REW Sim is good for what it is: a simulator. It makes a lot of assumptions about the room, the speakers, and the treatment, and produces theoretical predictions of what the frequency response would be if all the assumptions happen to be totally correct. Sometimes it matches reality quite well. Most of the time, it does not. It also only predicts frequency response, which is just a small part of overall room acoustics, and not even the most important part. It tells you nothing at all about issues in the time domain, nor reflections, nor diffusion, nor diffraction, nor phasing. Those are rather important shortcomings.I don't have measurements of the empty room, but REW Room Sim is bang on.
I use REW Sim sometimes in designing rooms to get a rough idea of what the response might be, and make some basic decisions about initial treatment, but I never use it as the sole tool for treating a room. Proper treatment can ONLY be determined from a correctly done acoustical analysis of the room once it is finished but before it is treated. That analysis can certainly be done using REW, which is a fantastic tool for doing that, but using the actual measurement tools in REW, not just the prediction tool.
I only saw a few frequency response graphs there. They aren't very useful, because frequency is only one aspect of room acoustics, and not even the most important aspect, as I already mentioned above. Your graphs don't provide any useful information. I would need the actual MDAT files.I do have other measurements, however. Files are HERE
I just forced the reactivation of that account, so you should get an e-mail about that, and be able to log in again. However, it is not possible for two accounts to use the same e-mail address.2. The old account was under the email dannycurtean@yahoo.com which I still have but I never use, thus the new name
Actually, that's not true, and that's not going to happen."You're doing it all wrong" is not constructive what so ever - its just empty words dude. Let's get specific about what is in the wrong place, and why, and where it would be placed better, and why.
Think of it this way: if you are sick, and go to your doctor, then he tells you that you have a "gastro bug" and need certain treatment, would you tell him that he was off base because he didn't explain all the micro-biology of your illness, the specific strain of the bacteria, the effect it has on your intestinal flora, the manner in which the medication he prescribed works on that specific bacteria, the chemical and biological processes involved, the details of why you should take it exactly that frequently, for exactly so many days, in exactly that dosage, etc.? Or would you just go out and buy the pills, and take them on schedule? Would knowing all the intricate details of the biochemical response make you better any sooner?
That's the issue here. I simply do not have time to explain every last reason behind every recommendation I make to forum members, who are getting a lot of valuable advice absolutely free of charge. When one of my paying customers asks for a detailed explanation of why I did what I did for his room, I'll be more than happy to spend the time with him going through it. But I will not do that for free, for forum members who are just curious, and don't need to know WHY something works in full theoretical detail: they just need to know THAT it works.
That said, occasionally I do have some spare time to do that, and some forum members "get lucky" if I happen to explain something in detail on their thread that will be useful to other people who find it later. But that doesn't happen all the time, for one basic reason: there's only one of me, and I simply do not have the time to be answering every single question posed by every one of the 20,000 members on this forum. I do my best, because I really enjoy helping out when I can, but I cannot possibly be on-line on the forum 24/7 as an automatic free acoustic consultation service.
If you really did know that for a fact, you wouldn't be here asking for advice!4. I haven't seen a single piece of information that points to tweaking or improving anything. You're too busy saying "its all crap", which I know for a damn FACT it is not!
I do this for a living. Designing studios is what I do. I look at yours, and I see what is wrong, and I see how to fix it, and I can pretty much tell by looking how it will work out, of you do it right. Just like a doctor can look at you, ask a few questions, and pretty much know what the prolbem is.
Your place could be pretty darn good. Way better than what you are describing, and way better than what your graphs are showing.
Here's an example of a room I did a couple of years ago, so you can see what can be accomplished.
The RT-60 decay plot for the original untreated room:
Based on the dimensions and use of the room, the target RT60 time I calculated at the above time was 290ms. Here's the final plot of the completed room:
Here's the frequency response plot of the original untreated room, for the entire spectrum:
And the final plot, for the treated room:
Concentrating on only the low end of the spectrum, which is the most important part, here's the original frequency response, untreated:
And the final plot, treated:
And most important of all, of course, are the waterfall plots.
