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Post by pyrroz on Mar 7, 2022 13:33:29 GMT -5
and it is working very good.
pls share your experiences with this or other sw.
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Post by pyrroz on Mar 8, 2022 14:39:49 GMT -5
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Post by Deleted on Mar 8, 2022 17:10:08 GMT -5
Nice software if that's the art work that comes out of it. The circuit, missing a link at the top of the toggle switch to link the humbucker rails North X South to North + South Guessing that two blue thing at the bottom is a 1P2T on/off I never understand the no load and load thing myself. So I can't comment on it. Looks ok. C1 only comes in to play for Bridge on its own so it becomes C1+C2 N+M the tone will be 1/{(1/500K)+(1/250K)} as both going to the same cap and ground .. 166K with C2 Just reading up about no load pots humbuckersoup.com/no-load-pots/ |
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Post by pyrroz on Mar 9, 2022 1:42:18 GMT -5
Nice software if that's the art work that comes out of it. The circuit, missing a link at the top of the toggle switch to link the humbucker rails North X South to North + South Guessing that two blue thing at the bottom is a 1P2T on/off I never understand the no load and load thing myself. So I can't comment on it. Looks ok. C1 only comes in to play for Bridge on its own so it becomes C1+C2 N+M the tone will be 1/{(1/500K)+(1/250K)} as both going to the same cap and ground .. 166K with C2 Just reading up about no load pots humbuckersoup.com/no-load-pots/
Hi, I forgot to explain : the wiring as you understand is a classic strat wiring + a) series/parallel push/pull for bridge b) series/parallel push/pull for neck c) as you spotted , bridge tone by the c1 capacitor in series with the rest of tone circuit (c1) d) a on-off mini toggle switch (shown at the bottom) : add bridge to all positions
do you still see problems? pls say so!
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Post by Deleted on Mar 9, 2022 2:57:58 GMT -5
Dam it .. the curve of the black cable that hooks up to the white.
Therefore don't need a link
Why I like circuit diagrams to wiring diagrams , circuit diagrams show links and bridges
Are you going to make the third pot a push pull so you don't need to add a toggle
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Post by pyrroz on Mar 9, 2022 3:13:19 GMT -5
Are you going to make the third pot a push pull so you don't need to add a toggle
good idea, I dont remember why I made it so, maybe to dont get confused by the many push pulls...
You made an interesting comment , on parallel N/M it would be 1/ ( (1/500) + (1/255)) ~ 170 Kohm, maybe its too low a value? so it sounds dull?
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Post by pyrroz on Mar 9, 2022 4:00:02 GMT -5
oooppss I am a little slow and stupid .... I forgot the no-load... so at 10, the 250kohm pot has virtually infinite resistence , cool, so the effective N/M resistence , both pots at 10, is 1/ ( (1/500) + (1/infinity)) = 500KOhm
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Post by newey on Mar 9, 2022 5:44:56 GMT -5
If we're calculating the resistance, don't forget the volume pot . . .  Yeah, that's an odd way to do the series/parallel, typically one would just wire across the uppermost lugs of the switch for the series link. but pyrroz's way will work and is actually one less solder connection. The diagram could be clearer as to that connection, though. Also, I am assuming the two poles of the 5-way are connected together, looks like there is a gray wire there but hard to see. |
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Post by pyrroz on Mar 9, 2022 6:49:27 GMT -5
If we're calculating the resistance, don't forget the volume pot . . .  Yeah, that's an odd way to do the series/parallel, typically one would just wire across the uppermost lugs of the switch for the series link. but pyrroz's way will work and is actually one less solder connection. The diagram could be clearer as to that connection, though. Also, I am assuming the two poles of the 5-way are connected together, looks like there is a gray wire there but hard to see.
spot on, there is a gray wire on the 5-way !
regarding series/parallel I just did what dimarzio says in their diagram.
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