Hi all,
Until recently I'd always seen vacuum tubes as mystical things that I could never understand. A few weeks ago I had some time to myself and decided that I was going to learn how they work and build a small amplifier. I've been reading a book called 'Vacuum Tube Amplifier Basics' which has given me a lot of information, a lot of which I think I get, but there are still parts of it that haven't quite sunk in... I was hoping that I could outline my plan so far and maybe someone with experience can highlight the mistakes I'm making or help me to understand some things. I'm very new to this, so I apologise in advance for any massive errors I make
So I guess I'll state my goal first - as this is primarily an educational / fun project, I'm not looking for something perfect - just something that I can comfortably use.
Currently I'm thinking of a class AB amplifier using a pair of 6V6GTs and a 12AX7 per channel. For the power supply I was thinking about one of the Edcor power transformers like the XPWR010 that will output 750V @ 175mA (with a 120 or 240V input) and a 5U4G/5U4GB rectifier, connected to a choke filter. I've attached a design (pretty much straight from the book I mentioned) using a 1n5942 zener for about 50V max bias. I could probably switch to a different rated zener as the 6V6GTs only appear to want a -15 to -19V grid voltage based on the configurations listed in the datasheet. This is pretty much the first thing I've ever tried drawing up on KiCad so I'm sorry for how bad it is
...so anyway if I skip to the tubes - the tung-sol datasheet for the 6V6GT lists two configurations for a class AB amplifier. The second seems nicer - listing about 14W output through an 8000 ohm load. It does say that for 2 tubes the max. signal plate current would be about 92mA though - which with 2 channels would surely be over the 175mA maximum of the transformer mentioned above, so I guess I'll have to pick a new transformer or operate the tubes closer to the first listed configuration, which has an output closer to 10W through a 10,000 ohm load and a max. signal plate current of 79mA for 2 tubes. I'm probably misunderstanding something here...
I'd like to be able to drive the amplifier from a (consumer) line-level signal, so I guess that would be 0.4v-ish peak input? The 6V6GT datasheet shows (again in the typical configurations) either a 30 or a 38V peak AF input voltage. If I'm understanding the book I've been reading the gain I need is 30/0.4 := 75 or 38/0.4 := 95. Also from the book, apparently a rough estimate of a tube's max voltage amplification is (Mu * Rp) / (Rp + Ra), so I guess with a 100k plate resistor a 12AX7 would give me (100 * 100,000) / (100,000 + 62,500) := 61.538 (assuming the typical configuration of plate voltage: 250V in the GE datasheet for the 12AX7). I guess I'd need to run the signal through both of the 12AX7's triodes in order to amplify the voltage enough to fully drive the 6V6GTs.
[side note: I haven't quite understood how to choose the plate resistor, I've read around that it should be about 3 * the internal plate resistance, but I don't yet have a solid understanding on how it affects amplification, or how to pick a second plate resistor for the other side of a 12AX7 - should it just be the same value?]
Is it a bad idea to run a 12AX7 this way? I'm having trouble figuring out how to put the two sides together, I've seen a bunch of different schematics on the Internet, some with a cathode bypass capacitor on the first triode, some on the second, some neither. Some with a larger plate resistor on the first and a smaller (or no resistor?) on the second, or the reverse... it all seems a little conflicting. Then comes the phase splitting, as I want to run the power output tubes in a class AB setup, would it be advisable to introduce another tube that does not do any voltage amplification just to split the output?
Another bit of confusion I have is all the way back at the power supply. So I'm in the UK and mains voltage is 230V, so if the transformer I mentioned is outputting 750V @ 175mA when the primary is at 240V, wouldn't the output at 230V when fully loaded be closer to (750/240)*230 := 718.750? Then if the bias voltage is subtracted from that (and still assuming a 51V zener), wouldn't I be feeding the 5U4GB (718.750 - 51) / 2 := 333.875 per plate?
I've had trouble understanding the output voltage graph for the 5U4GB with a choke filter - the voltage drop curve - is that for a constant input voltage? Because unloaded (or with reduced load) wouldn't the transformer's output voltage be a bit higher? Assuming even the 350V input/plate line, by 175mA-ish it looks as though the output voltage would be closer to 260V or so... Is my current "design" running too low voltage?
Sorry for the wall of text, there's a lot going on in my head regarding this amplifier right now, and I'm feeling a little confused in multiple ways... I don't want to just go out and buy some kind of kit, because I want to actually understand this stuff a little better and actually (at least in part) design something that I can then build. I guess that will take time though.