First, the untreated room, for the full spectrum:
And the treated room, full spectrum:
And the cherry on top: The plot for just the lowest part of the spectrum, untreated room:
And the final treated room: The customer wanted a 6 dB boost in the low end: he got it. He wanted some high frequency roll-off: he got it.
I'm not going to go into all the details of every last bit of treatment I designed for that room, or how I did each part, any more then your doctor would go into the intricacies of how the active components of the medication he prescribed actually work at the cellular level: it's not necessary to know that. My customer never asked, and I never told him (although I would have, if he had asked, since he was a paying customer). He simply asked what he needed to do, I told him, he did it, and he got the results.
Yes, it is wrong, regardless of whether I show you what is wrong with it, or how to fix it. Wrong is wrong, regardless of your opinion of it. There's no relativism here: It's wrong because it is wrong, not because I say so, or because you don't understand it. It's just wrong, period.It isnt wrong until you show me what IS right!
... which is wrong. For perfect accuracy, that should be 47 1/4" for the acoustic axis, not the tweeter. The acoustic axis is the point from which the sound appears to emanate. For most speakers, oriented correctly, it is not at the tweeter. It is usually close to the tweeter, but not at the tweeter.The speakers are at 48 inch for the tweeter in the final design,
Diffusers do not control reflections: they diffuse part of the reflections, within a controlled frequency range. In doing so, they cause massive phasing and timing artifacts that are manifested as lobing patterns that greatly alter many aspects of the sound, within a distance of roughly 5 to 7 times the wavelength of the low cut-off frequency, and scattering artifacts for another octave below that. That's why diffusers are not recommended for small rooms, since it is not possible to keep them far enough away from all critical listening positions. They are only suitable for large control rooms. There should be a distance of at least ten feet between any tuned diffuser and the mix position or client couch position, and if the wavelength makes it necessary, then the distance should be even greater. Yours are only 55" away from your face, and they are tuned plenty low enough that they should not be used in that room at all. There is no location where they can be sufficiently far away from your head.The tuned diffuser is there to control any front to back reflections and deal with them.
There should also never by anything that substantially changes the spectral, phase, or timing characteristics of the sound field, in the front section of the room. Behind you, it is possible, but not in front of you. The reason is simple: you do not want ANYTHING that would change the direct sound coming from the speakers, between them and you, or even around them, where they could have a detrimental effect on the direct sound.
My advice would be to ditch the diffuser: even though it looks very nice, it is doing you no favors at all, and I'd bet good money that the artifacts will be glaringly evident in your MDAT file, (assuming you took the measurements correctly).
Yes, many people do "like" them, but they use them inappropriately, where they are not only not needed, but are actually doing detrimental things. Many people "like" putting small boxy NS10-style speakers on their meter bridges too, but it doesn't mean they will ever sound good there! Which is the reason why the expert engineers do it: so they purposely do not sound good! But there's an awful lot of studios and engineers around who do it because it "looks cool" and "the big studios do it so I must too", without having any idea why they are really there...It's not a necessity, but I figured with the window there it may be a good idea as most people like diffusers front to back.
Just because you see something in photos of other studios does no mean that it makes sense for your studio. It does not even mean that it makes sense for the studio where you saw it! There's an awful lot of "Gee that looks great! I want one too!" among studio owners and sound engineers...
There's a lot of studios that have diffusers on the rear wall, just inches from the client's ears. Go figure! Move your head a fraction left or right while seated on that couch, and you can hear the artifacts, clearly. I never figured out why people would do that... Probably they saw a photo of a properly designed studio with a diffuser on the rear wall, but never noticed that the client couch was several feet away from it... They just thought it looked cool and "since the world class XYZ studio has one, I must need one too!" But failed to notice that their room was much smaller, with no way to separate the couch, and probably needed very different tuning on the diffuser anyway...
