. If your "Cut Z" is too deep, you will cut through the narrow traces entirely. You must calculate the correct depth based on the tip angle of your bit (e.g., 30° vs 45°) and the desired isolation width. FlatCAM helps visualize this, but test cuts on scrap copper are essential. flatcam
A Gerber file is just a 2D image of the copper; it does not contain instructions for a spinning tool. You must convert these into "Geometry" objects. You must calculate the correct depth based on
PCB milling is precise. A Z-offset error of 0.1mm is the difference between a perfect cut and a ruined board. FlatCAM generates the code, but it is up to the operator to zero the Z-axis perfectly on top of the copper stock using a probe or paper method. You must convert these into "Geometry" objects
FlatNet: Towards Photorealistic Scene Reconstruction ... - PMC
Before opening FlatCAM, you must export your PCB design from your EDA software (KiCad, Eagle, etc.). You will need two file types:
