b_limo1, great video, have seen it once before. Interesting perspective.
tomic601, When you say "don't confuse low sensitivity with poorly engineered load". I feel they are closely related. And I believe this is John DeVore's point in the video. I know of a high end speaker that is rated at 90db at nominal 8 Ohms (2.83v at 1 meter), have listened to it many times at a friends place. But when you look at the measurements of that speaker it has dips in the impedance down below 3 Ohms as low as 2.6. The speaker maker is only telling us a partial truth with their specs. It is only a 90db speaker for some of the frequencies and in effect a much harder to drive speaker to pull out all the audible sound well. Which I believe plays into the issue pointed out on the video of 1W per meter vs 2.83v per meter can be deceiving. With this particular speaker, you need an amp that doubles down on power when you halve the impedance to sound right. In other words it needs an amp designed for low efficiency speakers.
tomic601, When you say "don't confuse low sensitivity with poorly engineered load". I feel they are closely related. And I believe this is John DeVore's point in the video. I know of a high end speaker that is rated at 90db at nominal 8 Ohms (2.83v at 1 meter), have listened to it many times at a friends place. But when you look at the measurements of that speaker it has dips in the impedance down below 3 Ohms as low as 2.6. The speaker maker is only telling us a partial truth with their specs. It is only a 90db speaker for some of the frequencies and in effect a much harder to drive speaker to pull out all the audible sound well. Which I believe plays into the issue pointed out on the video of 1W per meter vs 2.83v per meter can be deceiving. With this particular speaker, you need an amp that doubles down on power when you halve the impedance to sound right. In other words it needs an amp designed for low efficiency speakers.