Sorry, but they are. They are too close to the corners, where they will trigger modes and cause bass-build up unnecessarily, they are too far away from the front wall, and are therefore causing comb filtering and mid-range lift, as well as SBIR issues in the low end, and they are angled incorrectly, since your ears are not on axis to the speakers. Off-axis response is never smooth, even for the best of speakers. On axis-response is usually pretty darn good, even for mediocre speakers. If you listen off-axis, you are NOT hearing what the speakers are trying to tell you: you are hearing a version that is distorted in both frequency and phase, and also in intensity. I try to never have the key listening positions more than about 10° off axis, max. That's not always possible, but it's a good goal to shoot for. (That said, there are also some good reasons why being perfectly on axis can also be a mistake...).3. No they're not.
Then I'll make something equally clear: unless you put them in the right place, oriented the right way, and with the right treatment around them, you will not ever get smooth response. Period. It's that simple. Either you can move them to where they should be, or you can give up on ever getting usable response. Speaker placement is critical.They certainly are not in the ideal place, of course, but this isn't changing, period! I made this clear in the OP.
Neither am I: I'm just telling you the plain truth. Because the laws of physics and psycho-acoustics prevent anything else from happening. I didn't make those laws: all I can do is tell you how they work. Ignoring them won't make them go away.Not because I'm a dick,
Then remove the constraints! If you want your acoustic response to work well (which it could in that room), then fix whatever is preventing you from doing it right.but because I have constraints.
I'm not talking about simply moving them a bit front to back: all you would accomplish with that is to move the SBIR artifacts and comb filtering artifacts to different frequencies. I'm talking about the holistic approach: setting them up with correct geometric relationship to the room and the listening position, in all aspects at once, including treatment.And besides, I moved the speakers around front to back by as much as 3 feet and although different, there are only tradeoffs.
Hint: you CANNOT set up a room by ear. It would take you forever to try all the possible combinations, and human auditory memory does not last long enough to be able to compare them all intelligently anyway. Our brains only have the ability to accurately remember what another setup sounded like for a few seconds: hence the need for fast A-B switching when auditioning speakers. Human hearing also does not have the resolution to determine differences in level at each frequency accurately: it just "sounds wrong", but the ear and brain are not capable of calculating what the problem is. If you can't calculate it accurately, you can't fix it accurately.
The ONLY way to set up a room optimally, is by using acoustic prediction principles, and acoustic measurement tools (such as REW) that can accurately graph a number of different responses visually, for easy comparison.
... which is the least effective place for them to be! The main purpose of bass traps is to damp room modes. All room modes terminate in corners. The most effective place for bass traps is the tri-corners of the room (where 3 surfaces meet), because that's where ALL modes terminate. The second most effective place is in the corners where 2 surfaces meet. And a distant third place is the surfaces themselves. And that assumes that the correct treatment is placed on the correct wall: it is pointless treating a 0.0.x axial mode on the side walls, for example. Zero effect.and happen to also be bass traps which mounted right on the boundary surfaces of the room.
... which is best treated by using a "checkerboard" approach. You still have opposing surfaces that are untreated, and opposing surfaces that are treated. Not a smart way to deal with flutter, slap-back, or similar issues.There's quite allot of slap back in the room
That's a pity. It messes up your psycho-acoustic perception of the speaker locations, as well as your ability to determine directionality, so you'll never get an accurate sense of the real sound-stage, and never have an accurate stereo image. Carpet is pretty good at destroying spatial perception. So since you are determined to keep the carpet, you'll be sacrificing all of that.5. Yeah, carpet on the floor - its staying.
