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The biggest matching issue with a typical Single Ended tube amplifier is not the low power, it is the highish Rout. This means that the FR of the system will be affected by the interaction of the highish Rout and the speaker’s impedance.More important than the sensitivity is the impedance. An 88 dB loudspeaker with a flattish impedance will work better than a 95 dB sensitive ludspeaker with a roller-coaster impedance curve.
This year I realize the way to go with small tube amps are the oldfashioned vintage recipe used since 1920/30s til the 1950(when transistors amps arrive) which are 16Ω Full Range drivers not 8Ω as usual today, 8Ω speakers are suited to Solid State amps.
Can you explain your rationale, FRM?
As SolidState amps dont work well with 16Ω speakers they introduced the 8Ω speakers as the new standard in audio at that time, also tube amps work better with 16Ω Full Range drivers but after all these years 16Ω speakers are somewhat rare, however I could connect two FR drivers in serie to 16Ω if they are 8'' or smaller.
Hello,I am fairly new to the "tube" world, but would like to start learning its ins and outs with the hopes of being able to soon setup my very first own rig. I have the following mid-entry model on mind "Nobsound 6P1 6.8W x 2 Vacuum Tube Power Amplifier; Stereo Class A Single-Ended Audio Amp," and I am convinced that I want to go the DIY way for speakers. The amp only has 6.8w thus I need a set of high sensitivity speakers and I was thinking about "GR Research's X-LS Encore Kit." Has anyone tried this particular or a very similar setup? Or, do you know off hand if these type speakers will work or not with the Nobosound amp? As you can see, I am trying to keep it simple and withing a novice budget, because I am sure I will change my initial setup once I get deeper into the craft thus I do not want to start spending lots of money during the learning stages.Hope anyone can help... have a good one.Luis
Why does a (zero NFB) tube amp work better with 16 Ohm speakers? If using an amp with a transformer and 8 Ohm taps, you will increase the reflected load on the tube, increase damping factor, and reduce distortion and power - on balance, possibly a good thing with amplifiers seeking to maximise "power" (an issue exacerbated in amplifiers compromising their output transformers). The situation changes if the amplifier and speaker are designed as a system: the operating points and load of the amplifier output stage are well-considered, the output transformer well designed, and the speaker designed for use with a specific amplifier output impedance. When using SET amps, unless the system is well-considered, performance it is a bit of a crapshoot... which brings us back to the OP's questions.
The output transformer is fed by the output valves and the power supply.
I don't understand your point, sorry. Can you please explain what you mean and how that relates to my post?
By the little I know my two cents are>Valves like to work in an infinite impedance environment, a suitable environment for an OPT would be 16 ohms as the hey days engineers had chosen a century ago, IMO an OPT with 8 ohms output already is a compromise, it causes a certain strain on the output tubes, mainly when we consider a glorious sound 2A3 tube delivery only 1.5 Watt and 4 ohms even more, not to mention the darling 1626 at 0,75 Watt of pure bliss.You are right in not trust me, my personal opinion is that at this item in question we should trust the engineers of the early days of audio, those guys really knew what they were doing, if they chose 16 ohms and not 8 ohms there are excellent reasons for it.As the tubes we are using today yet are the same their decision still fully valid mainly with OTL amps, as always IMO.Hope this help.
It is not about trust - I honestly did not understand your point.So, you are saying that because it was done that way a century ago, that is the best way now? The chosen reasons for using 16 Ohm speakers a century ago could be due to any number of things.I like a moderately high load on my output tubes for lower distortion and better damping factor, but a really high or "infinite" load would impractical (even if possible) for an output stage. With the right transformer, I can reflect onto the tube same load with either a 4, 8 or 16 Ohm speaker - the tube sees the same load. How is the tube being more "strained"? If a transformer engineer can make a really good 5k:16 Ohms transformer, but fail to achieve similar performance at 5K:8 Ohms, they should probably look for another career.The nice thing about a 16 Ohm speaker is that it will generally it will require less current to drive; but, I don't think that makes or breaks a system by a long shot. And, if used on an 8 Ohm tap, the load reflected to the tube will be double that of an 8 Ohm speaker, which for inexpensive amps designed to maximise power, is probably a good thing (lower distortion, better damping factor).
So basically you are saying the engineers of the past were dumb. As the laws of physics have changed since the old days of the last century I am not aware of the latest vacuum state advances.and not able to answer your questions.But I would like to let my suggestion that 16 ohms speaker still worth a listen for small tube amps.
