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I'm frankly unfamiliar with cathode biased amps, which is what the WEM appears to be from the schematic, but I'm struggling to make sense of the idle currents I'm seeing and the implied dissipation.
Since it's cathode biased I'm not using my bias probe (which only switches one valve into the circuit at a time) but just measuring voltage across the 100 ohm cathode resistor for the EL84 output pair with no signal and controls at zero.
There's 312V on the anodes, and 9.3V across the cathode bias resistor (100 ohm on schematic and measures 99 ohm). This implies 46.5mA idle current per EL84, but that would be 14.5W which is close to maximum power for an EL84!
The amp actually sounds pretty good, and if I put a scope across a dummy load it will run 12.2W RMS into an 8 ohm load (the speaker in the cabinet is a 15 ohm, and I believe the amp is nominally 15W so the impedance mismatch may account for the slightly reduced output power).
What am I doing or thinking wrong to calculate such high idle power? If I do use my bias probe the the EL84s run well matched with 77 and 74mA idle current when switched in one at a time, and they test well-matched on an AVO so Idon't think either has a problem accounting for the high idle current. If I look at a data sheet then an EL84 with -10V bias (less bias than my -9.3V) has anode current of about 25mA at 300V, not the 46.5mA I'm seeing.
Thanks for any advice.
Dominator_mk3.pdf
Since it's cathode biased I'm not using my bias probe (which only switches one valve into the circuit at a time) but just measuring voltage across the 100 ohm cathode resistor for the EL84 output pair with no signal and controls at zero.
There's 312V on the anodes, and 9.3V across the cathode bias resistor (100 ohm on schematic and measures 99 ohm). This implies 46.5mA idle current per EL84, but that would be 14.5W which is close to maximum power for an EL84!
The amp actually sounds pretty good, and if I put a scope across a dummy load it will run 12.2W RMS into an 8 ohm load (the speaker in the cabinet is a 15 ohm, and I believe the amp is nominally 15W so the impedance mismatch may account for the slightly reduced output power).
What am I doing or thinking wrong to calculate such high idle power? If I do use my bias probe the the EL84s run well matched with 77 and 74mA idle current when switched in one at a time, and they test well-matched on an AVO so Idon't think either has a problem accounting for the high idle current. If I look at a data sheet then an EL84 with -10V bias (less bias than my -9.3V) has anode current of about 25mA at 300V, not the 46.5mA I'm seeing.
Thanks for any advice.
Dominator_mk3.pdf
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