Have you ever noticed that world-class control rooms practically never have carpet on the floors in the front half of the room? There's a reason for that. So as long as you are happy with your room never being able to provide the clues to your brain that it needs to correctly determine spatial locations, then that's fine: leave the carpet in. On the other hand, if you want your room to be the best it can be, do what the pros do, and take it out.
Then something was wrong with the way the treatment was design, built, or located. The first round should show a major, marked difference. Subsequent rounds are just tweaks. If the first round didn't work, then there was something wrong with it. Adding more won't fix that.I built the first round for the room, trying to keep it minimal, and realized it wasn't cutting it.
Membrane traps are notoriously hard to tune accurately, and have to be located at the pressure peak for the node in question. If that happens to be under your seat, what are you going to do? Once again, if the issue is a vertical axial mode, then putting a trap that is tuned for it on the rear wall is going to accomplish zilch: it would have to go on the ceiling pressure node, or the floor pressure node.They're being converted to MLV traps which should.
Yes, seriously. commercial treatment is designed very carefully for specific response. If you substitute anything, then it will not work the same way: the response will be different. If you did not use the exact same insulation, for example, then it will be tuned differently. I'm not worried about the cosmetic aspects: that's not what I was referring to. I was talking about building it the same, using the same materials, and the same finish. If they used 1" thick oak, and you used 5/8" MDF, then it won't work the same. If they used fluffy fiberglass with a GFR of 6,000 MKS rayls, and you used semi-rigid mineral wool with 60,000 MKS rayls, then the response will be very, very different. If they screwed and glued theirs together, but you only nailed yours, it won't work the same.Why does it matter if I built them "cosmetically" as the commercial stuff?! Seriously?!
You cannot just look at some photos of an acoustic treatment device, build something that looks similar, and expect it to perform the same. Unless you know every spec of what they used, then your knock-off will not work the same as their original.
It's a perfectly solid, reasonable, and sound question for anyone who understands acoustics.And yes, I wouldn't spend dozens of hours building shit without calculating what the hell I'm building. What kind of question is this?!
Well, you could probably build a bass trap using crickets if you wanted, but I doubt it would be very effective!I was aware that a limp mass absorber can do that, but the alternative is......."crickets"
There are many alternatives. First, set up the room geometry to minimize SBIR, since it is practically impossible to fix with treatment. Second, test the room and place deep, thick broadband porous absorber traps at the most suitable location for each modal issue. Third, test the room again to see what worked, what didn't work, figure out why, and modify, remove, or add new treatment as needed.
Bad idea. Speakers stands need very large amounts of mass to be effective. Concrete blocks are often recommended, or sand-filled steel profiles. Tube traps have very little mass.Intended purpose of tube traps is as speaker stands,
Poly-cylindric traps need to be sized correctly for the wavelengths that are to be treated, and they need to be spaced correctly too. And positioned correctly. They need to go at the nodal points for the wave in question. There's no point at all in placing a poly at a modal null... It won't ever "see" the problem that it is suppose to treat.as diffusers on walls
Sorry, but they are. that's evident from looking at the pics and the model.And none of them are placed in the wrong place.
Huh? You HAVE to be kidding! Bass traps treat room MODES. If you put one at the point where there is no mode, then it does NOTHING. That's just plain logic. if you place a velocity-based trap at a location in the room where the velocity component of the mode is zero, or close to zero, then you get zero effect. If you place a pressure-based device at a location in the room where the pressure component of the mode is zero, or close to zero, then you get zero effect. Modes are standing waves: they have peaks and nulls at specific locations in the room, and those do not change. You MUST place your device in the correct location for the mode you need to treat. If your number one issue is a first-order axial mode, then the absorption MUST go on the front or back wall. Putting it on the side walls or the ceiling would be pointless, because there are no nodes on the side walls or ceiling that are relate to x.0.0 modes. Correctly placing a bass trap of any kind is important, but if it is a tuned trap then it is imperative to place it at the peak pressure or velocity node for that specific mode. Any other location is pointless.but there is hardly a "wrong place" for a bass trap man!
