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Originally posted by Enzo
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Chuck
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My mother drove my brother and I around in a '68 Plymouth Fury with a 383. At the time she wouldn't have called it a race car. But by the time I was 14 I knew what it was. I wish I had that car now.
Chuck"Take two placebos, works twice as well." Enzo
"Now get off my lawn with your silicooties and boom-chucka speakers and computers masquerading as amplifiers" Justin Thomas
"If you're not interested in opinions and the experience of others, why even start a thread?
You can't just expect consent." Helmholtz -
Yep, and with the right choice of race track a Geo Metro can beat a Lamborghini. (Or the wrong choice of race track, if you're the Lamborghini owner.)
The amplifier classes are all defined under the assumption that the amplifier is meant to be used without clipping, so the clipping behaviour is ignored as irrelevant. If you want to understand the old-school standards then you must remember this.
I prefer a new-school approach, where the clipping region is regarded as a normal part of the amplifier's use. I like to think of the transition into clipping as a transition from one class (the amplifier's original design class, as per the old-school theory) to another, which will normally be Class-C.
The old standards and design methods did not cover this at all, because at the time they were written, no designer could get their head round the idea that you might actually want to overdrive an amp, let alone manipulate its behaviour under overdrive with a view to making it musically useful. So by those standards, an amplifier was always simply the class that it was designed to be, de jure if not de facto."Enzo, I see that you replied parasitic oscillations. Is that a hypothesis? Or is that your amazing metal band I should check out?"Comment
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All this maybe just fine and dandy, for guitar amps. But, probably going to be limited to "only guitar amps". I would not make the mistake of thinking these same trains of thought would go over with discussions of the "rest of the amplifier world."Originally posted by Merlinb View Post
Also, BTW, Class B and Class C more commonly uses only one tube. So, when you say things like this, make sure you make the point clear it's only applying to audio power output stages.
-gComment
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The point I made applies to all audio amps (not RF which is completely different and way off topic).Originally posted by mooreamps View Post
You mean for RF? Certainly not for audio.Also, BTW, Class B and Class C more commonly uses only one tube.Comment
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...by definition, Class-AB *is* push-pull only.
...and, Merlinb is correct about Class-A power not increasing when pushed beyond cutoff...it's a "hallmark" characteristic of Class-A operation.
...some relevant reading (including RDH references):
A) http://www.transcendentsound.com/ClassAorAB.htm
B) http://www.aikenamps.com/ClassA.htm
...some more "fodder" for the nonsense fire (as correctly stated earlier by others):
Class-A PP optimum RL = 1/2 of reflected load
Class-B PP optimum RL = 1/4 of reflected load
PS--at the plates (PP), its a variable frequency (20~10KHz)/variable amplitude, semi-rectified AC-voltage riding on a DC-voltage (actually a subtractive addition, where no signal = full plate voltage and maximum signal = minimum plate voltage as defined by the reflected plate-to-plate load).
...and, a 'working' example of a class-B tube is the rectifier, or a triode/tetrode/pentode being operated as a rectifier....and the Devil said: "...yes, but it's a DRY heat!"Comment
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That's the way see it.Originally posted by Enzo View Post
The classes are suppoosed to be operational classes, created by the engineers, so that they can easily communicate what's happening within an amplifier stage, be it preamp or power amp.
So for example you can say: "when overdriven the power amp goes from class A1 operation to class A2 operation" or the voxish "from class A operation at low volumes to class AB operation at higher volumes".
I think everybody here understands what's going on.
Of course one can argue about these things, and I believe every now and then we should do so in a civilized way, just to see if anyone has anything new to offer. Then we can go back tweaking the amps
jukkaComment
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Hmm, I'm not sure I agree. Anything which involves the statement "supposed to" is not a reasonable basis for classification. Either it's class X or it isn't.Originally posted by balijukka View Post
For example, we can talk about a class AB amp being "class A at low levels", but really that's a description to aid understanding of how it works. It's still a class AB amp, we don't class it Class A and B.
We could drive it really heavily, until the bias shifts and the whole thing ends up working in class B. But it's still a class AB amp. It's just overdriven, and that's what happens when you overdrive a class AB amp. It doesn't 'become a class B amp at high levels', it becomes an overdriven class AB amp.Comment
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Me being the asshole here. just for arguments sake.Originally posted by Merlinb View Post
What if you make a a very high gain geetar amp with a single tube S output stage. The preamp gain so high that you'll only get a square wave in the power tube input with a MV pot there.
Now you bias that outpot tube cold. Start turning uo the volume. Very early it hits cutoff. After that the output still keeps increasing. Output signal still being the same square wave.
By your definitions it can not be class A since the output increases after cutoff and it must be class A being single tube.
jukkaComment
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...then it's simply an "over-driven" single-ended Class-A tube.
...or, you might simply call it a "clipper" circuit.Last edited by Old Tele man; 09-26-2009, 04:29 AM....and the Devil said: "...yes, but it's a DRY heat!"Comment
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( a heart-felt ) +1!Originally posted by raiken View Post
That was the point I tried to explain in my previous posts ( seemingly, failing miserably ) - the class of operation is to be stated at one ( and only one ) point - the full un-clipped output. An engine rated power and torque are given at a certain number of RPM. You can drive the car at any speed, the engine can behave differently at different RPM, but that doesn't change its rated power and torque and the RPM at which they're obtained.
All the best
BobHoc unum scio: me nihil scire.Comment
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And like a tube amp, those engine ratings are taken at peak output. Unfortunately, unlike a tube amp, you can't push past that peak. When you do, your morale gets crushed by the fact you just used a $2800 set of rods to ventilate a $1500 block casting, and a $1000 crankshaft to launch a $600 set of pistons into a low earth orbit.Originally posted by Robert M. Martinelli View PostComment
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Hi Koreth,Originally posted by Koreth View Post
We all know amps can be driven in and beyond the red zone, something engines can't stand, neither I believed that analogy of mine to be a perfect fit, I just wanted to point out that those ratings are specified at a precise and certain point, similarly to amps' classes. Both amps and engines can work all the way from their quiescent status ( silent amp on=still car @ min.RPM
) to their maximum power. An amp doesn't go beyond its rated power even when fully cranked, but at least it doesn't launch pistons into a low earth orbit, as you correctly noted .
Cheers
BobHoc unum scio: me nihil scire.Comment
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I agree that it makes sense, if you want to give an amp a class.Originally posted by Robert M. Martinelli View Post
It is NOT what the standards say.
That is a very good analogy, just wrong insight. An engine can change it's type of operation, for example you have turbo that switches on and off.Originally posted by Robert M. Martinelli View Post
Then it changes it's class from being not charged (class A) to charged (class AB).
The rated power, torque and RPM are different parameters. In an amp they could be for exaple rated power , frequency response, and input voltage.
jukkaComment
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That supposed was 100% jukka. Trying to soften the claim.Originally posted by Merlinb View Post
It just is so that there is no standard definition for amplifier class.
There is the standard for classes of operation and that class of operation can change if the input signal changes enough.
Perhaps those ancient engineers were smarter than we think.
And not affected by the MBAs.
jukka
PS. since when you and Randall have been on the same side. Who's the turncoat ?
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