Tweet
MEF Post EH Scott 510 Power Amp
I’m having an issue with the hum balance control added to a 50’s vintage EH Scott 510 power amp.
A client recently bought a pair of EH Scott 510 Power Amps, which were 50’s vintage mono hi fi amps, in which the power amp chassis contained the power supply to run an external preamp via long extension wires 7 12-pin octal-style plug. The two he obtained were somewhat different from each other, one chassis being aluminum, the other chrome plated steel. The power transformers also were considerably different, with the steel chassis having a small lamination stack than that in the aluminum chassis. Slight difference in the output transformers too, with one having an 8 & 16 ohm tap, the other just an 8 ohm tap.
All that was inside the power amp chassis was the phase splitter, the output tube stage, and two different rectifier tubes and local / remote DC power supplies…the remote one runs the external preamp/control console. The tube compliment was a 6SN7 phase splitter, a pair of cathode-biased 6L6GC’s, a 5Y3 rectifier and a 25Z6GT rectifier for the remote power supply.
510 SCHEMATIC-2.pdf
Mechanically, I had 5 octal sockets to work with. As luck would have it, the two rectifier tubes were on one side of the power tubes, and the phase splitter was in the opposite corner, furthest away from the power transformer. I first tried to install the added preamp section, built from a cascaded 6SN7 tube in the corner where the 25Z6GT rectifier tube was. Getting it into the opposite corner looked very tedious. But, after working the circuits and lowering the overall gain, the amount of hum & buzz forced the issue. I had folded up a brass housing to place over the added 2-stage preamp which did work, but it seemed a better idea to cut the rivets out, unsolder all the wires that needed to be moved, and move the rectifier, power tubes and driver over one hole, and re-build the preamp in the far corner where one would have placed it in the first place.
I had help on this project….the chap who brought the project to me was working along side me to aid in all the busy work and duplication, so we did get the two chassis’ re-built in that fashion. I still have some homework to do on the 2-stage preamp ahead of the phase splitter, since I ended up adding an 8dB pad between the 1st and 2nd stages, which I’d like to eliminate, lowering the overall gain without having to attenuate the signal.
But, after adding a hum balance control to both amps, only the one in the aluminum chassis works correctly, and the one in the steel chassis won’t balance. It will vary the harmonics, but will NOT cancel as the other one does. I’ve played with the grounding for the pot, duplicated all of the power supply filtering so both are identical in components and how they are grounded, yet can’t get it to balance. I’ve yet to disconnect the 6.3VAC winding and power the heaters externally to see if it’s something with the power transformer.
I just composed the schematic this afternoon, believe it is accurate. I don’t yet have the DC voltages on the stages. The power tubes are running with cathode bias, around 62mA per tube. The unloaded HV Secondary on one xfmr is 794VAC CT while the other one is 812VAC CT. The output power is 20W @ 8 ohms.
This following morning, I've added the DC voltages thruout the schematic and a minor correction on the filter caps C1 & C3 values. I also added an image of the original construction prior to revisions.
I’m having an issue with the hum balance control added to a 50’s vintage EH Scott 510 power amp.
A client recently bought a pair of EH Scott 510 Power Amps, which were 50’s vintage mono hi fi amps, in which the power amp chassis contained the power supply to run an external preamp via long extension wires 7 12-pin octal-style plug. The two he obtained were somewhat different from each other, one chassis being aluminum, the other chrome plated steel. The power transformers also were considerably different, with the steel chassis having a small lamination stack than that in the aluminum chassis. Slight difference in the output transformers too, with one having an 8 & 16 ohm tap, the other just an 8 ohm tap.
All that was inside the power amp chassis was the phase splitter, the output tube stage, and two different rectifier tubes and local / remote DC power supplies…the remote one runs the external preamp/control console. The tube compliment was a 6SN7 phase splitter, a pair of cathode-biased 6L6GC’s, a 5Y3 rectifier and a 25Z6GT rectifier for the remote power supply.
510 SCHEMATIC-2.pdf
Mechanically, I had 5 octal sockets to work with. As luck would have it, the two rectifier tubes were on one side of the power tubes, and the phase splitter was in the opposite corner, furthest away from the power transformer. I first tried to install the added preamp section, built from a cascaded 6SN7 tube in the corner where the 25Z6GT rectifier tube was. Getting it into the opposite corner looked very tedious. But, after working the circuits and lowering the overall gain, the amount of hum & buzz forced the issue. I had folded up a brass housing to place over the added 2-stage preamp which did work, but it seemed a better idea to cut the rivets out, unsolder all the wires that needed to be moved, and move the rectifier, power tubes and driver over one hole, and re-build the preamp in the far corner where one would have placed it in the first place.
I had help on this project….the chap who brought the project to me was working along side me to aid in all the busy work and duplication, so we did get the two chassis’ re-built in that fashion. I still have some homework to do on the 2-stage preamp ahead of the phase splitter, since I ended up adding an 8dB pad between the 1st and 2nd stages, which I’d like to eliminate, lowering the overall gain without having to attenuate the signal.
But, after adding a hum balance control to both amps, only the one in the aluminum chassis works correctly, and the one in the steel chassis won’t balance. It will vary the harmonics, but will NOT cancel as the other one does. I’ve played with the grounding for the pot, duplicated all of the power supply filtering so both are identical in components and how they are grounded, yet can’t get it to balance. I’ve yet to disconnect the 6.3VAC winding and power the heaters externally to see if it’s something with the power transformer.
I just composed the schematic this afternoon, believe it is accurate. I don’t yet have the DC voltages on the stages. The power tubes are running with cathode bias, around 62mA per tube. The unloaded HV Secondary on one xfmr is 794VAC CT while the other one is 812VAC CT. The output power is 20W @ 8 ohms.
This following morning, I've added the DC voltages thruout the schematic and a minor correction on the filter caps C1 & C3 values. I also added an image of the original construction prior to revisions.
Comment