I don't know where you are getting your information from, but clearly it is not a valid source of sound acoustic knowledge.
That's not what I asked: I asked HOW they were tuned, not what frequencies they were tuned to.All traps are tuned to 60Hz or 140 Hz
Also, how did you determine that you have modal issues at exactly 60 Hz and 140 Hz? Are you sure it isn't, for example, 57 Hz and 145 Hz? Or 63 Hz and 136 Hz? Are you aware that room modes are very narrow-band, just a couple of Hz wide, and that hitting them exactly with a tuned device is really, really hard to do? If you have a modal problem at 62 Hz, and your device is tuned to 55 Hz, it won't work. That's a huge difference: 13% difference. Two entire notes on the musical scale. If the mode really is at exactly 62 Hz, you'd need to ensure that your device is tuned to 62 Hz, +/- 1.2 Hz. If not, you won't hit it.
And that's assuming that the problem really is a mode: if it is an SBIR issue, then no tuned trap can ever fix it, since it is not related to standing waves or resonance of any kind; it is related only to phase, time and distance.
How did you determine that 60Hz and 140Hz are modal, not SBIR?
That isn't tuning: that's the period number (prime sequence). That only tells you how many wells you have, not the tuning of the device. I was asking for the tuning: the tuned center frequency, the lower cut-off, the upper cut-off, and the scatter cut-off.QRD 13 tuning.
Pretty much all of it. There's very little in there that is in the correct location, correctly tuned, correctly dimensioned, or even using the correct concept. It looks like a "let's throw in everything but the kitchen sink and hope something works" approach.If it's overkill, what about it is.
The reason why you put in one round and got no results is because you put the wrong things in the wrong place, with the room set up wrongly to start with.
Right. But I do not plan on trying to explain every last detail of every last recommendation I make: I just do not have the time for that. Just like your doctor telling you to take 21 pills of 50 mg, 3 times per day after meals for 7 days without question, you can either trust that I know what I'm talking about and do it, or you can ignore it and stay sick. I already spent far more time on you than I do with the vast majority of forum members, and I don't plan to spend any more. That's a whole bunch of rather expensive advice that you got for absolutely nothing. Free. Gratis. If you don't like it, don't take it. If you don't trust the doctor, don't take his pills. But don't pester him to explain the intricacies of biochemistry and pharmacological action, just to please your ego.You clearly had a reason to say everything you said, else you wouldn't have bothered.
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Matt knows what he is talking about. I've walked him through a number of REW tests until he got his bugs worked out, and now he is working on his treatment, based on what I saw in his REW data. He's not interested in understanding the particle velocities at the boundary faces of the bass traps, nor the minimum phase slope at the critical frequencies: he just wants to know what size trap to put where, and how to build it most effectively. He just wants the prescription and the results, not a master's thesis on how it works.Listen to what Stuart has to say, I don't think being so aggressive and ignoring his advice is going to help though!
That will work, but only if you get the geometry correct first. Until you locate, orient and angle your speakers and mix position correctly, there isn't much point in placing treatment correctly.I'll take your advise and tear everything out, and try adding one section at a time.
Sorry if this comes over the wrong way, but to me it sounds like you have already decided what you want the room to look like, and to hell with the way it sounds! In other words, it seems to me from what you have said that aesthetics come first, and acoustics a distant second. If some acoustic issue forced a change in the appearance of the room, you'd rather live with the acoustic problem and keep the appearance. Maybe I'm wrong about that. but that's what it sounds like. When I design a room, I take the exact opposite approach: I design whatever is needed to make the room sound the best it can, then I figure out how to make all of that look nice, and work aesthetically, as a secondary goal. It's a studio, after all, so the primary goal is that it must sound good. A studio that looks good but sounds like crap, is not a studio at all: it's just an exercise in interior decoration.That said, my end goal, budgets and overall plan is to create "that" room ultimately -
If you think the data from measurements is largely useless, then there's not much I can do to help you. In reality, the data from measurements is the key to understanding the room, and treating it right. In order to tune the room that I posted the data for above, I have 112 MDAT files that were created by the customer, totaling well over 2500 megabytes. Some of those files have 5, 10, 15 or more measurements in them. There's probably over 500 individual measurements in there, that we took to get the room right. In some cases he took a series of dozens of readings, moving the mic a specified number of inches in a specified direction from one reading to the next. It took several weeks. And every single test was pertinent. The customer wanted the room to be as good as we could possibly make it, so we went through the effort that was necessary to make it so.We can get into measurements, and a bunch of largely useless data,
The results speak for themselves.
