I have used the ps 1 in other.
Vacuum tube regulated power supply schematic.
It has no sense to have the best tap if you have only few and spotted water to put through.
In order to construct some tube circuits on a breadboard style set up and be able to manipulate or dial up the supply voltages at will i would need to have a bench supply that would put out low as well as high voltages not to mention grid bias voltages filament power and would display what those voltages were.
You can read more about the ps 1 here.
The final output voltage is 1 below target final ripple is 2 9µv or 110 7dbv.
Tube power supply a power supply should provide a precise voltage completely stabilized versus perturbations from any kind coming both from the ac source or from the load.
Before the circuit of the regulator will be shown i want to present results of comparative testing of a typical power supply with the inductive µ filter 3 and power supply with the regulator.
We now have a manageable power supply that can sit on a bench or its equipment shelf.
Vacuum tube power supply design.
In other words except for the power transformer the ps 1 pcb holds all that is needed to make a superb regulated power supply for tube circuits.
0 to 100 vdc for vacuum tube grid bias.
50 to 500 vdc at up to 200 ma for plate and screen supplies of moderate power vacuum tube circuits.
Figure 1 figure 2 6 h 100 0x500v d1 d4 220v fu1 1n4007 1 6a 200 0x500v testing circuit rs 1ohm 280v const.
The testing circuit on figure 1 is shown.
So where does all this leave us.
6 3 and 12 6 vac at a few amps for tube heaters.
Figure 10 power supply schematic.
See below for a picture of the power supply pcb which is glassware audio design ps 1 and has a circuit with a high voltage current regulator paired with a low voltage regulator which supplies the b and a low voltage regulated dc circuit which supplies the tube filaments.
Well we ve shown that with some plots and a little simple arithmetic we can get.