Originally posted by citfta
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I re-quoted your previous post, since by doing the resistors testing again, I also obtained (yes in past) the same response...meaning the field fluctuations decay at higher speeds...meaning we can rule out of here Part G as the main cause.
I like to do that...replace components and see what I get...it is a simple method of repairing equipment...
However...I am not getting it any more...I resolve it by using MM method to wind Primaries with parallel layers, starting at the front of core CW (would be my positive) and making three layers all the same way, getting a North up front...Now as I accelerate fluctuations and field deflection angle grow higher, and that is EXACTLY the way it is supposed to be.
I also replaced a bad 1.5 ohms resistor (burnt) on my linear PSU control board (the only board on that PSU, the rest are just big Transformers, Capacitors and Diodes...) Now it dials very smooth...
Primaries nor resistors heat at all...no sparks...very nice and strong field growing as I speed up...
What I HIGHLY recommend when doing this test...is to first get rotary switch running (Not necessarily at full speed) before applying any power to the exciter system.
I believe I am having a better "picture" of this whole thing...
Regards
Ufopolitics
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