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I recently completed an amp project designed around a 5E5 Pro schematic which turned out to sound very good. Since I only used one input, I decided to put a switch that would jumper internally the two triodes in V1 so that they were in parallel as to have a little more breakup. That worked well...sounded great. The only real mod from the standard 5E5 was to add a Lar-Mar Post PI Master Volume.
As an additional mod, I wanted to try and get a little more into high gain territory if possible by cascading the triodes to see if I could make it work. I have a buddy that is asking me to build him an amp and he wants some grit for when he is in a "heavy-ish" mood, so I thought I would would see what I could do with this build.
I installed a 3-position rotary switch in an effort to keep the "Single (3)" and "Jumpered (2)" modes, but to be able to add the "Gainy (1)" mode. So here is what the schematic looks like:
Conceptually, it still works well up until a point. The initial 2 modes still work perfectly, as expected since nothing really changes there, but when put the switch into mode 1 it gets really raucous. Which I kind of suspected as well. I am trying to maybe figure out a way to reign it in a bit, at anything above about 8-9 o'clock on the "gain/volume" knob, it just gets out of control and starts dropping out. I suspect I am overdriving the PI to some extent, or getting severe blocking distortion. Also, it looks like maybe the bias point shifts pretty dramatically in the 2nd triode when the cascade is engaged. So maybe there isn't a simple way to do this without changing substantially the rest of the circuit, but I just wanted to throw this out there to you guys and see if anyone has some suggestions.
I measured the voltages in the three switch modes, so that may give some insight as to what's going on.
Mode 3 (single in) and Mode 2 (internally jumpered) are pretty consistent. Voltages stay pretty much the same in either switch position.
B+ 380V
V1 Pin 1 107V
V1 Pin 6 107V
V1 Pin 3 1.3V
V1 Pin 7 1.8V
V2 Pin 1 254V
V2 Pin 6 313V
V2 Pin 3 2.1V
V2 Pin 7 68.1V
With the Switch in position 1, cascading the triodes of V1, things don't look too bad, granted the bias point shifts up the curve.
B+ 358V (this mode switches in a 100k plate resistor to triode 2)
V1 Pin 1 140V
V1 Pin 6 165V
V1 Pin 3 1.75V
V1 Pin 7 3.75V
V2 Pin 1 239V
V2 Pin 6 294V
V2 Pin 3 1.96V
V2 Pin 7 64V
So the only thing that looks out of whack is the bias voltage on the second triode of V1 (and possibly the first triode as well). Could that be the cause of the dropping out, it could be hard clipping of the signal due to the high bias voltage...not sure. I am just looking to see if there is maybe a reasonable way to drop that bias down into range by maybe going with a lower plate resistor (56k maybe?) on the 2nd triode when this mode is switched in. That would not effect the other two modes.
Any thoughts on whether this might work or if I am just chasing my tail. Thanks in advance.
Craig
As an additional mod, I wanted to try and get a little more into high gain territory if possible by cascading the triodes to see if I could make it work. I have a buddy that is asking me to build him an amp and he wants some grit for when he is in a "heavy-ish" mood, so I thought I would would see what I could do with this build.
I installed a 3-position rotary switch in an effort to keep the "Single (3)" and "Jumpered (2)" modes, but to be able to add the "Gainy (1)" mode. So here is what the schematic looks like:
Conceptually, it still works well up until a point. The initial 2 modes still work perfectly, as expected since nothing really changes there, but when put the switch into mode 1 it gets really raucous. Which I kind of suspected as well. I am trying to maybe figure out a way to reign it in a bit, at anything above about 8-9 o'clock on the "gain/volume" knob, it just gets out of control and starts dropping out. I suspect I am overdriving the PI to some extent, or getting severe blocking distortion. Also, it looks like maybe the bias point shifts pretty dramatically in the 2nd triode when the cascade is engaged. So maybe there isn't a simple way to do this without changing substantially the rest of the circuit, but I just wanted to throw this out there to you guys and see if anyone has some suggestions.
I measured the voltages in the three switch modes, so that may give some insight as to what's going on.
Mode 3 (single in) and Mode 2 (internally jumpered) are pretty consistent. Voltages stay pretty much the same in either switch position.
B+ 380V
V1 Pin 1 107V
V1 Pin 6 107V
V1 Pin 3 1.3V
V1 Pin 7 1.8V
V2 Pin 1 254V
V2 Pin 6 313V
V2 Pin 3 2.1V
V2 Pin 7 68.1V
With the Switch in position 1, cascading the triodes of V1, things don't look too bad, granted the bias point shifts up the curve.
B+ 358V (this mode switches in a 100k plate resistor to triode 2)
V1 Pin 1 140V
V1 Pin 6 165V
V1 Pin 3 1.75V
V1 Pin 7 3.75V
V2 Pin 1 239V
V2 Pin 6 294V
V2 Pin 3 1.96V
V2 Pin 7 64V
So the only thing that looks out of whack is the bias voltage on the second triode of V1 (and possibly the first triode as well). Could that be the cause of the dropping out, it could be hard clipping of the signal due to the high bias voltage...not sure. I am just looking to see if there is maybe a reasonable way to drop that bias down into range by maybe going with a lower plate resistor (56k maybe?) on the 2nd triode when this mode is switched in. That would not effect the other two modes.
Any thoughts on whether this might work or if I am just chasing my tail. Thanks in advance.
Craig
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