I hoped a powerful programmer will help me to put all this work in a macro, to automate the design of perfect Torus transformers. But I would need a realistic 3D model: I intended to design and verify my electronic PCB projects with/without enclosure, with proper wire diameter, with isolation, with winding gaps, with multi-layers, winding fill-factor, and so on. Only a "round" wire over a round cross-section Torus works without problems, with beautiful results. If I try the fillet on 2 steps, first time 0.02 mm and again increase it to 0.05 mm, I will get an extremely chopped-off shape for the winding wire, with holes, twists, and spikes all over.Īlso, there is no way I can see how to sweep a Circle sketch overlapped perfectly over the existing square profile wire winding (instead of Filleting). If I set the Fillet to 0.05 mm for example, the program will simply crash, after a looooong time. If I try to apply a fillet on edges, only something like 0.02 mm will produce the expected result after a very looooong time. n * 2 * 3.141592) max 6.283185 or 6.075Įverything worked as planned for a while, nice and quick processing, errors free. Max t = 6.075 //circular end point in radians (0. Min t = 0 //circular start point in radians (0. This is the kind of parametric Helix settings I used for the ParametricCurve macro:Ī(t) = 7.5375 // radius of Helix revolving path: (R + r) / 2ī(a,t) = 4.8 // radius of Helix turn: (R - r)/2Ĭ(a,b,t) = 30 // number of turns in a single layer
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |