Anyway...these both resonated at a few cps past 1k Hz. As predicted by theory, the impedance goes through the roof, and the starts falling.

This behaviour leaves me wondering about using Iron like this with high output Z drivers in Zero-nfb amps. Good thing that for open loop amps, one does not usually deal with high source Z on purpose...:)

I am modifying the amp so that the slightly taller chokes can be installed, and then the Brown will hit the fan( no slight to the package mis-handlers at UPS intended ).
cheers,
Douglas

Cw = 1 / (4Pi^2 * f^2 * L) ~ 39 pF

Can you explain your results / findings in more details?

On PS inductor resonance, it is not a bad practice. One LC stage to remove nearly everything but a 120 cps ripple, then a second LC with a tuning C shunted across the L to establish its resonance at 120 cps. Nearly pure DC is the result.

The numeric analysis would seem to idicate such a widely varying load on the driver stage would be bad news...these are ov course the same methods that would have us using SS for amplification...:)
cheers,
Douglas

Cw = 1 / (4Pi^2 * f^2 * L) ~ 39 pF

Can you explain your results / findings in more details?

*********************

It's too bad that half the windings don't have a quarter of the capacitance!

Half the coil has half the L, unless it's by itself...then ov course it has a quarter of the end to end L.
cheers,
Douglas

The E-Linear plate-to-grid NFB will do a bit to level the response. The 20-20 lineage of the output TX should grant it full power down to its advertised low frequency limit...:)

I will measure it soon. Must get proper load that won't overheat.
cheers,
Douglas