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Speaker impedance patterns - how to read them?

I know this has probably been discussed ad nauseam, but here's my question. I'm grateful for any sensible opinion.

Premise.
A speaker system may have a complex impedance pattern that can vary from 3-ohms to 30-ohms depending on frequency. Some speaker systems with similar impedance patterns may be stated as being 8-ohm loads because the speaker is 8 ohm in an important part of its frequency response, but only there.
A tube amp, as a voltage amplifier, likes a regular impedance pattern. Almost no speaker system has a constant, regular impedance pattern. I am aware that solid state, powerful amps are built to compensate for modern speakers' complex impedance patterns, but there are tube amps around and people who love them. It's difficult to understand what average load a given speaker system will present to the amp.

Question.
When looking for suitable speakers for a tube amp - mine is a PrimaLuna EVO 100, 40w x 2 from EL34s - what must be looked at? How to best interpret the impedance pattern, whenever available? Assuming that one listens at normal levels in a medium-sized room, what are the criteria for matching speaker and amp?

Thanks for your views. M.
martinguitars
totem395
390 posts
 
I've been looking at both impedance and phase angles, in certain instances speakers employing  
mid bass drivers with low impedance dips and 45 deg
or higher phase angle swings will overheat and stress
some amps.
In one of the previous links the example of a 100 wpc amp with 
 a 45 deg phase angle will produce 400 watt's heat. Unclear
if that incl a  matching dip in impedance.
As phase angle increases beyond 45 deg things can get serious.
depending naturally on the amplifier design.
martinguitars OP
23 posts
 
Hi,
thanks. I'm reaching the point where knowledge is not enough to solve problems but is enough to create some...

I can add a pair of Klipsch Heresy IIIs to the system and I think that'll be the answer. Conceptually contemporary. From this point on, it's a matter of amp and speaker dealing with it. So to speak.
tablejockey
3,886 posts
 
Nice choice. Placement/room for optimizing.

Avoid the cable forums.
millercarbon's avatar
millercarbon
12,531 posts
 
Hi,
thanks. I'm reaching the point where knowledge is not enough to solve problems but is enough to create some...

https://youtu.be/Ugpg8XruhVk?t=6

Now please scroll up. Read again what russ69 said. You are beginning to see the wisdom now? 
coppy777
141 posts
 
Not that it makes any difference in this discussion, but power amplifiers are primarily current amplifiers not voltage amplifiers.  Preamplifiers are voltage amplifiers and the first stage of a power amplifier is also often a voltage amplifier, but it takes current, not voltage to drive speakers.  Which is why you don't get a shock from your speaker cables, low voltage, high current.
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