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I am trying to design a transformer-less (TL) reverb into an existing amp design. The driver is 1/2 of a 12AU7 triode, recovery is very conventional 1/2 12AX7. I am having 2 main troubles getting it to where I like it.
1 - Phase issues - I have read on this forum, and elsewhere, that there is no real phase to the reverb return signal, so there should not be any phase issues. Well, I'm seeing phase issues. When I take the reverb drive signal from the anode of the 12AU7, I get a strong comb filtering effect when I mix a lot of reverb signal back into the dry signal. Gets very hollow and phase cancellationey (I hope I spelt that made-up word correctly).
2 - I am using a "F" style tank, high input impedance, 1.5k - 1.9k (depends on whether type 4 or 8, I am trying both). I have both Accutronics and MOD tanks, both medium and long decay. When driving from cap coupled anode of the 12AU7, I just can't get a reverb tone that I'm happy with. Does not sound like the Fender style that is in my mind as a reference, lacks 'lushness' and clarity. Seems to sound like the springs are vibrating at their resonant frequencies, and the frequency of this is not closely related to the frequency of the note/s played, the guitar signal just sets them in motion.
To solve problem #1, I am trying to drive the tank from the 12AU7 cathode, instead of the anode. I was hoping that it may solve problem #2 also, but that's just wishful thinking.
It works, actually quite well, but I wanted to discuss the various concepts and issues. I have not heard of this being done before, but of course it has, so if there are previous threads, or other info out there, please point me towards it.
Reverb tank coils are current driven, not voltage driven, this is why I thought the cathode circuit could work. I have very limited theory, but I think that all of the current of the tube flows through the cathode circuit, and the current varies with the grid signal. So here we have a potential driver circuit.
The input coil of the type 8 has a listed impedance of 1.925K ohms, and I measured the DC resistance at ~200 ohms. The 12AU7 has a 22K anode resistor, and in normal operation the Rk was 1.5K, giving a Vk of ~7V. I have tried putting the input coil in series with the Rk.
Also another potential issue is the tank coils and laminated steel cores. I assume that these are made like a PP OT, designed to not have a DC offset applied. But putting them into the cathode circuit creates a DC offset?
1 - Phase issues - I have read on this forum, and elsewhere, that there is no real phase to the reverb return signal, so there should not be any phase issues. Well, I'm seeing phase issues. When I take the reverb drive signal from the anode of the 12AU7, I get a strong comb filtering effect when I mix a lot of reverb signal back into the dry signal. Gets very hollow and phase cancellationey (I hope I spelt that made-up word correctly).
2 - I am using a "F" style tank, high input impedance, 1.5k - 1.9k (depends on whether type 4 or 8, I am trying both). I have both Accutronics and MOD tanks, both medium and long decay. When driving from cap coupled anode of the 12AU7, I just can't get a reverb tone that I'm happy with. Does not sound like the Fender style that is in my mind as a reference, lacks 'lushness' and clarity. Seems to sound like the springs are vibrating at their resonant frequencies, and the frequency of this is not closely related to the frequency of the note/s played, the guitar signal just sets them in motion.
To solve problem #1, I am trying to drive the tank from the 12AU7 cathode, instead of the anode. I was hoping that it may solve problem #2 also, but that's just wishful thinking.
It works, actually quite well, but I wanted to discuss the various concepts and issues. I have not heard of this being done before, but of course it has, so if there are previous threads, or other info out there, please point me towards it.
Reverb tank coils are current driven, not voltage driven, this is why I thought the cathode circuit could work. I have very limited theory, but I think that all of the current of the tube flows through the cathode circuit, and the current varies with the grid signal. So here we have a potential driver circuit.
The input coil of the type 8 has a listed impedance of 1.925K ohms, and I measured the DC resistance at ~200 ohms. The 12AU7 has a 22K anode resistor, and in normal operation the Rk was 1.5K, giving a Vk of ~7V. I have tried putting the input coil in series with the Rk.
Also another potential issue is the tank coils and laminated steel cores. I assume that these are made like a PP OT, designed to not have a DC offset applied. But putting them into the cathode circuit creates a DC offset?
) *.
and a PCB):
You really addressed the question, and gave me some piece of mind about the DC current through the transducers. Love the nail polish for pcb printing!
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