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What kind of noise reduction can you expect to see with this? Complete heater - cathode hum elimination? Marginal?
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I implemented this and it works out that I've got DC in the mid-40V range on the filament CT. It works perfectly - in regards to what it accomplished, there is a very noticeable reduction in hum and it was quite easy to install. Not sure exactly where the heater hum was coming from but it was definitely heater hum and I would say this reduced it by a good 75%.Comment
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Yes, it is effective against that particular source of hum. It would do nothing to help against hum such as might result from a grounding issue.
Hum can come from a number of places, and each source must be treated separately.Education is what you're left with after you have forgotten what you have learned.Comment
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Another couple questions............
1) If you are creating low V power supplies (rectified/filtered +/-3v) off your heaters and you elevate the heaters, what kind of havoc are you going to cause? Any clever way around that? Blocking caps before the rectifier for the low V supply? If so, suggested values? Since what you're wanting to let through is 3vac at (?) hz, you'd want to use a blocking cap large enough not to roll that off right? Or am I totally off base?
2) Any clever way to do this on a PT such as a Fender which doesn't have a CT for the heater lines?Comment
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Well, P=V^2 / ROriginally posted by EFK View Post
So re-arranging
R = 305 ^ 2 / 1
R = 93205 ohms
That would theoretically dissipate 1 watt, so for 1/2 a watt, make sure the total resistance of your divider is at least 180k. You'd still want to go higher to be on the safe side, I'd expect.Comment
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