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Originally posted by Helmholtz
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Cool thanks. I'll check my stash and get on that. -
The tube will always be more likely at risk, as the transformer is just a piece of wire wrapped around a hunk of iron.Education is what you're left with after you have forgotten what you have learned.Comment
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I know Helmholtz mentioned that the tank input inductance is not a simple constant 8 ohm, but I'll just pretend it is for a minute.
The power tube would like to see 6K impedance for optimum operation (again not simple, that 6K is only under specific conditions).
The xfrmr is 22K with 8ohm on the secondary. Put 4ohm on the secondary and it is more like 11K primary. 2 ohm on the secondary and now you are close with around 5K equivalent primary.
So now I'll rephrase the question and it's like you are asking, what happens if my amp wants a 2ohm load and I hook it up to an 8 ohm cab?
Does thinking about it that way help at all? That will be a very familiar question that you will probably find a fair bit of info about. Probably lots of misinformation too, but such is the nature of the internet.Originally posted by Enzo
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Tank input is not simple and varies with freq. But so does a loudspeaker. Impedances in these things are just nominal. Your 8 ohm speaker is only 8 ohms at one point on the response curve.Education is what you're left with after you have forgotten what you have learned.Comment
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So it's like a "reflected load" kind of thing? So which side is more important to "get right"? Primary or secondary?Originally posted by g1 View Post
In real-world applications, I've mismatched amps and speakers a bunch of times. Sometimes on purpose. I've never had a problem except the times that there has been no load at all and my cool ass cranks the amps without realizing it. That was a fun one. But usually with some kind of load the amp just does it's thing. I know they aren't as fragile as folklore would have one believe.Comment
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I'd say more than a factor of 2. But depends on plate and screen voltages.Originally posted by Greg_L View Post
Too low impedance increases plate dissipation, too high impedance increases screen dissipation. There should be no redplating or "redscreening" at full drive.Last edited by Helmholtz; 01-23-2020, 09:14 PM.- Own Opinions Only -Comment
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I haven't noticed any redplating on my modest little single ended 6V6. My bias is relatively cool as well. The secondary of my incorrect transformer matches the reverb tanks impedance, but the primary is off for the tube.Originally posted by Helmholtz View Post
Another question....just another curiosity. There are no grid stoppers on the inputs on this reverb build. The guitar signal splits at the input and runs straight to the grids. Why were these omitted in the design? Should I add them, like you'd find in "normal" amps? Are they missing because they probably will be present in the actual amp that this thing will be feeding?Comment
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As said, plate dissipation reduces with high impedance, so no risk for redplating. It's the tiny screen wire you should look at.I haven't noticed any redplating on my modest little single ended 6V6. My bias is relatively cool as well. The secondary of my incorrect transformer matches the reverb tanks impedance, but the primary is off for the tube.
Bias has little influence on screen dissipation at full power.- Own Opinions Only -Comment
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Yes, it's always reflected impedance. Your reverb transformer does not "have" a primary (or secondary) impedance. Transformer just have turns ratios, no impedances. If it's specified as 22K/8R it means that a secondary load of 8 Ohm wiil be reflected as 22k at the primary. Primary impedance will change linearly with the load impedance.So it's like a "reflected load" kind of thing? So which side is more important to "get right"? Primary or secondary?
Edit: Actually it is not correct to say that a transformer has "no" impedance, as no impedance means zero impedance = short. In fact a non-terminated transformer has a very high impedance, high enough to not interfere with circuit impedances.Last edited by Helmholtz; 01-23-2020, 04:35 PM.- Own Opinions Only -Comment
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True, but a reverb transducer is much more inductive than a speaker. At 1kHz the inductive part of a speaker's impedance is typically around 20%. A reverb transducer is almost 100% inductive, meaning that its impedance varies linearly with frequency. So if a reverb transducer is specified with 8 Ohm @ 1kHz, its impedance will be just above 4 Ohm @ 500Hz and 16 Ohm @ 2kHz.Originally posted by Enzo View Post- Own Opinions Only -Comment
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I reconsidered and think you should better use 1k/1W or 1.5k/2W as screen resistor with your mismatched load.I'll be addressing the screen grid resistor this weekend.- Own Opinions Only -Comment
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Whenever I claim a transformer has "no impedance", I make every effort to ALWAYS include "inherent". it has no inherent impedance. In other words you cannot measure transformer impedance with a meter. The impedance of one side ALWAYS depends upon the impedance on the other side. Steve Connor once made a case for transformers are designed with a particular impedance in mind, so the wire sizes and insulation and actual numbers of turns and so on were considered. But I think that took things too far from the discussion. SO a 100k to 50k transformer and an 8 ohm to 4 ohm transformer would have the same turns ratios, but each would not likely work well in the other's place. But yet the no inherent impedance idea still holds.
I think also context is everything. We are talking here about a super low power driver circuit for a tiny reverb coil. No significant power is being handled, so it would seem to me any potential red plating would be due to DC conditions, not demands of the signal path.Education is what you're left with after you have forgotten what you have learned.Comment
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