And now we are about to do it all again, a couple of years later, because he decided to upgrade his speakers to something even better, which changes everything. So we'll be re-tuning his room for the new speakers in a couple of weeks. He doesn't mind spending the time and money to do that, because he has already seen that it works. And he doesn't give a damn about why there's a dip at the beginning of the impulse response graph, or why the perf-panel holes need to be spaced 3-7/16" apart and have a diameter of 5mm: he just does it, because he trusts the doc, because the doc already fixed his illness a couple of times before. He took the pills, got perfectly healthy again, and now wants another set of pills to fix him even better. He'll get it.
They look very pretty, and there's some great SKP skills there, obviously, but pretty renders and good modeling skills wont make the room sound good unless you first get the geometry correct.So I updated the SKP file, and did 3 photo-realistic renders for quick visual reference.
The room is too small to be able to use diffusion. Bad idea. Don't2. Incorporate allot more diffusion on side walls – reason is simple!
Actually, they are great candidates for porous absorption, correctly placed and dimensioned.Those walls, although boundaries, are not best candidates for absorption.
Good, because control rooms should NEVER be dead. Nor should they be live. They should be neutral. The decay times should perfectly match the calculated times for that room volume. Not more, not less.I don’t like dead rooms,
That's not correct. You need far more than flutter echo control on your side walls, and you do not need diffusers. Absorption works well for flutter echo too...I only need flutter control there, so that’s why diffusers.
Don't look know, but the 1/4 wavelength of 58 Hz is 4'10-1/2". You would have to make your traps nearly five feet thick, if you believe that is the way to do it...My biggest standing wave is a front to back axial node around 58 Hz. So the idea is that I get relatively broadband LF absorption in a non resonant panel which also “cuts the head and tail off of” the standing wave (1/4 wavelength rule).
I doubt it.... What SBIR frequency are we talking about here?So I get great SBIR control for rear of speakers,
My objection is that you are still going with the "Let's throw it all up in the air and hope something sticks to the ceiling" approach. That's not the right way to go about it. The correct way to go about it is to FIRST get the geometry correct, then measure, then place initial treatment, then measure, then place additional treatment, then measure, then place final tweaks treatment.There may be little things here and there, but otherwise any objections?
Sorry, but the acoustic principles that you are using are NOT sound. If they were, then it would have worked at the first try. ...I know allot of this is based on theoretical research and ideas, and that’s not ideal but we must have some sort of goal, right? And this is mine, based on what I've learned to be sound (no pun intended) acoustic principles.
Yup, that was it.Im updating my profile now.
You might want to take a look at Anton's thread: He gets it. He's getting it right. His studio will work. And he got even worse treatment than you did! But he figured out why, and corrected it. Now things are going great for him.Well, I get your tone and Ill say this "prove that I'm wrong".
They could go well for you to...
- Stuart -
Thanks for the kind words!
Nope! no no no. Nope. Baaaad idea. Floating a floor property is complex, and expensive. Floating it "non-properly" will make things worse than not floating it. Far worse, in some cases. Its not easy to do, requires a huge amount of mass, and eats up your head room. And is NOT necessary at all in the vast majority of cases. Nope. Don't even think of doing that in your room.