I don't know, depends on how clean the joints are then actually, will remain always a small air gap.
So I would, if I could use substation design for all the time, 400V take, so that the power must not be as high. Then, you can use thinner wire for the primary coil, what a little place could save because the gaps between the coils will be better populated. The windings are then just dense.
With regard to the performance: 2.4 kva sound realistic. You are of course always pretty neatly wrap must for maximum efficiency. The performance is also limited, as eventually the core saturation and can transmit more power. Otherwise the great leistungstrafos but also not so great ;) would
With regard to the voltage: it is difficult to assess. But if you parchment paper wrap up a piece in each layer. I would maybe 0, 2mm wire just wrap with, that I am somewhere around the 10 kV landing. Then I would put a page on the core and wrap on the outside.
Otherwise: try goes over studying fun ;) :)
I don't understand it anyway: p
I take a load just for my wire from 3 A / mm2 at ex. 2.4 kW, then I have 1 mm wire diameter at 400V 6A 1, 6 mm wire diameter at 230V with 10,43A 2.
Wrapping now 316 coils with 1, 6 mm you get pretty much the same total cross-section of the coil as if wrapping 182 with 2.1 (of course there are not commercial so the cross-sections and taking smaller parallel)
The core pretends Yes the voltage per winding, copper values are the current-carrying capacity per square and on appropriate performance linked mathematically so that always the same winding cross-section must come out and air in the head are also always the same size no matter how strong.
There I would choose rather variant 230V so the part with a standard household outlet...
TeslaTorus wrote:
A performance is also limited, as at some point the core saturation and can transmit more power. Otherwise the great leistungstrafos but also not so great ;) would
Which current flows through the winding is welcome no matter, as interested in a transformer core saturation eigtl. only the coil voltage.
The transformers are so only so big because there the whole copper must fit and tension on the winding to get high to save then again expensive copper.
