The label on the tap is not significant of the actual output impedance of the amplifier when using that tap. The label just represents the mfg's idea of what is acceptable load for the amplifier using that tap. It is his idea of how much woofer distortion he is willing to tolerate as characteristic sound of his amp. Various mfgs' ideas of this will differ wildly....
Read more about tube amp output impedance and how to calculate your amp's real Z(o).
http://www.transcendentsound.com/amplifier_output_impedance.htmIf you can get a damping factor 10:1 or better is great. Hard to do with tubes and modern speakers, whch is why ss amps are so much more popular and cheaper. Output transformers which lower tubes output impedance to usable levels are usually the most expensive part of the amp. Eliminating them make ss amps a lot less money for similar HP. But tube amps have refinement that inexpensive SS amps usually lack. There are always exceptions. Just depends where the talented designer aims his imagination. But so far none have been able to create low output impedance beautiful sounding tube amp at ss prices.
ELectrical ultility transmission requires "matched impedance" to maximize current trasmission efficiency. They want zero headroom. Audio requires as much headroom as possible to prevent dynamic compression and current clipping, so you (in theory) want the lowest source impedance (amp's output impedance) and highest load impedance (speaker nominal impedance) possible. This is the same for signal transmission from source or preamp to amp. When the ratio is too low, you will have problems transmitting the signal without distortion. You need extra unused current heardroom in audio amps to maintain integrity of the signal. The current amplifier's distortion rises as it gets closer to max current, so the less current is used the better. Some preamps have enough current headroom to power a power amp. They have very low distortion. It is the same principle with amp/speaker. The electric utility doesn't care how distorted its power signal is.
They care more about minimizing infrastructure cost and loading wire and transformers with maximum efficient load.
You can overcome the output impedance handicap of tube amps several ways. By increasing the current headroom of the amp with a higher power rated amp, so a 1.5 ohm output impedance tube amp can effortlessly driver a 4 ohm nominal impedance speaker with a 1.9ohm dip as long as the amp can make the needed current to control the drivers without current clipping or going up to high into the current headroom. You can also raise the sensitivity of the speaker so it plays louder at same amp voltage, thus allowing turn down the volume which improves current headroom. Increasing the speaker impedance is another way, using a different speaker, or using a Speltz zeroformer speaker impedance transformer.
BUT some lower powered tube amps prefer a moderate load more than a very light load. They sound best when pushing a good load. You have to be careful to apply enough stress, but not too much to cause clipping. SS amps are so much easier, but lack tube refinement which is more important to some people.....
Rich
