Differenze tra le versioni di "Millefori: rounded tracks in your PCB"
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Riga 4: | Riga 4: | ||
new feature: rounded tracks. | new feature: rounded tracks. | ||
− | In fact angles in tracks can produce signal | + | In fact angles in tracks can produce signal reflections on high frequencies. |
There are two new command options for the millegcode program: | There are two new command options for the millegcode program: | ||
Riga 14: | Riga 14: | ||
My 3d-printer uses the Marlin firmware. G2/G3 arcs are roughly approximated, the result is poor. | My 3d-printer uses the Marlin firmware. G2/G3 arcs are roughly approximated, the result is poor. | ||
− | -r seems to work well. The gcode file is quite longer, this is the only minor drawbacks. | + | Instead -r seems to work well. The gcode file is quite longer, this is the only minor drawbacks. |
Here is an example of a PCB milled using this new feature! | Here is an example of a PCB milled using this new feature! | ||
[[File:roundpcb.jpg|400px]] | [[File:roundpcb.jpg|400px]] |
Versione delle 00:08, 11 nov 2014
Millefori was introduced by my posting: Millefori: draw, print, mill and drill your experimental PCBs.
The new version of millefori (Click HERE to download Millefori) includes a new feature: rounded tracks.
In fact angles in tracks can produce signal reflections on high frequencies.
There are two new command options for the millegcode program:
-r -R
Both options generate rounded tracks. Lower case r uses segments (gcode g1) to generate the rounded end of a track, while upper case R uses gcode arc commands (g2/g3).
My 3d-printer uses the Marlin firmware. G2/G3 arcs are roughly approximated, the result is poor. Instead -r seems to work well. The gcode file is quite longer, this is the only minor drawbacks.
Here is an example of a PCB milled using this new feature!