No reply expected or requested, I'm posting this because I couldn't find anything under the search terms I was trying when looking for info on a noise problem. Maybe this will be useful to somebody later.
A few days ago I wired up a VT-25A/10Y Preamp breadboard and though it sounded good it had some noise problems. After solving some buzz (grounding) and bias (mistake in circuit) problems, there was a much larger than usual tube rush /downpour on an otherwise quiet day sort of white noise. It was tolerable when there was music playing but too obvious between tracks.
I had wired the LT108 filament supply regulators the same as I had done on power amps I last built last year that also have the VT-25A's fil supply with a 10uF cap at the input of the LT108 and .47uF on the out. They are extremely quiet.
Not sure why the different result - maybe a weakness in the wiring layout on the new one tipped the scale . . . Just the same, today I put a 150uF cap across the output as per the LT data sheet (120uF) and now there is no white noise. Must have been hf oscillation.
I hope this is useful for somebody.
Thanks
A few days ago I wired up a VT-25A/10Y Preamp breadboard and though it sounded good it had some noise problems. After solving some buzz (grounding) and bias (mistake in circuit) problems, there was a much larger than usual tube rush /downpour on an otherwise quiet day sort of white noise. It was tolerable when there was music playing but too obvious between tracks.
I had wired the LT108 filament supply regulators the same as I had done on power amps I last built last year that also have the VT-25A's fil supply with a 10uF cap at the input of the LT108 and .47uF on the out. They are extremely quiet.
Not sure why the different result - maybe a weakness in the wiring layout on the new one tipped the scale . . . Just the same, today I put a 150uF cap across the output as per the LT data sheet (120uF) and now there is no white noise. Must have been hf oscillation.
I hope this is useful for somebody.
Thanks
I can't find any reference to LT108 on Linear's webpage so I'm assuming this is a low-drop voltage regulator (LDO) you're talking about (because people seem to be extremely fond of these here).
LDOs are far more prone to instability than the regular types so their datasheet requirements must be obeyed in full. If datasheet says 120 uF, then 120 uF it should have been all along. One can save a great deal of frustration by merely following manufacturer's suggestions, all neatly laid out in a simple schematic or two in the datasheet (ditto for capacitors close to non-LDO voltage regulator pins ...) 😉
LDOs are far more prone to instability than the regular types so their datasheet requirements must be obeyed in full. If datasheet says 120 uF, then 120 uF it should have been all along. One can save a great deal of frustration by merely following manufacturer's suggestions, all neatly laid out in a simple schematic or two in the datasheet (ditto for capacitors close to non-LDO voltage regulator pins ...) 😉
May also be a symptom of oscillation in one or more of the stages.. Grid stopper resistors right at the grid connection on the socket are advisable if not present..
It is my experience that normal regulators (of the non-LDO kind) are way behaved way better. If you have enough headroom (you'll need 1.25V + 2.5V or thereabouts) do try the venerable LM317.
Arnulf thanks. Trying out various things here, not necessarily happy with the results yet but I'm really impressed at the influence the filament supply has on sound. I'll get a couple of LM317s next week.
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