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Hi,
I built a solid-state driver circuit for a Belton "digilog" reverb module and installed it in my home-brew amp. I don't really know what I'm doing with op-amps, but I tried my best to Follow Instructions. The pre-amp is built in the fashion of a Marshal, and the power amp is p-p 6V6s, with LTPI. Except for the messed up reverb, I think it sounds pretty good.
The reverb driver circuit includes a 5VDC supply derived from the filament supply using a bridge rectifier and 7805 linear regulator, as well as an lm358 dual op-amp dip used to buffer the send and return signals.
Power supply:
Driver circuit, installed in the amp:
A 512K reverb mixing resistor is installed after the first gain stages and before the cathode follower pair, and the reverb send and return are connected before and after this mixing resistor. The Belton reverb module seems to be working correctly; it's input and output pins look clean, and reverb-y, respectively, on my scope. However, the op-amp that buffers the wet return signal seems to be outputting a half-wave of it's input. There is gross distortion in the signal after the reverb mixer, which I believe results from the half-wave reverb return signal being superimposed on the original pre-amp signal at the mixing resistor. Of course, maybe there is something else going on that I don't understand... In any case, when I disconnect the reverb return, the signal after the mixer looks better, and the amp sounds normal again.
Schematic from Belton docs
Here's a link the Belton design documentation for the digilog, which I got this schematic from:
https://www.smallbearelec.com/Projects/BTDR-1H.pdf R1 and C1 are 330k/5000pf for a 200hz high pass. R2 is 47k, expecting 6-8VAC at the input, which seems to be in the neighborhood of what it actually gets. R3 is omitted. The 5V supply measures 4.9VDC which is well withing spec for the reverb module, seems like it should be fine from the op-amps, and it's pretty much free of ripple. I tried disconnecting the resistor that connects the high-pass filter input to the non-inverting (+) input of the second op-amp (see schematic), but it didn't seem to help. Does this just mix the dry signal back into the output, or do something subtler like NFB, or something? I don't really understand why it's there.
I double checked that layout of my little DIP circuit board pretty carefully for mistakes, solder bridges, &c, although I suppose there could still be a mistake there that I missed.
Can anyone suggest what I might try next?
Thanks in advance,
Chris
P.S.
This question has already been posted on TDPRI, but I'm not getting much traction there; I don't think most of those guys are into this kind of stuff. I hope it's not rude to link to the images I uploaded to the other forum...
The input looks ok
Half-wave output at return, why?
Wet output looks nice and wiggley, but still half-wave
I built a solid-state driver circuit for a Belton "digilog" reverb module and installed it in my home-brew amp. I don't really know what I'm doing with op-amps, but I tried my best to Follow Instructions. The pre-amp is built in the fashion of a Marshal, and the power amp is p-p 6V6s, with LTPI. Except for the messed up reverb, I think it sounds pretty good.
The reverb driver circuit includes a 5VDC supply derived from the filament supply using a bridge rectifier and 7805 linear regulator, as well as an lm358 dual op-amp dip used to buffer the send and return signals.Power supply:
Driver circuit, installed in the amp:
A 512K reverb mixing resistor is installed after the first gain stages and before the cathode follower pair, and the reverb send and return are connected before and after this mixing resistor. The Belton reverb module seems to be working correctly; it's input and output pins look clean, and reverb-y, respectively, on my scope. However, the op-amp that buffers the wet return signal seems to be outputting a half-wave of it's input. There is gross distortion in the signal after the reverb mixer, which I believe results from the half-wave reverb return signal being superimposed on the original pre-amp signal at the mixing resistor. Of course, maybe there is something else going on that I don't understand... In any case, when I disconnect the reverb return, the signal after the mixer looks better, and the amp sounds normal again.
Schematic from Belton docs
Here's a link the Belton design documentation for the digilog, which I got this schematic from:
https://www.smallbearelec.com/Projects/BTDR-1H.pdf R1 and C1 are 330k/5000pf for a 200hz high pass. R2 is 47k, expecting 6-8VAC at the input, which seems to be in the neighborhood of what it actually gets. R3 is omitted. The 5V supply measures 4.9VDC which is well withing spec for the reverb module, seems like it should be fine from the op-amps, and it's pretty much free of ripple. I tried disconnecting the resistor that connects the high-pass filter input to the non-inverting (+) input of the second op-amp (see schematic), but it didn't seem to help. Does this just mix the dry signal back into the output, or do something subtler like NFB, or something? I don't really understand why it's there.
I double checked that layout of my little DIP circuit board pretty carefully for mistakes, solder bridges, &c, although I suppose there could still be a mistake there that I missed.
Can anyone suggest what I might try next?
Thanks in advance,
Chris
P.S.
This question has already been posted on TDPRI, but I'm not getting much traction there; I don't think most of those guys are into this kind of stuff. I hope it's not rude to link to the images I uploaded to the other forum...
The input looks ok
Half-wave output at return, why?
Wet output looks nice and wiggley, but still half-wave
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