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WE have here a schematic you might have to pay money to get elsewhere. It's one of the stereo power amps in an AMI Continental. Early 60s jukebox amp. They run 6973 outputs. These tubes are expensive and modern replacements tend to be unreliable, and down the years I have converted maybe half a dozen of these to EL84 operation, simply by rewiring the bases to suit and rebiasing, without problems. With this one however, I do have a problem. It oscillates. I have tried a number of things to stop this without success (I'll list the things I've tried & can recall below).
Here's the thing: the oscillation stops when I remove the NFB. Yes the plates are the right way round - tried both ways and it howls like a demon the other way round, also I checked the phase with a 2-channel strobe.
It has had the OT replaced this side with some standard Hammond type job.
I tried:
Grid stoppers on all grids, soldered to tags on the base
Extra filter capacitance, including adding a cap on the first B+ node where the 5500R 10W inrush resistor meets the 150R 10W dropping resistor.
Screen resistors soldered to tags on the base
Separating plates from screens using the node between the two 1K 1W dropping resistors for the screens. (Why are the plates connected to the screens btw?)
It has been fully recapped.
I checked the circuit node by node and it looks good to me.
Grounding the inputs doesn't stop the osc.
I can't even stop it fully by touching a big cal to various grids with the other end grounded. It's very determined to oscillate, makes me think I've hard-wired it in somewhere but durned if I can see where.
So yeah the thing oscillates somewhere in the 50-100KHz range, at full output, pretty clean sine wave visible on scope. Remove the NFB and it disappears. Any ideas?
Some other things to note:
The other amp, which is on the same chassis, oscillates at about 3Hz, visible as the speaker cone pumps in and out, but otherwise works ok.
The OT is unusually connected - the 4 ohm tap is grounded. The replacement OT fitted to this side doesn't have the 70v taps but they aren't needed. It's connected the same way, with the 4 ohm tap grounded and the NFB taken from the 16 ohm tap.
I'd try disconnecting NFB from both amps and trying to drop gain but the other amps hums loudly if I remove the NFB, also it's not a simple matter to see where you'd drop the gain unless before the first stage, which would leave a lot of noisy gain running through. Anyway that's not a solution really.
Here's the thing: the oscillation stops when I remove the NFB. Yes the plates are the right way round - tried both ways and it howls like a demon the other way round, also I checked the phase with a 2-channel strobe.
It has had the OT replaced this side with some standard Hammond type job.
I tried:
Grid stoppers on all grids, soldered to tags on the base
Extra filter capacitance, including adding a cap on the first B+ node where the 5500R 10W inrush resistor meets the 150R 10W dropping resistor.
Screen resistors soldered to tags on the base
Separating plates from screens using the node between the two 1K 1W dropping resistors for the screens. (Why are the plates connected to the screens btw?)
It has been fully recapped.
I checked the circuit node by node and it looks good to me.
Grounding the inputs doesn't stop the osc.
I can't even stop it fully by touching a big cal to various grids with the other end grounded. It's very determined to oscillate, makes me think I've hard-wired it in somewhere but durned if I can see where.
So yeah the thing oscillates somewhere in the 50-100KHz range, at full output, pretty clean sine wave visible on scope. Remove the NFB and it disappears. Any ideas?
Some other things to note:
The other amp, which is on the same chassis, oscillates at about 3Hz, visible as the speaker cone pumps in and out, but otherwise works ok.
The OT is unusually connected - the 4 ohm tap is grounded. The replacement OT fitted to this side doesn't have the 70v taps but they aren't needed. It's connected the same way, with the 4 ohm tap grounded and the NFB taken from the 16 ohm tap.
I'd try disconnecting NFB from both amps and trying to drop gain but the other amps hums loudly if I remove the NFB, also it's not a simple matter to see where you'd drop the gain unless before the first stage, which would leave a lot of noisy gain running through. Anyway that's not a solution really.
, better hurry back to the forum and delete my stoopid question before Enzo sees it. Talk about esprit d'escalier. Thanks again.
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