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Forum Index : Windmills : cog free coil/ magnet ratios?
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Tinker Guru  Joined: 07/11/2007 Location: AustraliaPosts: 1904 |
The Shibura alternator I got here does not cog at all, much less than the F&P converted to 7 phase which I also have to experiment with. I am wondering if there are other coil/ magnet ratios that produce no cogging? For those who are unfamiliar, the Shibaru has an outside 12 coil stator on laminated iron pole shoes. They are connected in 3 phase star (4 coils in series). The rotor within has also a laminated construction with 10 pole shoes. A PM of unknown shape within magnetizes these in a N/S/N/S... alternating configuration. I ask this question as it occurred to me that one could use a similar ratio on AXFX alternators with the inclusion of iron filings encapsulated in epoxy, within the coil centers. Is this a crazy idea or would it provide some improvement to the magnetic path? For a reasonable number of turns in the coil one needs very powerful magnets (expensive and dangerous), would the iron filing idea permit a smaller magnet for an identical coil gap? I'm looking forward to read your comments. Klaus |
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oztules Guru Joined: 26/07/2007 Location: AustraliaPosts: 1686 |
Not crazy. Jerry of fieldlines used a 14:11 ratio for an axial flux with iron cores. It was designed for mechanical /cogging cancellation, not three phase. Each coil in this case is independently rectified, but he claims very good figures for ferrite magnets in this configuration. Without iron cores, ferrites do a poor job in an axial flux configuration. ...........oztules Village idiot...or... just another hack out of his depth |
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| Dinges Senior Member  Joined: 04/01/2008 Location: AlbaniaPosts: 510 |
[quote]I am wondering if there are other coil/ magnet ratios that produce no cogging?[/quote] There is a lot of information in this site: http://www.powercroco.de/rasten.html http://www.powercroco.de/Kombinationstabelle.html " Systeme die dem klassischen Aufbau folgen 3:2 (Grundwellen-Motoren - wie alle 2poler BL, 3 Spulen / 2 Pole N und S) 3:4 (2. harmonische Motoren mit 3 Spulen / 4 Pole, N-S-N-S)oder allgemein: 3n zu 2p oder 3n zu 4p,(6N8P; 12N16P)sind immer stark rastende Motoren. Aus der Suche nach wenig rastenden Kombinationen resultierten dann die Motoren mit 12 Nuten und 14 oder 10 Polen (LRK), oder auch 9 Nuten mit 8 oder 10 Polen (CDR-Motoren). Das trifft natürlich auch auf deren vielfache (18N16 oder 20P) zu!" As he says, there are combinations that produce *less* cogging (no cogging doesn't seem to be possible using this technique) http://www.powercroco.de/theorie.html With apologies to the non-German speakers, but Tinker's name suggests a German-speaking heritage, so I assume he won't have too much trouble reading it. Peter. |
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GWatPE Senior Member Joined: 01/09/2006 Location: AustraliaPosts: 2127 |
Surely the benefits provided by NEO magnets is worth the effort to handle them with a bit of care during building, without resorting back to iron cores for DIY windmill applications. become more energy aware |
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| Tinker Guru Joined: 07/11/2007 Location: AustraliaPosts: 1904 |
I agree Gordon, just thought there may be a way to make them even better with NEO magnets (especially the smaller ones I am playing with presently). Dinges, thanks for posting that German article, you were right, I was raised in that language (in Austria) but it has been many many years since I dealt in German technical terms. I did get the gist that its not quite as simple as I though initially, lots of factors come into play. I think with my motor its the rather small gap at the ends of the "hammerheads" on the rotor that reduces the cogging. The stator is wound & connected as the little calculator suggests. I think the 11 coil/ 14 magnet ratio Oztules mentioned might be worth tinkering with. If it works well with ferrite magnets it could be even better with NEO's  Klaus |
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