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Hey guys. Allow me to introduce myself. My name is JB. I used to be a pretty active member of this forum 4-5 years back when the forum was all tiled. the good ole' days....
Anyway, i've finally gotten back into tinkering (mostly repairing broken units for myself/friends) and i've hit a road block on this one...
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UNIT: DOD 406 Chorus Pedal (circa 1980)
UNIT TOPOLOGY: Uses SAD512 for delay generation, TL022 for LFO, TL062 for signal/mixing. 2 knobs: rate/depth.
PROBLEM: Chorus works but LFO clock bleeds through to signal
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I've scoured these and other forums and have taken the following actions in accordance with what was recommended:
1) Replaced all semiconductor components (diodes, op-amps, transistors, SAD512).
2) Used a strong power supply (12V 1000mA) to counter the increased demand for current on LFO rise.
3) Decoupled power supply to TL022. Used 470ohm series resistor and 47uF to ground. Installed this directly at the chip's +/- pins.
4) Decoupled TL062 as well with same values.
RESULT: Originally, the pedal ONLY passed dry signal and experienced NO clock bleed. After replacing a bad transistor and a bad SAD512 (im currently "borrowing" an SAD512 from another pedal), I got my chorus sound, but with that damned LFO bleed through. So I then went on to do steps 2, 3, and 4. No change in LFO bleed through. BUT i did notice that when i put a large cap (47uF+) across the TL022 +V/-V pins, the bleed went away BUT so did the chorus sound.
I've tried to give a comprehensive history of this pedal. I hope someone here reads this and remembers something they read in Device 15 years ago that will help.
I do have a decent workstation with a scope and simple 1kHz signal generator and audio probe, in case someone thinks of a test i need to do that would require this equipment. Thanks in advance and it's good to be back.
BTW is WGThickPresence still around?
Anyway, i've finally gotten back into tinkering (mostly repairing broken units for myself/friends) and i've hit a road block on this one...
---------------------------------------
UNIT: DOD 406 Chorus Pedal (circa 1980)
UNIT TOPOLOGY: Uses SAD512 for delay generation, TL022 for LFO, TL062 for signal/mixing. 2 knobs: rate/depth.
PROBLEM: Chorus works but LFO clock bleeds through to signal
---------------------------------------
I've scoured these and other forums and have taken the following actions in accordance with what was recommended:
1) Replaced all semiconductor components (diodes, op-amps, transistors, SAD512).
2) Used a strong power supply (12V 1000mA) to counter the increased demand for current on LFO rise.
3) Decoupled power supply to TL022. Used 470ohm series resistor and 47uF to ground. Installed this directly at the chip's +/- pins.
4) Decoupled TL062 as well with same values.
RESULT: Originally, the pedal ONLY passed dry signal and experienced NO clock bleed. After replacing a bad transistor and a bad SAD512 (im currently "borrowing" an SAD512 from another pedal), I got my chorus sound, but with that damned LFO bleed through. So I then went on to do steps 2, 3, and 4. No change in LFO bleed through. BUT i did notice that when i put a large cap (47uF+) across the TL022 +V/-V pins, the bleed went away BUT so did the chorus sound.
I've tried to give a comprehensive history of this pedal. I hope someone here reads this and remembers something they read in Device 15 years ago that will help.
I do have a decent workstation with a scope and simple 1kHz signal generator and audio probe, in case someone thinks of a test i need to do that would require this equipment. Thanks in advance and it's good to be back.
BTW is WGThickPresence still around?
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