Hi pete
Thanks for responding
Chuck uses a differant numbering system, he simply numbers them 1 - 8 from left to right. Using his system you'll end up with:
red subgroup 1+4+6+7=16 blue subgroup 2+3+5+8=16. I think you were right the first time.
I agree it doesn’t matter where the counting starts (middle or any other convenient point) because if the sum counting from center is the same, then the sum counting from any other position will be the same (just take the first sum and add the slot-difference between ref points to each sum… equal sums remain equal).
BUT since we are adding voltage vectors associated with assumed sinusoidal flux, we need to make our count represent position around the core… and the only way to do that is to make our counter change with every slot whether or not associated coil belongs in our group. So I think Chuck must have just been using numbers to identify coils within a group without doing any comparison of voltages.
If slot position numbering includes all slots (including those in adjacent groups), counting from the left as shown attached you have
For the red subgroup: 1+5+7+8=21
For the blue subgroup: 3+4+6+10=23
Or counting from the centerline:
For the red subgroup: -4.5, -0.5, +1.5, +2.5 = -1
and the blue subgroup has -2.5, -1.5, +0.5, +4.5 = +1
Either way, the totals are not the same… doesn’t look anywhere close to being similar induced voltages (*). I’m sure I’m missing something because I have a hard time believing EASA would publish something that creates large circulating currents… just not sure what it is that I’m missing and open to suggestions.
(* by the way I think the sums being the same is a necessary but not sufficient condition for same voltages… if we have the same sum but in a pattern that is not concentric about the centerline then we might expect approximately but not exactly the same voltage when we perform the vector sum).
=====================================
(2B)+(2B)' ?
