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OK so I got a Marshall 4212 (2x12 combo version of a 2205) that was converted to a 1987 circuit by a complete beginner. As luck would have it...the guy had V5's plate wire and the CT reversed. Now I've seen guys get the plate wires themselves backwards, which gives the SBOD scream, but a plate and CT wire!? WTF?
So...fixed that. Tested the amp...with the PPIMV past about 6 you'd get a loud hum and squeal. Shut it off...upon further investigation found that the speaker jacks weren't grounded.
So..grounded the speaker jacks...now all is well.
Now, this is a 6550 Marshall. The guy who worked on it prior to me installed a Mercury Magnetics O50JM-MM, which Mercury advertises as their "6550/KT88/6L6" OT. Well, to make sure the guy got the secondary taps in the right location I injected wall voltage into the primary with the CT disconnected from the supply, and found that he in fact had the 4 and 8 ohm taps reversed. Fixed that...but then I calculated an impedance ratio of 400:1 on the 16 ohm tap (6.4K:16).
I've never seen that high of a plate load ran on a 6550 amp. Moreover, the data sheet spec for dual rail operation at 600 volts only calls for 5K, UL operation calls for 4K, and standard "Class AB1, Tetrode Connection, Fixed Bias" operation calls for 3.5K Zp-p @ Va = 450/Vg2 = 310.
Why Mercury would wind an OT with that kind of a plate load and advertise it as a 6550 OT is beyond me since the data sheets even at 600 volts call for something much lower than that.
So...having sad that, I'm worried that the screens will get overtaxed if I leave it in there. The way I see it, I have two options -
1) Tell the customer that the guy originally installed the wrong OT. See if Mercury will exchange it (which is more than likely a no-go because the OT was purchased 6 months ago and it took the guy that long to get the amp back). Or...
2) Inform the customer that it is in fact the incorrect OT, but to treat his 4/8/16 ohm taps as 2/4/8 ohm taps, which will reflect a load much closer to what these things wanna see at the voltage they're running at.
Which would be the best option here? The customer is a really nice guy and is already ballz deep in $$$ on this whole thing due to the history he had with the other guy who worked on it and when I send this thing back to him I wanna send it back with 100% confidence that everything in this amp is good to go.
So...fixed that. Tested the amp...with the PPIMV past about 6 you'd get a loud hum and squeal. Shut it off...upon further investigation found that the speaker jacks weren't grounded.
So..grounded the speaker jacks...now all is well.
Now, this is a 6550 Marshall. The guy who worked on it prior to me installed a Mercury Magnetics O50JM-MM, which Mercury advertises as their "6550/KT88/6L6" OT. Well, to make sure the guy got the secondary taps in the right location I injected wall voltage into the primary with the CT disconnected from the supply, and found that he in fact had the 4 and 8 ohm taps reversed. Fixed that...but then I calculated an impedance ratio of 400:1 on the 16 ohm tap (6.4K:16).
I've never seen that high of a plate load ran on a 6550 amp. Moreover, the data sheet spec for dual rail operation at 600 volts only calls for 5K, UL operation calls for 4K, and standard "Class AB1, Tetrode Connection, Fixed Bias" operation calls for 3.5K Zp-p @ Va = 450/Vg2 = 310.
Why Mercury would wind an OT with that kind of a plate load and advertise it as a 6550 OT is beyond me since the data sheets even at 600 volts call for something much lower than that.
So...having sad that, I'm worried that the screens will get overtaxed if I leave it in there. The way I see it, I have two options -
1) Tell the customer that the guy originally installed the wrong OT. See if Mercury will exchange it (which is more than likely a no-go because the OT was purchased 6 months ago and it took the guy that long to get the amp back). Or...
2) Inform the customer that it is in fact the incorrect OT, but to treat his 4/8/16 ohm taps as 2/4/8 ohm taps, which will reflect a load much closer to what these things wanna see at the voltage they're running at.
Which would be the best option here? The customer is a really nice guy and is already ballz deep in $$$ on this whole thing due to the history he had with the other guy who worked on it and when I send this thing back to him I wanna send it back with 100% confidence that everything in this amp is good to go.
That has to be close to or even greater than 6.6k. I never had a failure. But I didn't use the 6550's long before starting my amp mod/electronics adventure on that very amp by modding it to use EL34's.
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