Did you verify the health of each cathode resistor?

Still don't understand how that tube was conducting 20mA of current with such high resistance in the cathode path, but that isn't my problem for today...

Could your bias probe somehow bypass it? I don't think so but thought I'd throw it out there.

Did you check that Cathode resistor you removed, or did it hit the trash bin already? Like you, I can't see how you were measuring the voltage drop. Now, because the plate voltage is so high on SVT's and similar amps, I measure the voltage drop across the cathode resistor directly (on SVT-CL's, AV's, SVT2-Pros. On SVT-VR's, you're now measuring at Plate Potential, but still small voltage drop so you can still get the plate current figures per tube. My Bias Probe set...Compu-Bias isn't rated for anything greater than 600VDC. And, with your bias probes, it's all in-series between the tube and tube socket, so not like you have a path to ground in your probe. I suspect that 10 ohm resistor was fine.

Reading between Pin 8's will always yield 20 ohms between tube sockets, so I do find that valid. I do the same to quickly verify the screen resistors from Pin 4 to Pin 4, yielding 440 ohms or very near that. Should be similar for the grid resistors at Pin 5. 2 x 47k.

While we're on the subject of getting tubes biased up and running, I have an SVT-CL over from our rental inventory, having the problem of it shutting down (goes into protect mode...Flashing RED LED). I tracked that down to the tube plugged into V3. The upper set was biased to around 14-16mA, while the lower set biased to 21-25mA. Then, I watched V3 start conducting, with it's plate current climbing past 40mA, RED bias LED came on quickly, then it hit Protect mode, pilot light began flashing as it turned the HT supply xfmr off. I did have to find which tube it was, not knowing right off until I monitored the six tubes with the open-chassis set up I use.



This new matched Sextet of J/J KT-88's just came in from Antique Electronic Supply in Arizona. so I set the amp up like this, only no power tubes installed. I checked the driver bias voltage for the upper and lower sets of tubes, both around -51.7VDC. Set both to -52VDC for a start, then plugged in the first two tubes into V3 & V4 positions to see what voltage I read across the cathode resistors. Both read around 110mV (11mA), so I decreased the bias to hit 220mV for both tubes, then checked the bias voltage change. Now both set at -48.7VDC. I let that first pair idle a couple minutes to see how much change there was. Increased to around 0.226VDC, so I marked the first to tubes per their position and moved on going thru the rest of the tubes from the matched Sextet. Got similar readings, spaning from 0.215V to 0.226V, until the last tube....I got a reading of 0.115V. Sigh.........

Let it idle for a while to see if there was any increase. It got to 0.120V and stayed there. Swapped the two tubes around (I tend to use V3 and V4 tube positions for all of the readings in single pairs for consistency sake. I had previously checked the readings of the Cathode resistors and screen resistors. The cathode resistors ranged from 10.00 to 10.26 ohms, so tight tolerance. Similar readings for the 220 ohm screen resistors. When i swapped the tubes V1 & V6 with each other, the readings moved with them, so I have one tube reading 10mA low in this new matched Sextet. RATS! I'll have to call Antique to see what else they have....if there's another tube from a similar reading set that could offer a better match, as this is not acceptable for a matched set. I've previously read the currents of a set having such an imbalance, and under load, there's also similar imbalance in the current sharing of the triad of tubes under drive conditions. I haven't tried that with this set, but having had high success with the J/J KT-88's in Matched Sextets from Antique, I'd like to continue that. Each tube has the Transconductance Value, used as the Matched Set code, along with the Plate Current used. Each tube's label has those to numbers, along with a seven-digit ID and a four-digit alphanumeric code, so there's info in the database associated with the Alpha Tube Matching system they use.