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This topic crops up every so often. My view is that idle dissipation doesn't change power output per se, rather it just affects linearity. And as we see with solid state amps, with enough NFB, even cold bias can be made linear.
I made some tests on my Sound City 50Plus, which I've previously rearranged with a JTM50 circuit (HT and bias supplies excepted, given the FWB rectified HT and voltage doubler rectifier for the slightly inadequate bias winding).
The HT reservoir cap is 100uF, choke is a Hammond 157J (10H, 205ohms), screen grid HT node is 64uF.
The thing with the JTM50 is the high degree of NFB, 27k series resistor sampling the 16ohm output, 5k shunt resistor at the LTP tail.
Output valves are an old, well used pair of white shield Mullard EL34 that still seem to be working very well. BOH2 code, whatever that indicates.
The 8ohm output and cathode current (ie cathode voltage on a 1ohm cathode resistor) were scoped at full power output at the onset of clipping, at idle anode dissipations of 2.5W, 12.5W and 17.5W.
The HT supply is fairly stiff but sagged from 400V for the 2.5W test to 386V for the 17.5W test.
Anode current was assessed by measuring the voltage dropped across OT half primary resistance.
Here's a screenshot of the 17.5W test
I made some tests on my Sound City 50Plus, which I've previously rearranged with a JTM50 circuit (HT and bias supplies excepted, given the FWB rectified HT and voltage doubler rectifier for the slightly inadequate bias winding).
The HT reservoir cap is 100uF, choke is a Hammond 157J (10H, 205ohms), screen grid HT node is 64uF.
The thing with the JTM50 is the high degree of NFB, 27k series resistor sampling the 16ohm output, 5k shunt resistor at the LTP tail.
Output valves are an old, well used pair of white shield Mullard EL34 that still seem to be working very well. BOH2 code, whatever that indicates.
The 8ohm output and cathode current (ie cathode voltage on a 1ohm cathode resistor) were scoped at full power output at the onset of clipping, at idle anode dissipations of 2.5W, 12.5W and 17.5W.
The HT supply is fairly stiff but sagged from 400V for the 2.5W test to 386V for the 17.5W test.
Anode current was assessed by measuring the voltage dropped across OT half primary resistance.
Here's a screenshot of the 17.5W test
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