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I've got a SF Bassman that's been hacked and unfortunately has had a hole drilled through the face plate to add a handy-dandy master volume. This hacker (whoever that person was) was a real genius. Two 100 ohm balancing resistors were added to the heater winding, but the center tap was left attached to the chassis. A HA HA HA!!! Hysterical. Then there's me. Not much of a genius either, since I have to ask these questions.
Anyway, I want to try to replace the caps with modern radials. I don't know much about electrolytics and I've done a search but haven't come up with a decent understanding of what I need. I plan on typical values, for 47uF on the plates rather than the 35uF of typical vintage value. The rest will be 22uF. So I can stack two 100uF with balancing resistors to get 50uF, or use an array of four 47uF caps also with balancing resistors. Space will be an issue, but I can build a new board for the caps and resistors and forget about the dog house cover for that matter. However, from my measurements I have found that I could squeeze in stacked 250v caps under the cover to suit my purpose. Soooo....
1. 250v or 350v rated caps? Any good reason to go with the 350v caps over the 250v?
2. Ripple Current? I don't quite understand it, but I gather that the higher the better? Does it really matter when you're using two or four of these together (if I have this right, the ripple current capability increases when you combine the caps together)?
3. Temperature - just go with the 105C since the chassis will be operating upside down? I would guess that 85C caps would probably be fine in a head with the tubes on top facing up and lots of ventilation, yes? Info I need for future projects I have in mind.
4. What do I need for the balancing and dropping resistors? I see most people use metal oxide, but what power and voltage rating? I've done quite a search on this and have seen numerous sources that say things like, "...and watch your working voltage rating" but never say what that really is. Mouser has 2 and 3 watt metal oxide with a working voltage of 350 and 5 watt with a working voltage of 500. Fender used 1 watt resistors back in the day, but that doesn't mean it was a good idea, just inexpensive. But then, I don't know what the working voltage rating was on those resistors back then.
Thanks to anyone who can help me learn about these things.
Anyway, I want to try to replace the caps with modern radials. I don't know much about electrolytics and I've done a search but haven't come up with a decent understanding of what I need. I plan on typical values, for 47uF on the plates rather than the 35uF of typical vintage value. The rest will be 22uF. So I can stack two 100uF with balancing resistors to get 50uF, or use an array of four 47uF caps also with balancing resistors. Space will be an issue, but I can build a new board for the caps and resistors and forget about the dog house cover for that matter. However, from my measurements I have found that I could squeeze in stacked 250v caps under the cover to suit my purpose. Soooo....
1. 250v or 350v rated caps? Any good reason to go with the 350v caps over the 250v?
2. Ripple Current? I don't quite understand it, but I gather that the higher the better? Does it really matter when you're using two or four of these together (if I have this right, the ripple current capability increases when you combine the caps together)?
3. Temperature - just go with the 105C since the chassis will be operating upside down? I would guess that 85C caps would probably be fine in a head with the tubes on top facing up and lots of ventilation, yes? Info I need for future projects I have in mind.
4. What do I need for the balancing and dropping resistors? I see most people use metal oxide, but what power and voltage rating? I've done quite a search on this and have seen numerous sources that say things like, "...and watch your working voltage rating" but never say what that really is. Mouser has 2 and 3 watt metal oxide with a working voltage of 350 and 5 watt with a working voltage of 500. Fender used 1 watt resistors back in the day, but that doesn't mean it was a good idea, just inexpensive. But then, I don't know what the working voltage rating was on those resistors back then.
Thanks to anyone who can help me learn about these things.
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