@roxy54 thumbs up 👍👍
THE IMPORTANCE OF TIME DOMAIN RESPONSE MUST READ
Speaker designers ignore or downplay the importance of TIME. Why?
A high end speaker should be as accurate as possible and that means it should not only be optimized with regard to frequency response but time response.
Back in the 70’s and around that time, speaker engineers thought that a perfect speaker would be one that had a flat response. This idea has waxed and waned in popularity over the years and even now there is no consensus.
What the speaker engineers forgot to consider is Time response.
The time reponse of a speaker is how fast it starts and stops. A perfect speaker would have a perfect time response of 0. Since this is not possible, we must get as close to it as possible. The problem is speakers engineers have neglected this aspect of the design and so speakers over the last 40 years have not improved in this respect.
Time is such an important aspect of the sound we hear. We not only hear tone but also time. The brain can detect time differences of only a few microseconds. Experiments have shown that the start of each note is what we use to determine what instrument is producing that sound.
We must ensure that our crossovers do not smear the time response because it will be heard by our ears. Time inaccuracy is why high end speakers do not sound like real instruments.
Diffraction from the cabinet can also cause time smear. We need spherical cabinets not square boxes. Tweeters need to be time aligned in order to ensure that when the woofer stops so does the tweeter. When the woofer starts, so must the tweeter. The woofer itself has to have a Qts of ZERO to prevent time smear. Ports must not be used or else you will get ringing.
We need to make it mandatory for speaker companies to publish the time response of all their speakers so that consumers can easily compare and decide exactly what they want. Some may actually prefer a speaker that has a poorer time response and that is fine. The problem is, we cant decide unless we know what we are buying can we?
Unfortunately, 90% of speakers on the market, even high end speakers have ports. And they are also made of cheap wood, even though there must be better materials by now. Some materials ring more than others.
So dont be deceived folks. If you want better speakers, you will probably have to make them yourself because speaker manufacturers dont care about sound quality. They spend millions of dollars on anechoic chambers all so that they can get a flat response but they spend zero effort on better time domain response. We are being duped.
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- 77 posts total
Maybe @roxy54 - or the air pressure response of a driver given an impulse of current or voltage… But the later assumes that the current is somehow not allowed to ring in the circuit from the mass of the driver and its motor through the cable to the amplifier. Hopefully @kenjit can clarify what he means, so we are not left guessing.
Then there is:
So it that a speaker, as in cabinet, driver… i.e. the whole enchilada? (where “speaker driver unit” is like an indivisible quanta fundamental element (i.e. unit) of what makes up an elemental speaker.) |
There are many sources of ringing within the speaker. The cabinet can ring, the driver can ring, the crossover parts can ring. We need to stop all ringing wherever it occurs. It needs to be able to reproduce a square wave |
Maybe let’s just ignore the ringing that may be happening long after the square wave’s fundamental period is over. Or we could take a step function, so we only have 1/2 of the square wave… and that makes it simpler to consider and we got rid of half of the square wave… and also got rid of a train of square waves.
What needs to reproduce a square wave?
What should the electrical square wave input look like in a plot? |
- 77 posts total