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space_ryerson

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  1. Those are some very inspiring demoes McSeem! Some of the demoes have a nice synth-like quality. Definitely keep us posted on your progress.
  2. I should mention that Guitar Fetish has a delay MODboard that can be installed directly into a guitar. I'm more of a pedal guy, but it could be fun to have a delay built into a guitar.
  3. No worries Thanks for the info.
  4. Thanks! I'm guessing that's a NJM2073?
  5. Interesting. I'm glad that it works for you! Out of curiosity, what chip(s) are on the board for this amp?
  6. I've got a micro kill switch on two of my guitars as well. I wish they had a shorter 'throw', in that it was a shorter distance to press down before it latches, so I can do the kill-switch thing faster. I've been meaning to take one of the switches apart to see if I can mod it to do that. I've also thought about using old game controller buttons for kill-switches, since they are meant to be pressed very fast.
  7. Good news Paul! May your sustain last longer than the arguments about it on this forum!
  8. In the effects pedal work I've done, normally to power a LED, I connect the 9V+ from the battery, then use a resistor to take the voltage down to 1.3V-1.8Vish. Different LEDs have slightly different voltage and current requirements, and you can adjust the brightness by the amount of voltage applied to them. I've never worked with several LED's in a row, but if you only want to use one resistor, then the LED's will have to be wired in a series. Here's a site that has a lot of info. Also, try Googling "LED resistor calculator", since there are a lot of sites that do just that. Also, I don't know why you would need a driver. Hope this helps.
  9. I like the way you're thinking Hank! I was actually contemplating either an Arduino or DSP based AGC/lag circuit recently, in a similar line of thinking. I look forward to hearing how it works out.
  10. It's the Floyd Rose sustainer I don't know nearly as much about the Fernandes sustainer. After a lot of number crunching I *think* I've found a suitable transformer replacement, which I'll be ordering from Mouser tonight. This thread was a really informative read. As for the part numbers I gave you earlier, I was only able to read Q9, and not Q8, due to how they are pressed together; but they looked identical.
  11. Crayon indeed! The DC resistance of the driver is only 9.8 ohms! How do I test inductance? I'm not taking the driver apart, since I don't want to jeopardize it working, but there is some info on windings, etc. in patent 5,123,324. In a prior post in this thread I took shots of both sides of the circuit board, which may be of some help Excellent...just found it http://www.tinyurl.com/clbrhu (I can see they've used a TL074 for U1 & a TL064 for U2)...I can't make out the power transistors Q9 & Q10 though (it'd be helpful if you could eyeball their casings to see what characters they have on them) Since the transformer doesn't work now anyway, if push comes to shove, you could always desolder it & on the damaged side start unwinding it (presumably one side's coil is reading open/short circuit), - keeping a count of the number of windings get a micrometer to establish the wire gauge ....once you have the number of windings & the gauge info to hand - rewind it with replacement wire! Don't laugh, my wife used to do this for a living...& it's as low tech as that! Hey Hank, I had a gander, and Q9 & Q10 on that diagram are Motorola 731 JE172's. I don't know if there is any difference between them and a MJE172. Moving along, I only recognize some of the FETs on the board. There are two '271 p824cf's, one 2n3904a, and one 'P 6241f'.
  12. That's not a bad idea. I'm definitely driven enough to sit down and count windings The only trouble is that I can't seem to figure out how to take the transformer apart. I'll take some pics when I get home tonight. I'll also look up what Q9 and Q10 are for you.
  13. Crayon indeed! The DC resistance of the driver is only 9.8 ohms! How do I test inductance? I'm not taking the driver apart, since I don't want to jeopardize it working, but there is some info on windings, etc. in patent 5,123,324. In a prior post in this thread I took shots of both sides of the circuit board, which may be of some help. Also, the driver has a metal shield on the side facing the bridge of the guitar, which I feel is there to shield the rest of the guitar from EMI. You are 100% correct. The sustainer portion works just fine (great, in fact!) without the transformer, but when the circuit is off, the neck pickup isn't functioning. I can tell the transformer is visually damaged, so I'm just trying to find a replacement, but not having much luck. Reading the scanned patents in google patents for this, namely 4,907,483 and 5,123,324, really illuminated to me how the Floyd Rose Sustainer works. It's dense reading, but explains why they chose to use quad op amps, etc. The phase lag sections, and how harmonic mode is achieved were also very intriguing.
  14. Hi PSW, remember me? I'm the one with the dead yellow transformer on a Floyd Rose Sustainer. Well, I've found out quite a bit more, but could still use some help finding a replacement transformer. After months of sleuthing, a very nice guy on another forum took apart his Jackson PC-1 for me, and told me this was written on the transformer: C9219-A 0543 Seems promising, but after a lot of googling, I couldn't find any info. So, I went and read all of the patents printed on the circuit board (4,907,483/ 5,123,324/ 5,200,569/ 5,233123), which yielded this: Pretty interesting, eh? The mystery transformer is marked as T1. I went and looked at the circuit board, and c9 is 100nf, and r9 is 10k. The sustainer driver/pickup is 34 in the diagram (9.8 ohms in my guitar), and the bridge pickup is 24 (15.4k, also in my guitar). This at least showed me what was going on in the circuit, but I was still unclear, until I read this in patent 5,123,324: Makes sense, and then there's this: Ok, now I'm much closer, but I don't know where to find a transformer in this ratio range. I went through all of mouser, and couldn't find anything that fit the bill. Any suggestions? There's a lot more about what the transformer does in patent 5,123,324, and a lot of interesting info about the harmonic mode in patent 4,907,483. Any help you guys can give to aid me in finding a replacement transformer would be great!
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