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I've been fooling around with Duncan's Power Supply Designer and I'm not too sure about the values for plate (and screen) load for each tube type. For example, if a 12AX7 tube chart shows 1.2mA, do I use 2.4mA to represent both triodes as a load? I've seen many existing models that show 1.5mA for a single 12AX7 so it doesn't make sense to me.
Also, when entering values for pentodes in a push/pull circuit, do I double the current draw for the tube or is it some other value based on PP operation? (i.e., 70mA for a 6V6 or 140mA for the pair.) Same question for the screen current.
The reason I ask is that I'm trying to design a PS using a 5AR4 rectifier that can be used with both 6V6 and EL34 output tubes. The simulation shows that I exceed the limits of the 5AR4 with EL34s but I know the circuit should handle it based on Marshall and Fender circuits I've seen in the past.
Sorry to be such a newbie, but this is the first time I've ever tried designing around a tube rectifier and I'd like to verify the operation in Duncan's simulator before I commit it to a circuit board.
Thanks,
Norm
Also, when entering values for pentodes in a push/pull circuit, do I double the current draw for the tube or is it some other value based on PP operation? (i.e., 70mA for a 6V6 or 140mA for the pair.) Same question for the screen current.
The reason I ask is that I'm trying to design a PS using a 5AR4 rectifier that can be used with both 6V6 and EL34 output tubes. The simulation shows that I exceed the limits of the 5AR4 with EL34s but I know the circuit should handle it based on Marshall and Fender circuits I've seen in the past.
Sorry to be such a newbie, but this is the first time I've ever tried designing around a tube rectifier and I'd like to verify the operation in Duncan's simulator before I commit it to a circuit board.
Thanks,
Norm
SS is so much easier.
A 118mA toroid PT under these conditions would be a truly unhappy camper. 
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