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70s Model T (not the super, the earlier version, although their power stages are basically the same) -- a client asked me to modify one to be able to use EL34s. I basically just added a fixed screen node to the power supply by adding another choke (5H/100R) and a couple of caps. He wanted the option of continuing to use 6550s, so I also added a switch to select either fixed-screen or UL operation. I made the bias supply variable so that it could accommodate 6550s/KT88s/EL34s. (Before you say "this is a bad idea," I told him that and he's taking his chances.)
The output transformer on the amp was an aftermarket Mercury replacement. I've seen this one before and it has a 2K primary. It's really big. I didn't measure the primary's DCR when I had it.
B+: 520V at idle, 480V at full power with all tube types. Screen resistors are 1K (not schematic 1.5K... I don't know why)
What I'm interested in is the power output difference:
Fixed screen:
KT88s - 144W
6550s - 148W
EL34s - 157W!
UL:
KT88s - 134W
6550s - 132W
EL34s - 112W
So my question is why would EL34s do more power in this circuit than 6550s or KT88s? Every time I've put 6550s or KT88s in a Marshall or Hiwatt style EL34 circuit (single rail with fixed screens) the power output goes up a bit, depending on the power supply. I put KT88s in a Hiwatt DR504 and it went from 58W clean to 72W clean with no changes to the circuit except for a bias supply mod. I can't remember a time where I saw EL34s do more power than 6550s/KT88s in the same circuit with no changes. I fully expected the EL34s not to do well in UL, but the fixed-screen results have me scratching my head.
This probably reflects my ignorance about load lines... but is the answer that simple -- just a different saturation voltage for the different tube types? Yet this amp was designed for 6550s. Is it an artifact of the fact that I'm testing into a non-reactive dummy load? Would results be different with speakers? Something about the UL OT design? Does the DCR of the OT primary affect it?
Please don't say "uh they're different tube types." Yeah I get that, but these results are not what I expected.
BTW, the bias for 6550s/KT88s was set to about 38mA per tube cathode current at idle. For EL34s, it was set to give about 30mA per tube idle. Obviously the power stage sensitivity was much higher with the EL34s, hit max power way earlier on the master.
(Another interesting and unrelated observation is that the 82k/120k PI plate resistors produce better balance in UL in this amp, but 82k/100k produces better balance in fixed-screen. So that explains that choice)
The output transformer on the amp was an aftermarket Mercury replacement. I've seen this one before and it has a 2K primary. It's really big. I didn't measure the primary's DCR when I had it.
B+: 520V at idle, 480V at full power with all tube types. Screen resistors are 1K (not schematic 1.5K... I don't know why)
What I'm interested in is the power output difference:
Fixed screen:
KT88s - 144W
6550s - 148W
EL34s - 157W!
UL:
KT88s - 134W
6550s - 132W
EL34s - 112W
So my question is why would EL34s do more power in this circuit than 6550s or KT88s? Every time I've put 6550s or KT88s in a Marshall or Hiwatt style EL34 circuit (single rail with fixed screens) the power output goes up a bit, depending on the power supply. I put KT88s in a Hiwatt DR504 and it went from 58W clean to 72W clean with no changes to the circuit except for a bias supply mod. I can't remember a time where I saw EL34s do more power than 6550s/KT88s in the same circuit with no changes. I fully expected the EL34s not to do well in UL, but the fixed-screen results have me scratching my head.
This probably reflects my ignorance about load lines... but is the answer that simple -- just a different saturation voltage for the different tube types? Yet this amp was designed for 6550s. Is it an artifact of the fact that I'm testing into a non-reactive dummy load? Would results be different with speakers? Something about the UL OT design? Does the DCR of the OT primary affect it?
Please don't say "uh they're different tube types." Yeah I get that, but these results are not what I expected.
BTW, the bias for 6550s/KT88s was set to about 38mA per tube cathode current at idle. For EL34s, it was set to give about 30mA per tube idle. Obviously the power stage sensitivity was much higher with the EL34s, hit max power way earlier on the master.
(Another interesting and unrelated observation is that the 82k/120k PI plate resistors produce better balance in UL in this amp, but 82k/100k produces better balance in fixed-screen. So that explains that choice)
And on a more serious note, check your Model T for screen glow in the EL34s when cranked.
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