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I am in the process of rebuilding my 5f6a bassman with some extras. My build was working fine, but now after having reassembled it, I am running into some problems:
There is low frequency oscillation when raising the MASTER above a certain level. It's like a tremolo sound, whoop whoop whoop, very deep. Once started it will not stop unless I turn off the amp and power it back on. It doesnt sound like puttering motorboating noise, more like a very deep wou wou wou wou wou
Volume and Tone controls, presence, have no effect on the oscillations. Same goes for the reverb circuit that I have encorporated (Spring reverb driven with a solid state mosfet circuit). I am not using the other half of v1 yet, I built only one channel. Will use the other for tremolo once i sorted this out. I have added a PPIMV with a dual gang pot. This was already there when i first built it, so I am thinking this should also not be the problem.
I have solid state rectification with a voltage doubler circuit.
I have tried switching OT transformer leads, this also did not solve the problem. I have tried disconnecting the NFB, the problem still persists.
The problem persists in both fixed bias and cathode biased mode ( I added a switch to have both ).
I just hope its not the positioning of components (Tubes / Transformers), I am working with a small enclosure, and there is no room to change anything. I am not having any hum problems, so I am thinking this shouldnt be the problem.
I am wondering whether it could be a grounding problem. I am using a star ground scheme, where there are 2 star points. Preamp, PI, Pots, etc all go to a ground point to the chassis at the input jack.
Power amp, wall outlet ground lug, center tap, power tube cathodes, bias circuit are grounded to a point at the other end of the chassis.
Speaker Jack is grounded to the chassis.
I have shielded the grid wires for the power tubes, and put 3k3 grid stoppers on the tube socket pins.
Voltages are:
V1: 1: 232 2: 3: 1,92 4: 5: 6: 7: 8: 9:
V2: 1: 208 2: 3: 1,32 4: 5: 6: 362 7: 208 8: 210 9:
V3: 1: 282 2: 30 3: 50 4: 5: 6: 290 7: 32 8: 50 9:
V4: 1: 50 2: 3: 491 4: 493 5: -51 6: 495 7: 8: 9:
V5: 1: 50 2: 3: 491 4: 493 5: -51 6: 495 7: 8: 9:
see pictures below for the layout.
If anyone can help me out - it would be greatly appreciated!
There is low frequency oscillation when raising the MASTER above a certain level. It's like a tremolo sound, whoop whoop whoop, very deep. Once started it will not stop unless I turn off the amp and power it back on. It doesnt sound like puttering motorboating noise, more like a very deep wou wou wou wou wou
Volume and Tone controls, presence, have no effect on the oscillations. Same goes for the reverb circuit that I have encorporated (Spring reverb driven with a solid state mosfet circuit). I am not using the other half of v1 yet, I built only one channel. Will use the other for tremolo once i sorted this out. I have added a PPIMV with a dual gang pot. This was already there when i first built it, so I am thinking this should also not be the problem.
I have solid state rectification with a voltage doubler circuit.
I have tried switching OT transformer leads, this also did not solve the problem. I have tried disconnecting the NFB, the problem still persists.
The problem persists in both fixed bias and cathode biased mode ( I added a switch to have both ).
I just hope its not the positioning of components (Tubes / Transformers), I am working with a small enclosure, and there is no room to change anything. I am not having any hum problems, so I am thinking this shouldnt be the problem.
I am wondering whether it could be a grounding problem. I am using a star ground scheme, where there are 2 star points. Preamp, PI, Pots, etc all go to a ground point to the chassis at the input jack.
Power amp, wall outlet ground lug, center tap, power tube cathodes, bias circuit are grounded to a point at the other end of the chassis.
Speaker Jack is grounded to the chassis.
I have shielded the grid wires for the power tubes, and put 3k3 grid stoppers on the tube socket pins.
Voltages are:
V1: 1: 232 2: 3: 1,92 4: 5: 6: 7: 8: 9:
V2: 1: 208 2: 3: 1,32 4: 5: 6: 362 7: 208 8: 210 9:
V3: 1: 282 2: 30 3: 50 4: 5: 6: 290 7: 32 8: 50 9:
V4: 1: 50 2: 3: 491 4: 493 5: -51 6: 495 7: 8: 9:
V5: 1: 50 2: 3: 491 4: 493 5: -51 6: 495 7: 8: 9:
see pictures below for the layout.
If anyone can help me out - it would be greatly appreciated!
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