here are the plots for the air gap vs Henries on a DIY V76 plate inductor,
this is the 250 H output choke that loads the E83F tube,
a V72/V76 EFR804s choke has about 4 to 5 ma of DC on it,
this guy has about 11-12 ma DC on it,
input signal was set to give 40 VAC across the choke,
a V76 amp was used so that we can get a good test,
current was read off the cathode resistor as was done on the V72 choke
this prevents false readings due to test lead capacitance
we snipped the output cap lead so that the AC cathode current = the choke current,
core saturation due to no gap pushes the curve down more compared to the V72 as this choke caries twice as much DC,
looks like an 8 mil gap will get us our 250 H @ 20 Hz,
max inductance was with the 5 mil gap,
another test was run which checked inductance vs frequency for different AC voltage levels on the choke, 5-10-15-20-25-30-35 and 40 VAC,
they all plot out about the same, so no use showing a graph,
this is the 250 H output choke that loads the E83F tube,
a V72/V76 EFR804s choke has about 4 to 5 ma of DC on it,
this guy has about 11-12 ma DC on it,
input signal was set to give 40 VAC across the choke,
a V76 amp was used so that we can get a good test,
current was read off the cathode resistor as was done on the V72 choke
this prevents false readings due to test lead capacitance
we snipped the output cap lead so that the AC cathode current = the choke current,
core saturation due to no gap pushes the curve down more compared to the V72 as this choke caries twice as much DC,
looks like an 8 mil gap will get us our 250 H @ 20 Hz,
max inductance was with the 5 mil gap,
another test was run which checked inductance vs frequency for different AC voltage levels on the choke, 5-10-15-20-25-30-35 and 40 VAC,
they all plot out about the same, so no use showing a graph,
