@mapman +1
Speaking as a professional engineer now for a bit over 40 years, I agree with you.
Some thoughts on ASR and the reviews
I’ve briefly taken a look at some online reviews for budget Tekton speakers from ASR and Youtube. Both are based on Klippel quasi-anechoic measurements to achieve "in-room" simulations.
As an amateur speaker designer, and lover of graphs and data I have some thoughts. I mostly hope this helps the entire A’gon community get a little more perspective into how a speaker builder would think about the data.
Of course, I’ve only skimmed the data I’ve seen, I’m no expert, and have no eyes or ears on actual Tekton speakers. Please take this as purely an academic exercise based on limited and incomplete knowledge.
1. Speaker pricing.
One ASR review spends an amazing amount of time and effort analyzing the ~$800 US Tekton M-Lore. That price compares very favorably with a full Seas A26 kit from Madisound, around $1,700. I mean, not sure these inexpensive speakers deserve quite the nit-picking done here.
2. Measuring mid-woofers is hard.
The standard practice for analyzing speakers is called "quasi-anechoic." That is, we pretend to do so in a room free of reflections or boundaries. You do this with very close measurements (within 1/2") of the components, blended together. There are a couple of ways this can be incomplete though.
a - Midwoofers measure much worse this way than in a truly anechoic room. The 7" Scanspeak Revelators are good examples of this. The close mic response is deceptively bad but the 1m in-room measurements smooth out a lot of problems. If you took the close-mic measurements (as seen in the spec sheet) as correct you’d make the wrong crossover.
b - Baffle step - As popularized and researched by the late, great Jeff Bagby, the effects of the baffle on the output need to be included in any whole speaker/room simulation, which of course also means the speaker should have this built in when it is not a near-wall speaker. I don’t know enough about the Klippel simulation, but if this is not included you’ll get a bass-lite expereinced compared to real life. The effects of baffle compensation is to have more bass, but an overall lower sensitivity rating.
For both of those reasons, an actual in-room measurement is critical to assessing actual speaker behavior. We may not all have the same room, but this is a great way to see the actual mid-woofer response as well as the effects of any baffle step compensation.
Looking at the quasi anechoic measurements done by ASR and Erin it _seems_ that these speakers are not compensated, which may be OK if close-wall placement is expected.
In either event, you really want to see the actual in-room response, not just the simulated response before passing judgement. If I had to critique based strictly on the measurements and simulations, I’d 100% wonder if a better design wouldn’t be to trade sensitivity for more bass, and the in-room response would tell me that.
3. Crossover point and dispersion
One of the most important choices a speaker designer has is picking the -3 or -6 dB point for the high and low pass filters. A lot of things have to be balanced and traded off, including cost of crossover parts.
Both of the reviews, above, seem to imply a crossover point that is too high for a smooth transition from the woofer to the tweeters. No speaker can avoid rolling off the treble as you go off-axis, but the best at this do so very evenly. This gives the best off-axis performance and offers up great imaging and wide sweet spots. You’d think this was a budget speaker problem, but it is not. Look at reviews for B&W’s D series speakers, and many Focal models as examples of expensive, well received speakers that don’t excel at this.
Speakers which DO typically excel here include Revel and Magico. This is by no means a story that you should buy Revel because B&W sucks, at all. Buy what you like. I’m just pointing out that this limited dispersion problem is not at all unique to Tekton. And in fact many other Tekton speakers don’t suffer this particular set of challenges.
In the case of the M-Lore, the tweeter has really amazingly good dynamic range. If I was the designer I’d definitely want to ask if I could lower the crossover 1 kHz, which would give up a little power handling but improve the off-axis response. One big reason not to is crossover costs. I may have to add more parts to flatten the tweeter response well enough to extend it's useful range. In other words, a higher crossover point may hide tweeter deficiencies. Again, Tekton is NOT alone if they did this calculus.
I’ve probably made a lot of omissions here, but I hope this helps readers think about speaker performance and costs in a more complete manner. The listening tests always matter more than the measurements, so finding reviewers with trustworthy ears is really more important than taste-makers who let the tools, which may not be properly used, judge the experience.
@mapman +1 Speaking as a professional engineer now for a bit over 40 years, I agree with you. |
«Signal analysis for evaluating audio fidelity has 2 broad domains: Frequency (spectral) and time (temporal). To focus on only one of these is like approaching audio assessment with only half a brain. A spectrum analyzer focuses on only the first and is not best suited for studying impulse response and transients4, which are influential in defining instrumental timbre. Also Fourier representations cannot properly describe transfer functions of non-linear and non-time-invariant Milind N. Kunchur, Ph.D., APS Fellow
Once this is said... And i will cite you now :
Then your measurements had nothing to do with subjective hearing experience of a consumers ...Because they had nothing to do with hearing and hearing theory...
Your marketing distortion of truth come when you claim that a tube amplifier is "noisy" as defined by your measures not by hearing experiments and then you falsely conclude that those liking it are deluded and proved wrong by your measures, which measures had nothing to do with the experience of timbre as suggested by the text of Kunchur i quoted above when we listen non steady state signals called music .. Then go on measuring the gear specs but stop saying you can predict what will sound good for us all ... claiming the opposite is not science it is the opposite of science ...
«A lot of the controversy surrounding high-end and http://boson.physics.sc.edu/~kunchur/papers/The-Human-Auditory-System-and-Audio--Kunchur.pdf |
I like both ASR and Audiogon. Ying and Yang. Also all the others to various degrees even if I find some way more useful than others. Moderators of each site get to decide what goes and what does not FBOFW and then the cards will fall where they will. It’s a free country and people can say what they want good or bad (at least for the most part so far) but it is a bad habit for folks to want to shoot down everything in this world that they happen to take some issue with. Censorship is bad. Diversity is the reality in this world and is what makes the world go round whether any one person or group happens to think so or not. The internet confirms that for all no matter where you might actually live. Nothing is perfect! Take it all for what it’s worth. If its worth nothing to you, so be it. If someone or something is doing you actual harm, then its a different story.
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It is not the question... Anybody with a brain appreciate ASR... Some here unable to answer rationally and prove him wrong insult him. I have a brain and i dont need to insult him but can explain why he is wrong as i did here with many science articles... I even thanked Amir multiple times for his work abvout specs verification .. The question is : is the Amir claims about his set of measures enough to predict sound hearing qualities experience ? the answers rooted in acoustics is NO...
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